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Phylogenetic classification of the world’s tropical forests
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2018Embargo end date: 01 Jan 2018 Brazil, United States, Brazil, Germany, Indonesia, Denmark, Netherlands, Spain, Germany, Switzerland, France, Germany, Indonesia, Australia, Ireland, Belgium, Germany, Brazil, Denmark, Australia, Switzerland, France, Switzerland, Norway, Australia, Australia, United Kingdom, France, Netherlands, Italy, Netherlands Publisher:Proceedings of the National Academy of SciencesPublicly fundedFunded by:EC | MF-RADAR, NWO | Inkomsten op project 0659..., UKRI | SCORE: Supply Chain Optim...
EC| MF-RADAR ,
NWO| Inkomsten op project 06592: Fibers as safety marker in security paper ,
UKRI| SCORE: Supply Chain Optimisation for demand Response Efficiency
Authors: Slik, J W F; Franklin, J; Arroyo-Rodriguez, V; Field, R; +196 Authors
Slik, J W F; Franklin, J; Arroyo-Rodriguez, V; Field, R; Aguilar, S; Aguirre, N; Ahumada, J; Aiba, S I; Alves, L F; Anitha, K; Avella, A; Mora, F; Aymard, G A; Baez, S; Balvanera, P; Bastian, M L; Bastin, J F; Bellingham, P J; van den Berg, E; Bispo, P D; Boeckx, P; Boehning-Gaese, K; Bongers, F; Boyle, B; Brambach, F; Brearley, F Q; Brown, Sandra; Chai, S L; Chazdon, Robin L; Chen, S B; Chhang, P; Chuyong, G; Ewango, C; Coronado, I M; Cristobal-Azkarate, J; Culmsee, H; Damas, K; Dattaraja, H S; Davidar, P; DeWalt, S J; Din, H; Drake, D R; Duque, A; Durigan, G; Eichhorn, K; Eler, E S; Enoki, T; Ensslin, A; Fandohan, A B; Farwig, N; Feeley, K J; Fischer, M; Forshed, O; Garcia, Q S; Garkoti, S C; Gillespie, T; Gillet, J F; Gonmadje, C; Granzow-de la Cerda, I; Griffith, D M; Grogan, James; Hakeem, K R; Harris, D J; Harrison, R D; Hector, A; Hemp, A; Homeier, J; Hussain, M S; Ibarra-Manriiquez, G; Hanum, I F; Imai, N; Jansen, P A; Joly, C A; Joseph, S; Kartawinata, K; Kearsley, E; Kelly, D L; Kessler, M; Killeen, T J; Kooyman, R M; Laumonier, Y; Laurance, S G; Laurance, W F; Lawes, M J; Letcher, S G; Lindsell, J; Lovett, J; Lozada, J; Lu, X H; Lykke, A M; Bin Mahmud, K; Mahayani, N P D; Mansor, A; Marshall, Andrew R; Martin, E H; Matos, D C L; Meave, J A; Melo, F P L; Mendoza, Z H A; Metali, F; Medjibe, V P; Metzger, J P; Metzker, T; Mohandass, D; Munguia-Rosas, M A; Munoz, R; Nurtjahy, E; de Oliveira, E L; Onrizal; Parolin, P; Parren, M; Parthasarathy, N; Paudel, E; Perez, R; Perez-Garcia, E A; Pommer, U; Poorter, L; Qie, L; Piedade, M T F; Pinto, J R R; Poulsen, A D; Poulsen, J R; Powers, J S; Prasad, R C; Puyravaud, J P; Rangel, O; Reitsma, J; Rocha, D S B; Rolim, S; Rovero, F; Rozak, A; Ruokolainen, K; Rutishauser, E; Rutten, G; Said, M N M; Saiter, F Z; Saner, P; Santos, B; dos Santos, J R; Sarker, S K; Schmitt, C B; Schoengart, J; Schulze, M; Sheil, D; Sist, P; Souza, A F; Spironello, W R; Sposito, T; Steinmetz, R; Stevart, T; Suganuma, M S; Sukri, R; Sultana, A; Sukumar, R; Sunderland, T; Supriyadi; Suresh, H S; Suzuki, E; Tabarelli, M; Tang, J W; Tanner, E V J; Targhetta, N; Theilade, I; Van Do, T; Van Sam, H; Vandermeer, J H; Verbeeck, H; Vetaas, O R; Adekunle, V; Vieira, S A; Webb, C O; Webb, E L; Whitfeld, T; Wich, S; Williams, J; Wiser, S; Wittmann, F; Yang, X B; Yao, C Y A; Yap, S L; Zahawi, R A; Zakaria, R; Zang, R G; Thomas, D; Van Valkenburg, J; Van Do, Tran; Van Sam, Hoang; Vandermeer, John H; Verbeeck, Hans; Vetaas, Ole Reidar; Adekunle, Victor; Vieira, Simone A; Webb, Campbell O; Webb, Edward L; Whitfield, Timothy; Wich, Serge; Williams, John; Wiser, Susan; Wittmann, Florian; Yang, Xiaobo;
doi: 10.1073/pnas.1714977115 , 10.7892/boris.111855 , 10.5167/uzh-148586 , 10.3929/ethz-b-000247422 , 10.5445/ir/1000081049
pmid: 29432167
pmc: PMC5828595
handle: 11245.1/990587ee-c206-4a19-95d0-683f1f0984c9 , 11250/2670469 , 2158/1152029 , 1854/LU-8559907 , 2262/89576 , 10568/112419 , 10088/35248 , 10088/35154 , 2381/45075
doi: 10.1073/pnas.1714977115 , 10.7892/boris.111855 , 10.5167/uzh-148586 , 10.3929/ethz-b-000247422 , 10.5445/ir/1000081049
pmid: 29432167
pmc: PMC5828595
handle: 11245.1/990587ee-c206-4a19-95d0-683f1f0984c9 , 11250/2670469 , 2158/1152029 , 1854/LU-8559907 , 2262/89576 , 10568/112419 , 10088/35248 , 10088/35154 , 2381/45075
Significance Identifying and explaining regional differences in tropical forest dynamics, structure, diversity, and composition are critical for anticipating region-specific responses to global environmental change. Floristic classifications are of fundamental importance for these efforts. Here we provide a global tropical forest classification that is explicitly based on community evolutionary similarity, resulting in identification of five major tropical forest regions and their relationships: ( i ) Indo-Pacific, ( ii ) Subtropical, ( iii ) African, ( iv ) American, and ( v ) Dry forests. African and American forests are grouped, reflecting their former western Gondwanan connection, while Indo-Pacific forests range from eastern Africa and Madagascar to Australia and the Pacific. The connection between northern-hemisphere Asian and American forests is confirmed, while Dry forests are identified as a single tropical biome.
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Article . 2018
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Global dominance of lianas over trees is driven by forest disturbance, climate and topography
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2024 United Kingdom Publisher:WileyFunded by:ARC | Future Fellowships - Gran...
ARC| Future Fellowships - Grant ID: FT170100279
Authors: Alain Senghor K. Ngute; David S. Schoeman; Marion Pfeifer; Geertje M. F. van der Heijden; +16 Authors
Alain Senghor K. Ngute; David S. Schoeman; Marion Pfeifer; Geertje M. F. van der Heijden; Oliver L. Phillips; Michiel van Breugel; Mason J. Campbell; Chris J. Chandler; Brian J. Enquist; Rachael V. Gallagher; Christoph Gehring; Jefferson S. Hall; Susan G. W. Laurance; William F. Laurance; Susan G. Letcher; Yu-Xuan Mo; Martin J. P. Sullivan; S. Joseph Wright; Chun-Ming Yuan; Andrew R. Marshall;
doi: 10.1111/gcb.17140 , 10.60692/mgssn-y4r27 , 10.60692/w8cfv-9t640
pmid: 38273497
handle: 1959.7/uws:76837
doi: 10.1111/gcb.17140 , 10.60692/mgssn-y4r27 , 10.60692/w8cfv-9t640
pmid: 38273497
handle: 1959.7/uws:76837
AbstractGrowing evidence suggests that liana competition with trees is threatening the global carbon sink by slowing the recovery of forests following disturbance. A recent theory based on local and regional evidence further proposes that the competitive success of lianas over trees is driven by interactions between forest disturbance and climate. We present the first global assessment of liana–tree relative performance in response to forest disturbance and climate drivers. Using an unprecedented dataset, we analysed 651 vegetation samples representing 26,538 lianas and 82,802 trees from 556 unique locations worldwide, derived from 83 publications. Results show that lianas perform better relative to trees (increasing liana‐to‐tree ratio) when forests are disturbed, under warmer temperatures and lower precipitation and towards the tropical lowlands. We also found that lianas can be a critical factor hindering forest recovery in disturbed forests experiencing liana‐favourable climates, as chronosequence data show that high competitive success of lianas over trees can persist for decades following disturbances, especially when the annual mean temperature exceeds 27.8°C, precipitation is less than 1614 mm and climatic water deficit is more than 829 mm. These findings reveal that degraded tropical forests with environmental conditions favouring lianas are disproportionately more vulnerable to liana dominance and thus can potentially stall succession, with important implications for the global carbon sink, and hence should be the highest priority to consider for restoration management.
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Carbon sequestration potential of second-growth forest regeneration in the Latin American tropics
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2016 Brazil, United Kingdom, Germany, United Kingdom, Netherlands, Brazil Publisher:American Association for the Advancement of Science (AAAS)Funded by:EC | ROBIN, NSF | CAREER: Ecosystem process..., NSF | COLLABORATIVE RESEARCH: M... +7 projects
EC| ROBIN ,
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Robin L. Chazdon; Robin L. Chazdon; Yule Roberta Ferreira Nunes; Danaë M. A. Rozendaal; +70 Authors
Robin L. Chazdon; Robin L. Chazdon; Yule Roberta Ferreira Nunes; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; Hans van der Wal; Paulo Eduardo dos Santos Massoca; Madelon Lohbeck; Madelon Lohbeck; Hans F. M. Vester; Eben N. Broadbent; Jorge A. Meave; Jarcilene S. Almeida-Cortez; Ima Célia Guimarães Vieira; Jorge Rodríguez-Velázquez; José Luis Hernández-Stefanoni; Arturo Sanchez-Azofeifa; Ben de Jong; María Uriarte; Jefferson S. Hall; Frans Bongers; Isabel Eunice Romero-Pérez; María C. Fandiño; Angelica M. Almeyda Zambrano; Robert Muscarella; Robert Muscarella; Ricardo Gomes César; Marc K. Steininger; T. Mitchell Aide; Pedro H. S. Brancalion; Justin M. Becknell; Lourens Poorter; Susana Ochoa-Gaona; G. Bruce Williamson; G. Bruce Williamson; Eduardo A. Pérez-García; Rodrigo Muñoz; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Vanessa K. Boukili; George A. L. Cabral; Edith Orihuela-Belmonte; Patricia Balvanera; Marielos Peña-Claros; Francisco Mora; Miguel Martínez-Ramos; Sandra M. Durán; Juan Saldarriaga; Mário M. Espírito-Santo; Michiel van Breugel; Michiel van Breugel; Michiel van Breugel; Nathan G. Swenson; Saara J. DeWalt; Jorge Ruiz; Jorge Ruiz; Maria das Dores Magalhães Veloso; Dylan Craven; Dylan Craven; Deborah K. Kennard; Rita C. G. Mesquita; Julie S. Denslow; Jennifer S. Powers; Naomi B. Schwartz; Catarina C. Jakovac; Catarina C. Jakovac; Daisy H. Dent; Daisy H. Dent; Daniel Piotto; Tony Vizcarra Bentos; Juan Manuel Dupuy;
doi: 10.1126/sciadv.1501639
pmid: 27386528
pmc: PMC4928921
handle: 1893/24020
doi: 10.1126/sciadv.1501639
pmid: 27386528
pmc: PMC4928921
handle: 1893/24020
Models reveal the high carbon mitigation potential of tropical forest regeneration.
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Lianas and self-supporting plants during tropical forest succession
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2009 Australia, United States, United States Publisher:Elsevier BV
Authors: Letcher, S G; Chazdon, Robin L;
doi: 10.1016/j.foreco.2009.02.028
doi: 10.1016/j.foreco.2009.02.028
Abstract Lianas (woody vines) are an important component of tropical forests, with a strong impact on forest dynamics, but their responses during forest succession have received relatively little attention. Here, we present an analysis of the changes in stem density, biomass, and species richness of lianas and self-supporting plants during tropical forest succession. We surveyed lianas ≥0.5 cm diameter at breast height (dbh) and self-supporting plants ≥2.5 cm dbh in 0.1 ha inventory plots in a chronosequence of 30 sites in northeastern Costa Rica, 23 sites on abandoned pastures 10–44 years of age, and seven sites in old-growth forest. Stem density of self-supporting plants showed no predictable chronosequence trend, but liana stem density declined significantly with forest age. Aboveground biomass of self-supporting vegetation increased rapidly during succession, with forests 31–44 years exhibiting higher levels of biomass than old-growth forests. Liana biomass accumulated more slowly, with the highest levels in old-growth sites. Species richness of self-supporting vegetation increased significantly during succession, but species richness of lianas showed no change or a slight decline with forest age, depending on the method of assessment. The differences between tree and liana responses during succession stem from the unique physiology and life history traits of lianas.
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Legume abundance along successional and rainfall gradients in Neotropical forests
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2018 United Kingdom, United States, United Kingdom, Netherlands, Australia, Australia Publisher:Springer Science and Business Media LLCFunded by:NSF | CAREER: Ecosystem process..., NSF | COLLABORATIVE RESEARCH: M..., NSF | Controls on the Storage a... +8 projects
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSERC ,
NSF| Environmental Heterogeneity and Woody Species Diversity in Low-elevation Tropical Secondary Forests ,
NSF| 3rd Collaborative Research Network Program (CRN3) ,
NSF| Collaborative Research: Causes and Consequences of Tree Colonization Patterns in Wet Tropical Forests ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Lourens Poorter; Edwin Lebrija-Trejos; Ricardo Gomes César; Whendee L. Silver; +72 Authors
Lourens Poorter; Edwin Lebrija-Trejos; Ricardo Gomes César; Whendee L. Silver; Gabriel Dalla Colletta; Erika Marin-Spiotta; André Braga Junqueira; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; María Uriarte; T. Mitchell Aide; Janet I. Sprent; Arturo Sanchez-Azofeifa; G. Wilson Fernandes; Saara J. DeWalt; Daniel Piotto; Frans Bongers; Susana Ochoa-Gaona; Mira Garner; Patricia Balvanera; Rebecca J. Cole; Casandra Reyes-García; Edith Orihuela-Belmonte; Eduardo A. Pérez-García; Jorge Rodríguez-Velázquez; Justin M. Becknell; Duncan N. L. Menge; José Luis Andrade; Robert Muscarella; Jefferson S. Hall; Benjamin W. Sullivan; Juan Manuel Dupuy; Mário M. Espírito Santo; Peter B. Reich; Peter B. Reich; Yule Roberta Ferreira Nunes; Francisco Mora; Miguel Martínez-Ramos; Arlete Silva de Almeida; Ben de Jong; Sandra M. Durán; Pedro H. S. Brancalion; Marielos Peña-Claros; I. Eunice Romero-Pérez; Lucía Sanaphre-Villanueva; Robin L. Chazdon; Michiel van Breugel; Michiel van Breugel; Jess K. Zimmerman; Maga Gei; Deborah K. Kennard; Nathan G. Swenson; Vanessa Granda Moser; José Luis Hernández-Stefanoni; George A. L. Cabral; Daisy H. Dent; Daisy H. Dent; Vanessa de Souza Moreno; Julie S. Denslow; Rodrigo Muñoz; Jennifer S. Powers; Jennifer S. Powers; Bryan Finegan; Jorge A. Meave; Madelon Lohbeck; Madelon Lohbeck; Hans F. M. Vester; Jarcilene S. Almeida-Cortez; Ima Célia Guimarães Vieira; Naomi B. Schwartz; Maria das Dores Magalhães Veloso; Rebecca Ostertag;
doi: 10.1038/s41559-018-0559-6
pmid: 29807995
handle: 1893/27327
doi: 10.1038/s41559-018-0559-6
pmid: 29807995
handle: 1893/27327
The nutrient demands of regrowing tropical forests are partly satisfied by nitrogen-fixing legume trees, but our understanding of the abundance of those species is biased towards wet tropical regions. Here we show how the abundance of Leguminosae is affected by both recovery from disturbance and large-scale rainfall gradients through a synthesis of forest inventory plots from a network of 42 Neotropical forest chronosequences. During the first three decades of natural forest regeneration, legume basal area is twice as high in dry compared with wet secondary forests. The tremendous ecological success of legumes in recently disturbed, water-limited forests is likely to be related to both their reduced leaflet size and ability to fix N2, which together enhance legume drought tolerance and water-use efficiency. Earth system models should incorporate these large-scale successional and climatic patterns of legume dominance to provide more accurate estimates of the maximum potential for natural nitrogen fixation across tropical forests.
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Climate change increases threat to plant diversity in tropical forests of Central America and southern Mexico
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2024 Spain Publisher:Public Library of Science (PLoS)Publicly funded
Authors: Miguel Álvarez Ortega; Luis Cayuela; Daniel M. Griffith; Angélica Camacho; +20 Authors
Miguel Álvarez Ortega; Luis Cayuela; Daniel M. Griffith; Angélica Camacho; Indiana Coronado; Rafael F. del Castillo; Blanca L. Figueroa-Rangel; William Fonseca; Cristina Garibaldi; Daniel L. Kelly; Susan G. Letcher; Jorge A. Meave; Luis Merino-Martín; Víctor Meza; Susana Ochoa-Gaona; Miguel Olvera‐Vargas; Neptalí Ramírez‐Marcial; Fernando Tun‐Dzul; Mirna Valdéz-Hernández; Eduardo Velázquez; David A. White; Guadalupe Williams‐Linera; Rakan A. Zahawi; Jesús Muñoz;
doi: 10.1371/journal.pone.0297840 , 10.60692/smky6-6ss50 , 10.60692/s9np5-zn269
pmid: 38422027
pmc: PMC10903834
handle: 10261/364160
doi: 10.1371/journal.pone.0297840 , 10.60692/smky6-6ss50 , 10.60692/s9np5-zn269
pmid: 38422027
pmc: PMC10903834
handle: 10261/364160
Global biodiversity is negatively affected by anthropogenic climate change. As species distributions shift due to increasing temperatures and precipitation fluctuations, many species face the risk of extinction. In this study, we explore the expected trend for plant species distributions in Central America and southern Mexico under two alternative Representative Concentration Pathways (RCPs) portraying moderate (RCP4.5) and severe (RCP8.5) increases in greenhouse gas emissions, combined with two species dispersal assumptions (limited and unlimited), for the 2061–2080 climate forecast. Using an ensemble approach employing three techniques to generate species distribution models, we classified 1924 plant species from the region’s (sub)tropical forests according to IUCN Red List categories. To infer the spatial and taxonomic distribution of species’ vulnerability under each scenario, we calculated the proportion of species in a threat category (Vulnerable, Endangered, Critically Endangered) at a pixel resolution of 30 arc seconds and by family. Our results show a high proportion (58–67%) of threatened species among the four experimental scenarios, with the highest proportion under RCP8.5 and limited dispersal. Threatened species were concentrated in montane areas and avoided lowland areas where conditions are likely to be increasingly inhospitable. Annual precipitation and diurnal temperature range were the main drivers of species’ relative vulnerability. Our approach identifies strategic montane areas and taxa of conservation concern that merit urgent inclusion in management plans to improve climatic resilience in the Mesoamerican biodiversity hotspot. Such information is necessary to develop policies that prioritize vulnerable elements and mitigate threats to biodiversity under climate change.
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Extracted raw data from: Global dominance of lianas over trees is driven by forest disturbance, climate, and topography
Research datakeyboard_double_arrow_right Dataset 2023Publisher:Zenodo
Authors: Ngute, Alain Senghor K.; van der Heijden, Geertje M.F.; van Breugel, Michiel; Enquist, Brian J.; +7 Authors
Ngute, Alain Senghor K.; van der Heijden, Geertje M.F.; van Breugel, Michiel; Enquist, Brian J.; Gallagher, Rachael V.; Gehring, Christoph; Laurance, Susan G.W.; Laurance, William F.; Letcher, Susan; Liu, Wenyao; Phillips, Oliver L;
doi: 10.5281/zenodo.10428833 , 10.5281/zenodo.10428834
doi: 10.5281/zenodo.10428833 , 10.5281/zenodo.10428834
In a meta-analysis, we use an unprecedented dataset, representing 556 unique locations worldwide, distributed across 44 countries and six continents to show for the first time that lianas (woody vines) thrive relatively better than trees when forests are disturbed, temperature increase, precipitation decrease, and particularly in tropical lowlands. We demonstrate that liana dominance can persist for decades post-disturbance and hinder the recovery of disturbed forests, especially when climate favours lianas. With implications for the global carbon sink, our findings suggest that degraded tropical forests with environmental conditions favouring lianas should be the highest priority to consider for restoration management.
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The PREDICTS database: a global database of how local terrestrial biodiversity responds to human impacts.
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2014Embargo end date: 08 Feb 2019 Hungary, United Kingdom, Netherlands, Italy, Norway, Netherlands, United Kingdom, United Kingdom, United Kingdom, Germany, United Kingdom, United Kingdom, Belgium, Finland, Italy, United Kingdom, Germany, Italy, Hungary, Australia, Portugal, United Kingdom, United Kingdom, Italy, Belgium, United Kingdom, Brazil, France, United Kingdom, United Kingdom, Portugal, Brazil, France, Germany Publisher:WileyPublicly fundedFunded by:UKRI | RootDetect: Remote Detect..., FCT | LA 1, UKRI | Global modelling of local... +2 projects
UKRI| RootDetect: Remote Detection and Precision Management of Root Health ,
FCT| LA 1 ,
UKRI| Global modelling of local biodiversity responses to human impacts ,
UKRI| Doctoral Training Grant ,
EC| EnvMetaGen
Authors: Lionel Hernández; Jodi L. Sedlock; Matthew J. Struebig; Vânia Proença; +196 Authors
Lionel Hernández; Jodi L. Sedlock; Matthew J. Struebig; Vânia Proença; Eike Lena Neuschulz; Åke Berg; Martin Jung; Carolina L. Morales; Biagio D'Aniello; Kristoffer Hylander; Tom M. Fayle; Tom M. Fayle; Tom M. Fayle; Masahiro Ishitani; Carolina A. Robles; Vassiliki Kati; Virginia Aguilar-Barquero; Pedro Beja; Norbertas Noreika; Alexis Cerezo; Juan Paritsis; Szabolcs Sáfián; Nina Farwig; Steven J. Presley; Jörg Brunet; Oliver Schweiger; Thibault Lachat; T. Keith Philips; Igor Lysenko; Nick A. Littlewood; Stephen J. Rossiter; William Oduro; Kiril Vassilev; Michelle L K Harrison; Robert M. Ewers; Loreta Rosselli; Ulrika Samnegård; Felix Herzog; Alvin J. Helden; James I. Watling; Niall O'Dea; Olivia Norfolk; Víctor H. Luja; Carlos A. Peres; Eliana Martínez; Michael R. Willig; Jimmy Cabra-García; Douglas Sheil; Douglas Sheil; J. Leighton Reid; Tim Diekötter; Tim Diekötter; Nicolás Pelegrin; Antonio Felicioli; Lauchlan H. Fraser; Hollie Booth; Hollie Booth; Gilbert B. Adum; Grzegorz Mikusiński; Victoria Lantschner; Paola J. Isaacs-Cubides; Nor Rasidah Hashim; Annika M. Felton; Lawrence N. Hudson; Tibor Magura; Susan G. Letcher; Akihiro Nakamura; Anelena L Carvalho; Birgit Jauker; Béla Tóthmérész; Neil Aldrin D. Mallari; Neil Aldrin D. Mallari; Marco Silva Gottschalk; Eleanor M. Slade; Andrey S. Zaitsev; Shoji Naoe; Carsten F. Dormann; Mats Jonsell; Diego Higuera-Diaz; Lars Edenius; Péter Batáry; Violette Le Féon; Ben Darvill; Alain Dejean; Alain Dejean; Erin M. Bayne; Carlos H. Vergara; Luz Piedad Romero-Duque; Mick E. Hanley; Christopher D. Williams; Christian Hébert; Isabel Brito; Rolando Cerda; Yana T. Reis; Gretchen LeBuhn; Erika Buscardo; Erika Buscardo; Bertrand Dumont; James R. Miller; Jenni G. Garden; Lucinda Kirkpatrick; Allan H. Smith-Pardo; Allan H. Smith-Pardo; Dario Furlani; John-André Henden; Jochen H. Bihn; Yik Hei Sung; James Grogan; Manuel Esteban Lucas-Borja; John C. Z. Woinarski; Ádám Kőrösi; Ádám Kőrösi; Kaoru Maeto; Gábor L. Lövei; Stefan Abrahamczyk; Paolo Giordani; Lander Baeten; Morgan Garon; Argyrios Choimes; Argyrios Choimes; Danilo Bandini Ribeiro; Inge Armbrecht; Laurent Rousseau; Theodora Petanidou; Helena Castro; Mary N Muchane; Nicole M. Nöske; Nicholas J. Berry; Fernando A. B. Silva; Guiomar Nates-Parra; Pedro Giovâni da Silva; Muchai Muchane; Hannah J. White; Mats Dynesius; Bruno K. C. Filgueiras; Eric Katovai; Jörg U. Ganzhorn; Mounir Louhaichi; Christof Schüepp; Jort Verhulst; Stuart Connop; Matthieu Chauvat; Vena Kapoor; Katja Poveda; Marcelo A. Aizen; Eva Knop; Jörn P. W. Scharlemann; Jörn P. W. Scharlemann; Caragh G. Threlfall; Aaron D. Gove; Aaron D. Gove; Jonathan P. Sadler; Job Aben; Daniel F. R. Cleary; Erika Marin-Spiotta; Caleb Ofori-Boateng; Caleb Ofori-Boateng; Victoria Kemp; Dario A Navarrete Gutierrez; Francis Q. Brearley; Yanping Wang; David L P Correia; Jean-Philippe Légaré; Marino Quaranta; Gentile Francesco Ficetola; Adam J. Vanbergen; Zoltán Elek; Sydney A. Cameron; Jane C. Stout; Chris O. Oke; Ben Collen; Jorge Ari Noriega; Jörg Römbke; Ramón A. Sosa; Simon G. Dures; Simon G. Dures; Alejandro A. Castro-Luna; Joseph E. Hawes; Joseph E. Hawes; Adriana De Palma; Adriana De Palma; Steven J. Fonte; Hans Verboven; Marc Ancrenaz; Andy Purvis; Andy Purvis; Helen Phillips; Helen Phillips; Barbara A. Richardson; Daisuke Fukuda; Carlos A. López-Quintero; Yuan Pan; Badrul Azhar; Katrin Böhning-Gaese; Alejandro Parra-H; Alejandro Parra-H; Ben Phalan; Rebecca A. Senior; Navjot S. Sodhi; Jos Barlow;
doi: 10.17863/cam.36177
pmid: 25558364
pmc: PMC4278822
handle: 20.500.11755/70b07846-f3d5-45da-9275-c3da57c88a37 , 11588/593285 , 2434/455662 , 10316/109394 , 10138/162268 , 2437/221295 , 10067/1237730151162165141 , 11567/775174 , 11568/809027 , 1854/LU-5794965 , 10072/173416 , 20.500.11937/40931 , 10044/1/23623 , 10568/68192 , 11343/263351
doi: 10.17863/cam.36177
pmid: 25558364
pmc: PMC4278822
handle: 20.500.11755/70b07846-f3d5-45da-9275-c3da57c88a37 , 11588/593285 , 2434/455662 , 10316/109394 , 10138/162268 , 2437/221295 , 10067/1237730151162165141 , 11567/775174 , 11568/809027 , 1854/LU-5794965 , 10072/173416 , 20.500.11937/40931 , 10044/1/23623 , 10568/68192 , 11343/263351
Biodiversity continues to decline in the face of increasing anthropogenic pressures such as habitat destruction, exploitation, pollution and introduction of alien species. Existing global databases of species' threat status or population time series are dominated by charismatic species. The collation of datasets with broad taxonomic and biogeographic extents, and that support computation of a range of biodiversity indicators, is necessary to enable better understanding of historical declines and to project - and avert - future declines. We describe and assess a new database of more than 1.6 million samples from 78 countries representing over 28,000 species, collated from existing spatial comparisons of local-scale biodiversity exposed to different intensities and types of anthropogenic pressures, from terrestrial sites around the world. The database contains measurements taken in 208 (of 814) ecoregions, 13 (of 14) biomes, 25 (of 35) biodiversity hotspots and 16 (of 17) megadiverse countries. The database contains more than 1% of the total number of all species described, and more than 1% of the described species within many taxonomic groups - including flowering plants, gymnosperms, birds, mammals, reptiles, amphibians, beetles, lepidopterans and hymenopterans. The dataset, which is still being added to, is therefore already considerably larger and more representative than those used by previous quantitative models of biodiversity trends and responses. The database is being assembled as part of the PREDICTS project (Projecting Responses of Ecological Diversity In Changing Terrestrial Systems - http://www.predicts.org.uk). We make site-level summary data available alongside this article. The full database will be publicly available in 2015.
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Biomass resilience of Neotropical secondary forests
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2016 Brazil, Australia, Australia, United Kingdom, Germany, Germany, Brazil, United Kingdom, Netherlands Publisher:Springer Science and Business Media LLCFunded by:NSF | CNH-RCN: Tropical Refores..., NSF | Collaborative Research/LT..., EC | ROBIN +9 projects
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
EC| ROBIN ,
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
UKRI| RootDetect: Remote Detection and Precision Management of Root Health ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| 3rd Collaborative Research Network Program (CRN3) ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Yule Roberta Ferreira Nunes; George A. L. Cabral; Alberto Vicentini; Robin L. Chazdon; +73 Authors
Yule Roberta Ferreira Nunes; George A. L. Cabral; Alberto Vicentini; Robin L. Chazdon; José Luis Hernández-Stefanoni; Paulo Eduardo dos Santos Massoca; Jefferson S. Hall; Tony Vizcarra Bentos; Arturo Sanchez-Azofeifa; Juan Manuel Dupuy; Ricardo Gomes César; Jorge Rodríguez-Velázquez; Vanessa K. Boukili; Marc K. Steininger; Marielos Peña-Claros; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Mário M. Espírito-Santo; Catarina C. Jakovac; Catarina C. Jakovac; Daisy H. Dent; Daisy H. Dent; Juan Carlos Licona; T. Mitchell Aide; Dylan Craven; Dylan Craven; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; Michiel van Breugel; Michiel van Breugel; Michiel van Breugel; Hans F. M. Vester; Ben H. J. de Jong; Eben N. Broadbent; Edith Orihuela-Belmonte; Justin M. Becknell; Erika Marin-Spiotta; Jorge Ruiz; Jorge Ruiz; Alexandre Adalardo de Oliveira; Robert Muscarella; Robert Muscarella; I. Eunice Romero-Pérez; Lourens Poorter; Rita C. G. Mesquita; Julie S. Denslow; Frans Bongers; Jennifer S. Powers; Pedro H. S. Brancalion; María C. Fandiño; Patricia Balvanera; Maria das Dores Magalhães Veloso; Madelon Lohbeck; Madelon Lohbeck; Daniel Piotto; Jarcilene S. Almeida-Cortez; Susana Ochoa-Gaona; G. Bruce Williamson; G. Bruce Williamson; Marisol Toledo; Ima Célia Guimarães Vieira; Eduardo A. Pérez-García; Jorge A. Meave; María Uriarte; Saara J. DeWalt; Rodrigo Muñoz; Naomi B. Schwartz; Nathan G. Swenson; Angelica M. Almeyda Zambrano; Francisco Mora; Miguel Martínez-Ramos; Sandra M. Durán; Juan Saldarriaga; Deborah K. Kennard;
doi: 10.1038/nature16512 , 10.60692/gydsg-gjm73 , 10.60692/ft0te-p8f41
pmid: 26840632
handle: 11245/1.539630 , 1893/24717
doi: 10.1038/nature16512 , 10.60692/gydsg-gjm73 , 10.60692/ft0te-p8f41
pmid: 26840632
handle: 11245/1.539630 , 1893/24717
An analysis of above-ground biomass recovery during secondary succession in forest sites and plots, covering the major environmental gradients in the Neotropics. Plus de la moitié des forêts tropicales du monde sont le produit d'une croissance secondaire, suite à des perturbations anthropiques. Il est donc important de savoir à quelle vitesse ces forêts secondaires se rétablissent suffisamment pour fournir des services écosystémiques équivalents à ceux des forêts anciennes. Ces auteurs se concentrent sur la séquestration du carbone dans les forêts néotropicales et constatent que l'absorption de carbone est beaucoup plus élevée que dans les forêts anciennes, ce qui permet de récupérer 90 % des stocks de carbone en 66 ans en moyenne, mais il existe également une grande variation du potentiel de récupération. Ces connaissances pourraient aider à évaluer les implications de la perte de forêts — et le potentiel de rétablissement — dans différentes zones. Le changement d'affectation des terres ne se produit nulle part plus rapidement que dans les tropiques, où le déséquilibre entre la déforestation et la repousse forestière a des conséquences importantes sur le cycle mondial du carbone1. Cependant, une incertitude considérable demeure quant au taux de récupération de la biomasse dans les forêts secondaires et à la manière dont ces taux sont influencés par le climat, le paysage et l'utilisation antérieure des terres2,3,4. Nous analysons ici la récupération de la biomasse aérienne au cours de la succession secondaire dans 45 sites forestiers et environ 1 500 parcelles forestières couvrant les principaux gradients environnementaux des Néotropiques. Les forêts secondaires étudiées sont très productives et résilientes. La récupération de la biomasse aérienne après 20 ans était en moyenne de 122 mégagrammes par hectare (Mg ha−1), ce qui correspond à une absorption nette de carbone de 3,05 Mg C ha−1 an−1, soit 11 fois le taux d'absorption des forêts anciennes. Les stocks de biomasse aérienne ont pris un temps médian de 66 ans pour se rétablir à 90 % des anciennes valeurs de croissance. La récupération de la biomasse aérienne après 20 ans a varié de 11,3 fois (de 20 à 225 Mg ha−1) d'un site à l'autre, et cette récupération a augmenté avec la disponibilité en eau (pluviométrie locale plus élevée et déficit en eau climatique plus faible). Nous présentons une carte de récupération de la biomasse d'Amérique latine, qui illustre la variation géographique et climatique du potentiel de séquestration du carbone au cours de la repousse forestière. La carte soutiendra les politiques visant à minimiser la perte de forêts dans les zones où la résilience de la biomasse est naturellement faible (telles que les régions forestières saisonnièrement sèches) et à promouvoir la régénération et la restauration des forêts dans les zones tropicales humides de plaine à forte résilience de la biomasse. Un análisis de la recuperación de biomasa sobre el suelo durante la sucesión secundaria en sitios forestales y parcelas, que cubre los principales gradientes ambientales en el Neotrópico. Más de la mitad de los bosques tropicales del mundo son producto de un crecimiento secundario, tras una perturbación antropogénica. Por lo tanto, es importante saber qué tan rápido se recuperan estos bosques secundarios lo suficiente como para proporcionar servicios ecosistémicos equivalentes a los de los bosques primarios. Estos autores se centran en el secuestro de carbono en los bosques neotropicales y encuentran que la absorción de carbono es mucho mayor que en los bosques primarios, lo que permite la recuperación del 90% de las reservas de carbono en un promedio de 66 años, pero también hay una amplia variación en el potencial de recuperación. Este conocimiento podría ayudar a evaluar las implicaciones de la pérdida de bosques, y el potencial de recuperación, en diferentes áreas. El cambio en el uso de la tierra no ocurre en ninguna parte más rápidamente que en los trópicos, donde el desequilibrio entre la deforestación y el rebrote de los bosques tiene grandes consecuencias para el ciclo global del carbono1. Sin embargo, persiste una considerable incertidumbre sobre la tasa de recuperación de biomasa en los bosques secundarios y cómo estas tasas están influenciadas por el clima, el paisaje y el uso previo de la tierra2,3,4. Aquí analizamos la recuperación de biomasa sobre el suelo durante la sucesión secundaria en 45 sitios forestales y alrededor de 1.500 parcelas forestales que cubren los principales gradientes ambientales en el Neotrópico. Los bosques secundarios estudiados son altamente productivos y resilientes. La recuperación de biomasa sobre el suelo después de 20 años fue en promedio de 122 megagramas por hectárea (Mg ha−1), lo que corresponde a una absorción neta de carbono de 3,05 Mg C ha−1 año−1, 11 veces la tasa de absorción de los bosques antiguos. Las existencias de biomasa sobre el suelo tardaron una mediana de 66 años en recuperarse hasta el 90% de los valores de crecimiento antiguo. La recuperación de biomasa sobre el suelo después de 20 años varió 11,3 veces (de 20 a 225 Mg ha-1) entre los sitios, y esta recuperación aumentó con la disponibilidad de agua (mayores precipitaciones locales y menor déficit climático de agua). Presentamos un mapa de recuperación de biomasa de América Latina, que ilustra la variación geográfica y climática en el potencial de secuestro de carbono durante el recrecimiento forestal. El mapa apoyará las políticas para minimizar la pérdida de bosques en áreas donde la resiliencia de la biomasa es naturalmente baja (como las regiones forestales estacionalmente secas) y promoverá la regeneración y restauración de bosques en áreas tropicales húmedas de tierras bajas con alta resiliencia a la biomasa. An analysis of above-ground biomass recovery during secondary succession in forest sites and plots, covering the major environmental gradients in the Neotropics. More than half the world's tropical forests are the product of secondary growth, following anthropogenic disturbance. It is therefore important to know how quickly these secondary forests recover sufficiently to provide ecosystem services equivalent to those of old-growth forest. These authors focus on carbon sequestration in Neotropical forests, and find that carbon uptake is much higher than in old-growth forest, allowing recovery to 90% of the carbon stocks in an average of 66 years, but there is also wide variation in recovery potential. This knowledge could help assess the implications of forest loss — and potential for recovery — in different areas. Land-use change occurs nowhere more rapidly than in the tropics, where the imbalance between deforestation and forest regrowth has large consequences for the global carbon cycle1. However, considerable uncertainty remains about the rate of biomass recovery in secondary forests, and how these rates are influenced by climate, landscape, and prior land use2,3,4. Here we analyse aboveground biomass recovery during secondary succession in 45 forest sites and about 1,500 forest plots covering the major environmental gradients in the Neotropics. The studied secondary forests are highly productive and resilient. Aboveground biomass recovery after 20 years was on average 122 megagrams per hectare (Mg ha−1), corresponding to a net carbon uptake of 3.05 Mg C ha−1 yr−1, 11 times the uptake rate of old-growth forests. Aboveground biomass stocks took a median time of 66 years to recover to 90% of old-growth values. Aboveground biomass recovery after 20 years varied 11.3-fold (from 20 to 225 Mg ha−1) across sites, and this recovery increased with water availability (higher local rainfall and lower climatic water deficit). We present a biomass recovery map of Latin America, which illustrates geographical and climatic variation in carbon sequestration potential during forest regrowth. The map will support policies to minimize forest loss in areas where biomass resilience is naturally low (such as seasonally dry forest regions) and promote forest regeneration and restoration in humid tropical lowland areas with high biomass resilience. تحليل لاسترداد الكتلة الحيوية فوق الأرض خلال التعاقب الثانوي في مواقع الغابات وقطع الأراضي، والتي تغطي التدرجات البيئية الرئيسية في المناطق المدارية الحديثة. أكثر من نصف الغابات الاستوائية في العالم هي نتاج نمو ثانوي، بعد الاضطرابات البشرية. لذلك من المهم معرفة مدى سرعة تعافي هذه الغابات الثانوية بما يكفي لتوفير خدمات نظام بيئي مكافئة لتلك الموجودة في الغابات القديمة النمو. يركز هؤلاء المؤلفون على عزل الكربون في الغابات المدارية الحديثة، ويجدون أن امتصاص الكربون أعلى بكثير منه في الغابات القديمة النمو، مما يسمح بالتعافي إلى 90 ٪ من مخزونات الكربون في متوسط 66 عامًا، ولكن هناك أيضًا تباينًا كبيرًا في إمكانات الاسترداد. يمكن أن تساعد هذه المعرفة في تقييم الآثار المترتبة على فقدان الغابات — وإمكانية التعافي — في مناطق مختلفة. لا يحدث تغير استخدام الأراضي في أي مكان بسرعة أكبر من المناطق المدارية، حيث يكون للاختلال بين إزالة الغابات وإعادة نمو الغابات عواقب كبيرة على دورة الكربون العالمية1. ومع ذلك، لا يزال هناك قدر كبير من عدم اليقين بشأن معدل استرداد الكتلة الحيوية في الغابات الثانوية، وكيف تتأثر هذه المعدلات بالمناخ والمناظر الطبيعية والاستخدام السابق للأراضي 2،3،4. نقوم هنا بتحليل استرداد الكتلة الحيوية فوق الأرض خلال التعاقب الثانوي في 45 موقعًا للغابات وحوالي 1500 قطعة غابات تغطي التدرجات البيئية الرئيسية في المناطق المدارية الحديثة. الغابات الثانوية المدروسة عالية الإنتاجية والمرونة. كان استرداد الكتلة الحيوية فوق الأرض بعد 20 عامًا في المتوسط 122 ميغاغرام لكل هكتار (Mg ha−1)، وهو ما يعادل امتصاصًا صافياً للكربون قدره 3.05 Mg C ha−1 سنة−1، أي 11 ضعف معدل امتصاص الغابات القديمة النمو. استغرقت مخزونات الكتلة الحيوية فوق الأرض وقتًا متوسطًا قدره 66 عامًا للتعافي إلى 90 ٪ من قيم النمو القديمة. تفاوت استرداد الكتلة الحيوية فوق الأرض بعد 20 عامًا 11.3 ضعفًا (من 20 إلى 225 ملليغرام هكتار−1) عبر المواقع، وزاد هذا الانتعاش مع توافر المياه (ارتفاع هطول الأمطار المحلية وانخفاض العجز المائي المناخي). نقدم خريطة استرداد الكتلة الحيوية لأمريكا اللاتينية، والتي توضح التباين الجغرافي والمناخي في إمكانات عزل الكربون أثناء إعادة نمو الغابات. ستدعم الخريطة السياسات الرامية إلى تقليل فقدان الغابات في المناطق التي تكون فيها مرونة الكتلة الحيوية منخفضة بشكل طبيعي (مثل مناطق الغابات الجافة الموسمية) وتعزيز تجديد الغابات واستعادتها في المناطق المنخفضة الاستوائية الرطبة ذات المرونة العالية للكتلة الحيوية.
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Phylogenetic classification of the world’s tropical forests
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2018Embargo end date: 01 Jan 2018 Brazil, United States, Brazil, Germany, Indonesia, Denmark, Netherlands, Spain, Germany, Switzerland, France, Germany, Indonesia, Australia, Ireland, Belgium, Germany, Brazil, Denmark, Australia, Switzerland, France, Switzerland, Norway, Australia, Australia, United Kingdom, France, Netherlands, Italy, Netherlands Publisher:Proceedings of the National Academy of SciencesPublicly fundedFunded by:EC | MF-RADAR, NWO | Inkomsten op project 0659..., UKRI | SCORE: Supply Chain Optim...
EC| MF-RADAR ,
NWO| Inkomsten op project 06592: Fibers as safety marker in security paper ,
UKRI| SCORE: Supply Chain Optimisation for demand Response Efficiency
Authors: Slik, J W F; Franklin, J; Arroyo-Rodriguez, V; Field, R; +196 Authors
Slik, J W F; Franklin, J; Arroyo-Rodriguez, V; Field, R; Aguilar, S; Aguirre, N; Ahumada, J; Aiba, S I; Alves, L F; Anitha, K; Avella, A; Mora, F; Aymard, G A; Baez, S; Balvanera, P; Bastian, M L; Bastin, J F; Bellingham, P J; van den Berg, E; Bispo, P D; Boeckx, P; Boehning-Gaese, K; Bongers, F; Boyle, B; Brambach, F; Brearley, F Q; Brown, Sandra; Chai, S L; Chazdon, Robin L; Chen, S B; Chhang, P; Chuyong, G; Ewango, C; Coronado, I M; Cristobal-Azkarate, J; Culmsee, H; Damas, K; Dattaraja, H S; Davidar, P; DeWalt, S J; Din, H; Drake, D R; Duque, A; Durigan, G; Eichhorn, K; Eler, E S; Enoki, T; Ensslin, A; Fandohan, A B; Farwig, N; Feeley, K J; Fischer, M; Forshed, O; Garcia, Q S; Garkoti, S C; Gillespie, T; Gillet, J F; Gonmadje, C; Granzow-de la Cerda, I; Griffith, D M; Grogan, James; Hakeem, K R; Harris, D J; Harrison, R D; Hector, A; Hemp, A; Homeier, J; Hussain, M S; Ibarra-Manriiquez, G; Hanum, I F; Imai, N; Jansen, P A; Joly, C A; Joseph, S; Kartawinata, K; Kearsley, E; Kelly, D L; Kessler, M; Killeen, T J; Kooyman, R M; Laumonier, Y; Laurance, S G; Laurance, W F; Lawes, M J; Letcher, S G; Lindsell, J; Lovett, J; Lozada, J; Lu, X H; Lykke, A M; Bin Mahmud, K; Mahayani, N P D; Mansor, A; Marshall, Andrew R; Martin, E H; Matos, D C L; Meave, J A; Melo, F P L; Mendoza, Z H A; Metali, F; Medjibe, V P; Metzger, J P; Metzker, T; Mohandass, D; Munguia-Rosas, M A; Munoz, R; Nurtjahy, E; de Oliveira, E L; Onrizal; Parolin, P; Parren, M; Parthasarathy, N; Paudel, E; Perez, R; Perez-Garcia, E A; Pommer, U; Poorter, L; Qie, L; Piedade, M T F; Pinto, J R R; Poulsen, A D; Poulsen, J R; Powers, J S; Prasad, R C; Puyravaud, J P; Rangel, O; Reitsma, J; Rocha, D S B; Rolim, S; Rovero, F; Rozak, A; Ruokolainen, K; Rutishauser, E; Rutten, G; Said, M N M; Saiter, F Z; Saner, P; Santos, B; dos Santos, J R; Sarker, S K; Schmitt, C B; Schoengart, J; Schulze, M; Sheil, D; Sist, P; Souza, A F; Spironello, W R; Sposito, T; Steinmetz, R; Stevart, T; Suganuma, M S; Sukri, R; Sultana, A; Sukumar, R; Sunderland, T; Supriyadi; Suresh, H S; Suzuki, E; Tabarelli, M; Tang, J W; Tanner, E V J; Targhetta, N; Theilade, I; Van Do, T; Van Sam, H; Vandermeer, J H; Verbeeck, H; Vetaas, O R; Adekunle, V; Vieira, S A; Webb, C O; Webb, E L; Whitfeld, T; Wich, S; Williams, J; Wiser, S; Wittmann, F; Yang, X B; Yao, C Y A; Yap, S L; Zahawi, R A; Zakaria, R; Zang, R G; Thomas, D; Van Valkenburg, J; Van Do, Tran; Van Sam, Hoang; Vandermeer, John H; Verbeeck, Hans; Vetaas, Ole Reidar; Adekunle, Victor; Vieira, Simone A; Webb, Campbell O; Webb, Edward L; Whitfield, Timothy; Wich, Serge; Williams, John; Wiser, Susan; Wittmann, Florian; Yang, Xiaobo;
doi: 10.1073/pnas.1714977115 , 10.7892/boris.111855 , 10.5167/uzh-148586 , 10.3929/ethz-b-000247422 , 10.5445/ir/1000081049
pmid: 29432167
pmc: PMC5828595
handle: 11245.1/990587ee-c206-4a19-95d0-683f1f0984c9 , 11250/2670469 , 2158/1152029 , 1854/LU-8559907 , 2262/89576 , 10568/112419 , 10088/35248 , 10088/35154 , 2381/45075
doi: 10.1073/pnas.1714977115 , 10.7892/boris.111855 , 10.5167/uzh-148586 , 10.3929/ethz-b-000247422 , 10.5445/ir/1000081049
pmid: 29432167
pmc: PMC5828595
handle: 11245.1/990587ee-c206-4a19-95d0-683f1f0984c9 , 11250/2670469 , 2158/1152029 , 1854/LU-8559907 , 2262/89576 , 10568/112419 , 10088/35248 , 10088/35154 , 2381/45075
Significance Identifying and explaining regional differences in tropical forest dynamics, structure, diversity, and composition are critical for anticipating region-specific responses to global environmental change. Floristic classifications are of fundamental importance for these efforts. Here we provide a global tropical forest classification that is explicitly based on community evolutionary similarity, resulting in identification of five major tropical forest regions and their relationships: ( i ) Indo-Pacific, ( ii ) Subtropical, ( iii ) African, ( iv ) American, and ( v ) Dry forests. African and American forests are grouped, reflecting their former western Gondwanan connection, while Indo-Pacific forests range from eastern Africa and Madagascar to Australia and the Pacific. The connection between northern-hemisphere Asian and American forests is confirmed, while Dry forests are identified as a single tropical biome.
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Global dominance of lianas over trees is driven by forest disturbance, climate and topography
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2024 United Kingdom Publisher:WileyFunded by:ARC | Future Fellowships - Gran...
ARC| Future Fellowships - Grant ID: FT170100279
Authors: Alain Senghor K. Ngute; David S. Schoeman; Marion Pfeifer; Geertje M. F. van der Heijden; +16 Authors
Alain Senghor K. Ngute; David S. Schoeman; Marion Pfeifer; Geertje M. F. van der Heijden; Oliver L. Phillips; Michiel van Breugel; Mason J. Campbell; Chris J. Chandler; Brian J. Enquist; Rachael V. Gallagher; Christoph Gehring; Jefferson S. Hall; Susan G. W. Laurance; William F. Laurance; Susan G. Letcher; Yu-Xuan Mo; Martin J. P. Sullivan; S. Joseph Wright; Chun-Ming Yuan; Andrew R. Marshall;
doi: 10.1111/gcb.17140 , 10.60692/mgssn-y4r27 , 10.60692/w8cfv-9t640
pmid: 38273497
handle: 1959.7/uws:76837
doi: 10.1111/gcb.17140 , 10.60692/mgssn-y4r27 , 10.60692/w8cfv-9t640
pmid: 38273497
handle: 1959.7/uws:76837
AbstractGrowing evidence suggests that liana competition with trees is threatening the global carbon sink by slowing the recovery of forests following disturbance. A recent theory based on local and regional evidence further proposes that the competitive success of lianas over trees is driven by interactions between forest disturbance and climate. We present the first global assessment of liana–tree relative performance in response to forest disturbance and climate drivers. Using an unprecedented dataset, we analysed 651 vegetation samples representing 26,538 lianas and 82,802 trees from 556 unique locations worldwide, derived from 83 publications. Results show that lianas perform better relative to trees (increasing liana‐to‐tree ratio) when forests are disturbed, under warmer temperatures and lower precipitation and towards the tropical lowlands. We also found that lianas can be a critical factor hindering forest recovery in disturbed forests experiencing liana‐favourable climates, as chronosequence data show that high competitive success of lianas over trees can persist for decades following disturbances, especially when the annual mean temperature exceeds 27.8°C, precipitation is less than 1614 mm and climatic water deficit is more than 829 mm. These findings reveal that degraded tropical forests with environmental conditions favouring lianas are disproportionately more vulnerable to liana dominance and thus can potentially stall succession, with important implications for the global carbon sink, and hence should be the highest priority to consider for restoration management.
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Carbon sequestration potential of second-growth forest regeneration in the Latin American tropics
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2016 Brazil, United Kingdom, Germany, United Kingdom, Netherlands, Brazil Publisher:American Association for the Advancement of Science (AAAS)Funded by:EC | ROBIN, NSF | CAREER: Ecosystem process..., NSF | COLLABORATIVE RESEARCH: M... +7 projects
EC| ROBIN ,
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Robin L. Chazdon; Robin L. Chazdon; Yule Roberta Ferreira Nunes; Danaë M. A. Rozendaal; +70 Authors
Robin L. Chazdon; Robin L. Chazdon; Yule Roberta Ferreira Nunes; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; Hans van der Wal; Paulo Eduardo dos Santos Massoca; Madelon Lohbeck; Madelon Lohbeck; Hans F. M. Vester; Eben N. Broadbent; Jorge A. Meave; Jarcilene S. Almeida-Cortez; Ima Célia Guimarães Vieira; Jorge Rodríguez-Velázquez; José Luis Hernández-Stefanoni; Arturo Sanchez-Azofeifa; Ben de Jong; María Uriarte; Jefferson S. Hall; Frans Bongers; Isabel Eunice Romero-Pérez; María C. Fandiño; Angelica M. Almeyda Zambrano; Robert Muscarella; Robert Muscarella; Ricardo Gomes César; Marc K. Steininger; T. Mitchell Aide; Pedro H. S. Brancalion; Justin M. Becknell; Lourens Poorter; Susana Ochoa-Gaona; G. Bruce Williamson; G. Bruce Williamson; Eduardo A. Pérez-García; Rodrigo Muñoz; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Vanessa K. Boukili; George A. L. Cabral; Edith Orihuela-Belmonte; Patricia Balvanera; Marielos Peña-Claros; Francisco Mora; Miguel Martínez-Ramos; Sandra M. Durán; Juan Saldarriaga; Mário M. Espírito-Santo; Michiel van Breugel; Michiel van Breugel; Michiel van Breugel; Nathan G. Swenson; Saara J. DeWalt; Jorge Ruiz; Jorge Ruiz; Maria das Dores Magalhães Veloso; Dylan Craven; Dylan Craven; Deborah K. Kennard; Rita C. G. Mesquita; Julie S. Denslow; Jennifer S. Powers; Naomi B. Schwartz; Catarina C. Jakovac; Catarina C. Jakovac; Daisy H. Dent; Daisy H. Dent; Daniel Piotto; Tony Vizcarra Bentos; Juan Manuel Dupuy;
doi: 10.1126/sciadv.1501639
pmid: 27386528
pmc: PMC4928921
handle: 1893/24020
doi: 10.1126/sciadv.1501639
pmid: 27386528
pmc: PMC4928921
handle: 1893/24020
Models reveal the high carbon mitigation potential of tropical forest regeneration.
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Lianas and self-supporting plants during tropical forest succession
descriptionPublicationkeyboard_double_arrow_right Article , Journal 2009 Australia, United States, United States Publisher:Elsevier BV
Authors: Letcher, S G; Chazdon, Robin L;
doi: 10.1016/j.foreco.2009.02.028
doi: 10.1016/j.foreco.2009.02.028
Abstract Lianas (woody vines) are an important component of tropical forests, with a strong impact on forest dynamics, but their responses during forest succession have received relatively little attention. Here, we present an analysis of the changes in stem density, biomass, and species richness of lianas and self-supporting plants during tropical forest succession. We surveyed lianas ≥0.5 cm diameter at breast height (dbh) and self-supporting plants ≥2.5 cm dbh in 0.1 ha inventory plots in a chronosequence of 30 sites in northeastern Costa Rica, 23 sites on abandoned pastures 10–44 years of age, and seven sites in old-growth forest. Stem density of self-supporting plants showed no predictable chronosequence trend, but liana stem density declined significantly with forest age. Aboveground biomass of self-supporting vegetation increased rapidly during succession, with forests 31–44 years exhibiting higher levels of biomass than old-growth forests. Liana biomass accumulated more slowly, with the highest levels in old-growth sites. Species richness of self-supporting vegetation increased significantly during succession, but species richness of lianas showed no change or a slight decline with forest age, depending on the method of assessment. The differences between tree and liana responses during succession stem from the unique physiology and life history traits of lianas.
Forest Ecology and M...arrow_drop_down
Forest Ecology and Management
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Legume abundance along successional and rainfall gradients in Neotropical forests
descriptionPublicationkeyboard_double_arrow_right Article , Journal , Other literature type 2018 United Kingdom, United States, United Kingdom, Netherlands, Australia, Australia Publisher:Springer Science and Business Media LLCFunded by:NSF | CAREER: Ecosystem process..., NSF | COLLABORATIVE RESEARCH: M..., NSF | Controls on the Storage a... +8 projects
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSERC ,
NSF| Environmental Heterogeneity and Woody Species Diversity in Low-elevation Tropical Secondary Forests ,
NSF| 3rd Collaborative Research Network Program (CRN3) ,
NSF| Collaborative Research: Causes and Consequences of Tree Colonization Patterns in Wet Tropical Forests ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Lourens Poorter; Edwin Lebrija-Trejos; Ricardo Gomes César; Whendee L. Silver; +72 Authors
Lourens Poorter; Edwin Lebrija-Trejos; Ricardo Gomes César; Whendee L. Silver; Gabriel Dalla Colletta; Erika Marin-Spiotta; André Braga Junqueira; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; María Uriarte; T. Mitchell Aide; Janet I. Sprent; Arturo Sanchez-Azofeifa; G. Wilson Fernandes; Saara J. DeWalt; Daniel Piotto; Frans Bongers; Susana Ochoa-Gaona; Mira Garner; Patricia Balvanera; Rebecca J. Cole; Casandra Reyes-García; Edith Orihuela-Belmonte; Eduardo A. Pérez-García; Jorge Rodríguez-Velázquez; Justin M. Becknell; Duncan N. L. Menge; José Luis Andrade; Robert Muscarella; Jefferson S. Hall; Benjamin W. Sullivan; Juan Manuel Dupuy; Mário M. Espírito Santo; Peter B. Reich; Peter B. Reich; Yule Roberta Ferreira Nunes; Francisco Mora; Miguel Martínez-Ramos; Arlete Silva de Almeida; Ben de Jong; Sandra M. Durán; Pedro H. S. Brancalion; Marielos Peña-Claros; I. Eunice Romero-Pérez; Lucía Sanaphre-Villanueva; Robin L. Chazdon; Michiel van Breugel; Michiel van Breugel; Jess K. Zimmerman; Maga Gei; Deborah K. Kennard; Nathan G. Swenson; Vanessa Granda Moser; José Luis Hernández-Stefanoni; George A. L. Cabral; Daisy H. Dent; Daisy H. Dent; Vanessa de Souza Moreno; Julie S. Denslow; Rodrigo Muñoz; Jennifer S. Powers; Jennifer S. Powers; Bryan Finegan; Jorge A. Meave; Madelon Lohbeck; Madelon Lohbeck; Hans F. M. Vester; Jarcilene S. Almeida-Cortez; Ima Célia Guimarães Vieira; Naomi B. Schwartz; Maria das Dores Magalhães Veloso; Rebecca Ostertag;
doi: 10.1038/s41559-018-0559-6
pmid: 29807995
handle: 1893/27327
doi: 10.1038/s41559-018-0559-6
pmid: 29807995
handle: 1893/27327
The nutrient demands of regrowing tropical forests are partly satisfied by nitrogen-fixing legume trees, but our understanding of the abundance of those species is biased towards wet tropical regions. Here we show how the abundance of Leguminosae is affected by both recovery from disturbance and large-scale rainfall gradients through a synthesis of forest inventory plots from a network of 42 Neotropical forest chronosequences. During the first three decades of natural forest regeneration, legume basal area is twice as high in dry compared with wet secondary forests. The tremendous ecological success of legumes in recently disturbed, water-limited forests is likely to be related to both their reduced leaflet size and ability to fix N2, which together enhance legume drought tolerance and water-use efficiency. Earth system models should incorporate these large-scale successional and climatic patterns of legume dominance to provide more accurate estimates of the maximum potential for natural nitrogen fixation across tropical forests.
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Article . 2018
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Article . 2018
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Climate change increases threat to plant diversity in tropical forests of Central America and southern Mexico
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type 2024 Spain Publisher:Public Library of Science (PLoS)Publicly funded
Authors: Miguel Álvarez Ortega; Luis Cayuela; Daniel M. Griffith; Angélica Camacho; +20 Authors
Miguel Álvarez Ortega; Luis Cayuela; Daniel M. Griffith; Angélica Camacho; Indiana Coronado; Rafael F. del Castillo; Blanca L. Figueroa-Rangel; William Fonseca; Cristina Garibaldi; Daniel L. Kelly; Susan G. Letcher; Jorge A. Meave; Luis Merino-Martín; Víctor Meza; Susana Ochoa-Gaona; Miguel Olvera‐Vargas; Neptalí Ramírez‐Marcial; Fernando Tun‐Dzul; Mirna Valdéz-Hernández; Eduardo Velázquez; David A. White; Guadalupe Williams‐Linera; Rakan A. Zahawi; Jesús Muñoz;
doi: 10.1371/journal.pone.0297840 , 10.60692/smky6-6ss50 , 10.60692/s9np5-zn269
pmid: 38422027
pmc: PMC10903834
handle: 10261/364160
doi: 10.1371/journal.pone.0297840 , 10.60692/smky6-6ss50 , 10.60692/s9np5-zn269
pmid: 38422027
pmc: PMC10903834
handle: 10261/364160
Global biodiversity is negatively affected by anthropogenic climate change. As species distributions shift due to increasing temperatures and precipitation fluctuations, many species face the risk of extinction. In this study, we explore the expected trend for plant species distributions in Central America and southern Mexico under two alternative Representative Concentration Pathways (RCPs) portraying moderate (RCP4.5) and severe (RCP8.5) increases in greenhouse gas emissions, combined with two species dispersal assumptions (limited and unlimited), for the 2061–2080 climate forecast. Using an ensemble approach employing three techniques to generate species distribution models, we classified 1924 plant species from the region’s (sub)tropical forests according to IUCN Red List categories. To infer the spatial and taxonomic distribution of species’ vulnerability under each scenario, we calculated the proportion of species in a threat category (Vulnerable, Endangered, Critically Endangered) at a pixel resolution of 30 arc seconds and by family. Our results show a high proportion (58–67%) of threatened species among the four experimental scenarios, with the highest proportion under RCP8.5 and limited dispersal. Threatened species were concentrated in montane areas and avoided lowland areas where conditions are likely to be increasingly inhospitable. Annual precipitation and diurnal temperature range were the main drivers of species’ relative vulnerability. Our approach identifies strategic montane areas and taxa of conservation concern that merit urgent inclusion in management plans to improve climatic resilience in the Mesoamerican biodiversity hotspot. Such information is necessary to develop policies that prioritize vulnerable elements and mitigate threats to biodiversity under climate change.
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License: http://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Extracted raw data from: Global dominance of lianas over trees is driven by forest disturbance, climate, and topography
Research datakeyboard_double_arrow_right Dataset 2023Publisher:Zenodo
Authors: Ngute, Alain Senghor K.; van der Heijden, Geertje M.F.; van Breugel, Michiel; Enquist, Brian J.; +7 Authors
Ngute, Alain Senghor K.; van der Heijden, Geertje M.F.; van Breugel, Michiel; Enquist, Brian J.; Gallagher, Rachael V.; Gehring, Christoph; Laurance, Susan G.W.; Laurance, William F.; Letcher, Susan; Liu, Wenyao; Phillips, Oliver L;
doi: 10.5281/zenodo.10428833 , 10.5281/zenodo.10428834
doi: 10.5281/zenodo.10428833 , 10.5281/zenodo.10428834
In a meta-analysis, we use an unprecedented dataset, representing 556 unique locations worldwide, distributed across 44 countries and six continents to show for the first time that lianas (woody vines) thrive relatively better than trees when forests are disturbed, temperature increase, precipitation decrease, and particularly in tropical lowlands. We demonstrate that liana dominance can persist for decades post-disturbance and hinder the recovery of disturbed forests, especially when climate favours lianas. With implications for the global carbon sink, our findings suggest that degraded tropical forests with environmental conditions favouring lianas should be the highest priority to consider for restoration management.
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The PREDICTS database: a global database of how local terrestrial biodiversity responds to human impacts.
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2014Embargo end date: 08 Feb 2019 Hungary, United Kingdom, Netherlands, Italy, Norway, Netherlands, United Kingdom, United Kingdom, United Kingdom, Germany, United Kingdom, United Kingdom, Belgium, Finland, Italy, United Kingdom, Germany, Italy, Hungary, Australia, Portugal, United Kingdom, United Kingdom, Italy, Belgium, United Kingdom, Brazil, France, United Kingdom, United Kingdom, Portugal, Brazil, France, Germany Publisher:WileyPublicly fundedFunded by:UKRI | RootDetect: Remote Detect..., FCT | LA 1, UKRI | Global modelling of local... +2 projects
UKRI| RootDetect: Remote Detection and Precision Management of Root Health ,
FCT| LA 1 ,
UKRI| Global modelling of local biodiversity responses to human impacts ,
UKRI| Doctoral Training Grant ,
EC| EnvMetaGen
Authors: Lionel Hernández; Jodi L. Sedlock; Matthew J. Struebig; Vânia Proença; +196 Authors
Lionel Hernández; Jodi L. Sedlock; Matthew J. Struebig; Vânia Proença; Eike Lena Neuschulz; Åke Berg; Martin Jung; Carolina L. Morales; Biagio D'Aniello; Kristoffer Hylander; Tom M. Fayle; Tom M. Fayle; Tom M. Fayle; Masahiro Ishitani; Carolina A. Robles; Vassiliki Kati; Virginia Aguilar-Barquero; Pedro Beja; Norbertas Noreika; Alexis Cerezo; Juan Paritsis; Szabolcs Sáfián; Nina Farwig; Steven J. Presley; Jörg Brunet; Oliver Schweiger; Thibault Lachat; T. Keith Philips; Igor Lysenko; Nick A. Littlewood; Stephen J. Rossiter; William Oduro; Kiril Vassilev; Michelle L K Harrison; Robert M. Ewers; Loreta Rosselli; Ulrika Samnegård; Felix Herzog; Alvin J. Helden; James I. Watling; Niall O'Dea; Olivia Norfolk; Víctor H. Luja; Carlos A. Peres; Eliana Martínez; Michael R. Willig; Jimmy Cabra-García; Douglas Sheil; Douglas Sheil; J. Leighton Reid; Tim Diekötter; Tim Diekötter; Nicolás Pelegrin; Antonio Felicioli; Lauchlan H. Fraser; Hollie Booth; Hollie Booth; Gilbert B. Adum; Grzegorz Mikusiński; Victoria Lantschner; Paola J. Isaacs-Cubides; Nor Rasidah Hashim; Annika M. Felton; Lawrence N. Hudson; Tibor Magura; Susan G. Letcher; Akihiro Nakamura; Anelena L Carvalho; Birgit Jauker; Béla Tóthmérész; Neil Aldrin D. Mallari; Neil Aldrin D. Mallari; Marco Silva Gottschalk; Eleanor M. Slade; Andrey S. Zaitsev; Shoji Naoe; Carsten F. Dormann; Mats Jonsell; Diego Higuera-Diaz; Lars Edenius; Péter Batáry; Violette Le Féon; Ben Darvill; Alain Dejean; Alain Dejean; Erin M. Bayne; Carlos H. Vergara; Luz Piedad Romero-Duque; Mick E. Hanley; Christopher D. Williams; Christian Hébert; Isabel Brito; Rolando Cerda; Yana T. Reis; Gretchen LeBuhn; Erika Buscardo; Erika Buscardo; Bertrand Dumont; James R. Miller; Jenni G. Garden; Lucinda Kirkpatrick; Allan H. Smith-Pardo; Allan H. Smith-Pardo; Dario Furlani; John-André Henden; Jochen H. Bihn; Yik Hei Sung; James Grogan; Manuel Esteban Lucas-Borja; John C. Z. Woinarski; Ádám Kőrösi; Ádám Kőrösi; Kaoru Maeto; Gábor L. Lövei; Stefan Abrahamczyk; Paolo Giordani; Lander Baeten; Morgan Garon; Argyrios Choimes; Argyrios Choimes; Danilo Bandini Ribeiro; Inge Armbrecht; Laurent Rousseau; Theodora Petanidou; Helena Castro; Mary N Muchane; Nicole M. Nöske; Nicholas J. Berry; Fernando A. B. Silva; Guiomar Nates-Parra; Pedro Giovâni da Silva; Muchai Muchane; Hannah J. White; Mats Dynesius; Bruno K. C. Filgueiras; Eric Katovai; Jörg U. Ganzhorn; Mounir Louhaichi; Christof Schüepp; Jort Verhulst; Stuart Connop; Matthieu Chauvat; Vena Kapoor; Katja Poveda; Marcelo A. Aizen; Eva Knop; Jörn P. W. Scharlemann; Jörn P. W. Scharlemann; Caragh G. Threlfall; Aaron D. Gove; Aaron D. Gove; Jonathan P. Sadler; Job Aben; Daniel F. R. Cleary; Erika Marin-Spiotta; Caleb Ofori-Boateng; Caleb Ofori-Boateng; Victoria Kemp; Dario A Navarrete Gutierrez; Francis Q. Brearley; Yanping Wang; David L P Correia; Jean-Philippe Légaré; Marino Quaranta; Gentile Francesco Ficetola; Adam J. Vanbergen; Zoltán Elek; Sydney A. Cameron; Jane C. Stout; Chris O. Oke; Ben Collen; Jorge Ari Noriega; Jörg Römbke; Ramón A. Sosa; Simon G. Dures; Simon G. Dures; Alejandro A. Castro-Luna; Joseph E. Hawes; Joseph E. Hawes; Adriana De Palma; Adriana De Palma; Steven J. Fonte; Hans Verboven; Marc Ancrenaz; Andy Purvis; Andy Purvis; Helen Phillips; Helen Phillips; Barbara A. Richardson; Daisuke Fukuda; Carlos A. López-Quintero; Yuan Pan; Badrul Azhar; Katrin Böhning-Gaese; Alejandro Parra-H; Alejandro Parra-H; Ben Phalan; Rebecca A. Senior; Navjot S. Sodhi; Jos Barlow;
doi: 10.17863/cam.36177
pmid: 25558364
pmc: PMC4278822
handle: 20.500.11755/70b07846-f3d5-45da-9275-c3da57c88a37 , 11588/593285 , 2434/455662 , 10316/109394 , 10138/162268 , 2437/221295 , 10067/1237730151162165141 , 11567/775174 , 11568/809027 , 1854/LU-5794965 , 10072/173416 , 20.500.11937/40931 , 10044/1/23623 , 10568/68192 , 11343/263351
doi: 10.17863/cam.36177
pmid: 25558364
pmc: PMC4278822
handle: 20.500.11755/70b07846-f3d5-45da-9275-c3da57c88a37 , 11588/593285 , 2434/455662 , 10316/109394 , 10138/162268 , 2437/221295 , 10067/1237730151162165141 , 11567/775174 , 11568/809027 , 1854/LU-5794965 , 10072/173416 , 20.500.11937/40931 , 10044/1/23623 , 10568/68192 , 11343/263351
Biodiversity continues to decline in the face of increasing anthropogenic pressures such as habitat destruction, exploitation, pollution and introduction of alien species. Existing global databases of species' threat status or population time series are dominated by charismatic species. The collation of datasets with broad taxonomic and biogeographic extents, and that support computation of a range of biodiversity indicators, is necessary to enable better understanding of historical declines and to project - and avert - future declines. We describe and assess a new database of more than 1.6 million samples from 78 countries representing over 28,000 species, collated from existing spatial comparisons of local-scale biodiversity exposed to different intensities and types of anthropogenic pressures, from terrestrial sites around the world. The database contains measurements taken in 208 (of 814) ecoregions, 13 (of 14) biomes, 25 (of 35) biodiversity hotspots and 16 (of 17) megadiverse countries. The database contains more than 1% of the total number of all species described, and more than 1% of the described species within many taxonomic groups - including flowering plants, gymnosperms, birds, mammals, reptiles, amphibians, beetles, lepidopterans and hymenopterans. The dataset, which is still being added to, is therefore already considerably larger and more representative than those used by previous quantitative models of biodiversity trends and responses. The database is being assembled as part of the PREDICTS project (Projecting Responses of Ecological Diversity In Changing Terrestrial Systems - http://www.predicts.org.uk). We make site-level summary data available alongside this article. The full database will be publicly available in 2015.
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Biomass resilience of Neotropical secondary forests
descriptionPublicationkeyboard_double_arrow_right Article , Other literature type , Journal 2016 Brazil, Australia, Australia, United Kingdom, Germany, Germany, Brazil, United Kingdom, Netherlands Publisher:Springer Science and Business Media LLCFunded by:NSF | CNH-RCN: Tropical Refores..., NSF | Collaborative Research/LT..., EC | ROBIN +9 projects
NSF| CNH-RCN: Tropical Reforestation Network: Building a Socioecological Understanding of Tropical Reforestation ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
EC| ROBIN ,
NSF| CAREER: Ecosystem processes in regenerating tropical dry forests: linking plant functional traits, stands, and landscapes ,
NSF| COLLABORATIVE RESEARCH: MODELING SUCCESSIONAL VEGETATION DYNAMICS IN WET TROPICAL FORESTS AT MULTIPLE SCALES: INTEGRATING NEIGHBORHOOD EFFECTS, FUNCTIONAL TRAITS, AND PHYLOGENY ,
NSF| Controls on the Storage and Loss of Soil Organic Carbon with Reforestation of Abandoned Pastures ,
UKRI| RootDetect: Remote Detection and Precision Management of Root Health ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Successional pathways and rates of change in tropical forests of Brazil, Costa Rica, and Mexico ,
NSF| Collaborative Research/LTREB Renewal: Successional Pathways and Rates of Change in Tropical Forests of Brazil, Costa Rica and Mexico ,
NSF| 3rd Collaborative Research Network Program (CRN3) ,
NSF| CAREER: Land Use and Environmental Controls on Soil Carbon in Human-Dominated Tropical Landscapes
Authors: Yule Roberta Ferreira Nunes; George A. L. Cabral; Alberto Vicentini; Robin L. Chazdon; +73 Authors
Yule Roberta Ferreira Nunes; George A. L. Cabral; Alberto Vicentini; Robin L. Chazdon; José Luis Hernández-Stefanoni; Paulo Eduardo dos Santos Massoca; Jefferson S. Hall; Tony Vizcarra Bentos; Arturo Sanchez-Azofeifa; Juan Manuel Dupuy; Ricardo Gomes César; Jorge Rodríguez-Velázquez; Vanessa K. Boukili; Marc K. Steininger; Marielos Peña-Claros; André Braga Junqueira; André Braga Junqueira; Susan G. Letcher; Mário M. Espírito-Santo; Catarina C. Jakovac; Catarina C. Jakovac; Daisy H. Dent; Daisy H. Dent; Juan Carlos Licona; T. Mitchell Aide; Dylan Craven; Dylan Craven; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Danaë M. A. Rozendaal; Hans van der Wal; Michiel van Breugel; Michiel van Breugel; Michiel van Breugel; Hans F. M. Vester; Ben H. J. de Jong; Eben N. Broadbent; Edith Orihuela-Belmonte; Justin M. Becknell; Erika Marin-Spiotta; Jorge Ruiz; Jorge Ruiz; Alexandre Adalardo de Oliveira; Robert Muscarella; Robert Muscarella; I. Eunice Romero-Pérez; Lourens Poorter; Rita C. G. Mesquita; Julie S. Denslow; Frans Bongers; Jennifer S. Powers; Pedro H. S. Brancalion; María C. Fandiño; Patricia Balvanera; Maria das Dores Magalhães Veloso; Madelon Lohbeck; Madelon Lohbeck; Daniel Piotto; Jarcilene S. Almeida-Cortez; Susana Ochoa-Gaona; G. Bruce Williamson; G. Bruce Williamson; Marisol Toledo; Ima Célia Guimarães Vieira; Eduardo A. Pérez-García; Jorge A. Meave; María Uriarte; Saara J. DeWalt; Rodrigo Muñoz; Naomi B. Schwartz; Nathan G. Swenson; Angelica M. Almeyda Zambrano; Francisco Mora; Miguel Martínez-Ramos; Sandra M. Durán; Juan Saldarriaga; Deborah K. Kennard;
doi: 10.1038/nature16512 , 10.60692/gydsg-gjm73 , 10.60692/ft0te-p8f41
pmid: 26840632
handle: 11245/1.539630 , 1893/24717
doi: 10.1038/nature16512 , 10.60692/gydsg-gjm73 , 10.60692/ft0te-p8f41
pmid: 26840632
handle: 11245/1.539630 , 1893/24717
An analysis of above-ground biomass recovery during secondary succession in forest sites and plots, covering the major environmental gradients in the Neotropics. Plus de la moitié des forêts tropicales du monde sont le produit d'une croissance secondaire, suite à des perturbations anthropiques. Il est donc important de savoir à quelle vitesse ces forêts secondaires se rétablissent suffisamment pour fournir des services écosystémiques équivalents à ceux des forêts anciennes. Ces auteurs se concentrent sur la séquestration du carbone dans les forêts néotropicales et constatent que l'absorption de carbone est beaucoup plus élevée que dans les forêts anciennes, ce qui permet de récupérer 90 % des stocks de carbone en 66 ans en moyenne, mais il existe également une grande variation du potentiel de récupération. Ces connaissances pourraient aider à évaluer les implications de la perte de forêts — et le potentiel de rétablissement — dans différentes zones. Le changement d'affectation des terres ne se produit nulle part plus rapidement que dans les tropiques, où le déséquilibre entre la déforestation et la repousse forestière a des conséquences importantes sur le cycle mondial du carbone1. Cependant, une incertitude considérable demeure quant au taux de récupération de la biomasse dans les forêts secondaires et à la manière dont ces taux sont influencés par le climat, le paysage et l'utilisation antérieure des terres2,3,4. Nous analysons ici la récupération de la biomasse aérienne au cours de la succession secondaire dans 45 sites forestiers et environ 1 500 parcelles forestières couvrant les principaux gradients environnementaux des Néotropiques. Les forêts secondaires étudiées sont très productives et résilientes. La récupération de la biomasse aérienne après 20 ans était en moyenne de 122 mégagrammes par hectare (Mg ha−1), ce qui correspond à une absorption nette de carbone de 3,05 Mg C ha−1 an−1, soit 11 fois le taux d'absorption des forêts anciennes. Les stocks de biomasse aérienne ont pris un temps médian de 66 ans pour se rétablir à 90 % des anciennes valeurs de croissance. La récupération de la biomasse aérienne après 20 ans a varié de 11,3 fois (de 20 à 225 Mg ha−1) d'un site à l'autre, et cette récupération a augmenté avec la disponibilité en eau (pluviométrie locale plus élevée et déficit en eau climatique plus faible). Nous présentons une carte de récupération de la biomasse d'Amérique latine, qui illustre la variation géographique et climatique du potentiel de séquestration du carbone au cours de la repousse forestière. La carte soutiendra les politiques visant à minimiser la perte de forêts dans les zones où la résilience de la biomasse est naturellement faible (telles que les régions forestières saisonnièrement sèches) et à promouvoir la régénération et la restauration des forêts dans les zones tropicales humides de plaine à forte résilience de la biomasse. Un análisis de la recuperación de biomasa sobre el suelo durante la sucesión secundaria en sitios forestales y parcelas, que cubre los principales gradientes ambientales en el Neotrópico. Más de la mitad de los bosques tropicales del mundo son producto de un crecimiento secundario, tras una perturbación antropogénica. Por lo tanto, es importante saber qué tan rápido se recuperan estos bosques secundarios lo suficiente como para proporcionar servicios ecosistémicos equivalentes a los de los bosques primarios. Estos autores se centran en el secuestro de carbono en los bosques neotropicales y encuentran que la absorción de carbono es mucho mayor que en los bosques primarios, lo que permite la recuperación del 90% de las reservas de carbono en un promedio de 66 años, pero también hay una amplia variación en el potencial de recuperación. Este conocimiento podría ayudar a evaluar las implicaciones de la pérdida de bosques, y el potencial de recuperación, en diferentes áreas. El cambio en el uso de la tierra no ocurre en ninguna parte más rápidamente que en los trópicos, donde el desequilibrio entre la deforestación y el rebrote de los bosques tiene grandes consecuencias para el ciclo global del carbono1. Sin embargo, persiste una considerable incertidumbre sobre la tasa de recuperación de biomasa en los bosques secundarios y cómo estas tasas están influenciadas por el clima, el paisaje y el uso previo de la tierra2,3,4. Aquí analizamos la recuperación de biomasa sobre el suelo durante la sucesión secundaria en 45 sitios forestales y alrededor de 1.500 parcelas forestales que cubren los principales gradientes ambientales en el Neotrópico. Los bosques secundarios estudiados son altamente productivos y resilientes. La recuperación de biomasa sobre el suelo después de 20 años fue en promedio de 122 megagramas por hectárea (Mg ha−1), lo que corresponde a una absorción neta de carbono de 3,05 Mg C ha−1 año−1, 11 veces la tasa de absorción de los bosques antiguos. Las existencias de biomasa sobre el suelo tardaron una mediana de 66 años en recuperarse hasta el 90% de los valores de crecimiento antiguo. La recuperación de biomasa sobre el suelo después de 20 años varió 11,3 veces (de 20 a 225 Mg ha-1) entre los sitios, y esta recuperación aumentó con la disponibilidad de agua (mayores precipitaciones locales y menor déficit climático de agua). Presentamos un mapa de recuperación de biomasa de América Latina, que ilustra la variación geográfica y climática en el potencial de secuestro de carbono durante el recrecimiento forestal. El mapa apoyará las políticas para minimizar la pérdida de bosques en áreas donde la resiliencia de la biomasa es naturalmente baja (como las regiones forestales estacionalmente secas) y promoverá la regeneración y restauración de bosques en áreas tropicales húmedas de tierras bajas con alta resiliencia a la biomasa. An analysis of above-ground biomass recovery during secondary succession in forest sites and plots, covering the major environmental gradients in the Neotropics. More than half the world's tropical forests are the product of secondary growth, following anthropogenic disturbance. It is therefore important to know how quickly these secondary forests recover sufficiently to provide ecosystem services equivalent to those of old-growth forest. These authors focus on carbon sequestration in Neotropical forests, and find that carbon uptake is much higher than in old-growth forest, allowing recovery to 90% of the carbon stocks in an average of 66 years, but there is also wide variation in recovery potential. This knowledge could help assess the implications of forest loss — and potential for recovery — in different areas. Land-use change occurs nowhere more rapidly than in the tropics, where the imbalance between deforestation and forest regrowth has large consequences for the global carbon cycle1. However, considerable uncertainty remains about the rate of biomass recovery in secondary forests, and how these rates are influenced by climate, landscape, and prior land use2,3,4. Here we analyse aboveground biomass recovery during secondary succession in 45 forest sites and about 1,500 forest plots covering the major environmental gradients in the Neotropics. The studied secondary forests are highly productive and resilient. Aboveground biomass recovery after 20 years was on average 122 megagrams per hectare (Mg ha−1), corresponding to a net carbon uptake of 3.05 Mg C ha−1 yr−1, 11 times the uptake rate of old-growth forests. Aboveground biomass stocks took a median time of 66 years to recover to 90% of old-growth values. Aboveground biomass recovery after 20 years varied 11.3-fold (from 20 to 225 Mg ha−1) across sites, and this recovery increased with water availability (higher local rainfall and lower climatic water deficit). We present a biomass recovery map of Latin America, which illustrates geographical and climatic variation in carbon sequestration potential during forest regrowth. The map will support policies to minimize forest loss in areas where biomass resilience is naturally low (such as seasonally dry forest regions) and promote forest regeneration and restoration in humid tropical lowland areas with high biomass resilience. تحليل لاسترداد الكتلة الحيوية فوق الأرض خلال التعاقب الثانوي في مواقع الغابات وقطع الأراضي، والتي تغطي التدرجات البيئية الرئيسية في المناطق المدارية الحديثة. أكثر من نصف الغابات الاستوائية في العالم هي نتاج نمو ثانوي، بعد الاضطرابات البشرية. لذلك من المهم معرفة مدى سرعة تعافي هذه الغابات الثانوية بما يكفي لتوفير خدمات نظام بيئي مكافئة لتلك الموجودة في الغابات القديمة النمو. يركز هؤلاء المؤلفون على عزل الكربون في الغابات المدارية الحديثة، ويجدون أن امتصاص الكربون أعلى بكثير منه في الغابات القديمة النمو، مما يسمح بالتعافي إلى 90 ٪ من مخزونات الكربون في متوسط 66 عامًا، ولكن هناك أيضًا تباينًا كبيرًا في إمكانات الاسترداد. يمكن أن تساعد هذه المعرفة في تقييم الآثار المترتبة على فقدان الغابات — وإمكانية التعافي — في مناطق مختلفة. لا يحدث تغير استخدام الأراضي في أي مكان بسرعة أكبر من المناطق المدارية، حيث يكون للاختلال بين إزالة الغابات وإعادة نمو الغابات عواقب كبيرة على دورة الكربون العالمية1. ومع ذلك، لا يزال هناك قدر كبير من عدم اليقين بشأن معدل استرداد الكتلة الحيوية في الغابات الثانوية، وكيف تتأثر هذه المعدلات بالمناخ والمناظر الطبيعية والاستخدام السابق للأراضي 2،3،4. نقوم هنا بتحليل استرداد الكتلة الحيوية فوق الأرض خلال التعاقب الثانوي في 45 موقعًا للغابات وحوالي 1500 قطعة غابات تغطي التدرجات البيئية الرئيسية في المناطق المدارية الحديثة. الغابات الثانوية المدروسة عالية الإنتاجية والمرونة. كان استرداد الكتلة الحيوية فوق الأرض بعد 20 عامًا في المتوسط 122 ميغاغرام لكل هكتار (Mg ha−1)، وهو ما يعادل امتصاصًا صافياً للكربون قدره 3.05 Mg C ha−1 سنة−1، أي 11 ضعف معدل امتصاص الغابات القديمة النمو. استغرقت مخزونات الكتلة الحيوية فوق الأرض وقتًا متوسطًا قدره 66 عامًا للتعافي إلى 90 ٪ من قيم النمو القديمة. تفاوت استرداد الكتلة الحيوية فوق الأرض بعد 20 عامًا 11.3 ضعفًا (من 20 إلى 225 ملليغرام هكتار−1) عبر المواقع، وزاد هذا الانتعاش مع توافر المياه (ارتفاع هطول الأمطار المحلية وانخفاض العجز المائي المناخي). نقدم خريطة استرداد الكتلة الحيوية لأمريكا اللاتينية، والتي توضح التباين الجغرافي والمناخي في إمكانات عزل الكربون أثناء إعادة نمو الغابات. ستدعم الخريطة السياسات الرامية إلى تقليل فقدان الغابات في المناطق التي تكون فيها مرونة الكتلة الحيوية منخفضة بشكل طبيعي (مثل مناطق الغابات الجافة الموسمية) وتعزيز تجديد الغابات واستعادتها في المناطق المنخفضة الاستوائية الرطبة ذات المرونة العالية للكتلة الحيوية.
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Phylogenetic classification of the world’s tropical forests

Global dominance of lianas over trees is driven by forest disturbance, climate and topography

Carbon sequestration potential of second-growth forest regeneration in the Latin American tropics

Lianas and self-supporting plants during tropical forest succession

Legume abundance along successional and rainfall gradients in Neotropical forests

Climate change increases threat to plant diversity in tropical forests of Central America and southern Mexico

Extracted raw data from: Global dominance of lianas over trees is driven by forest disturbance, climate, and topography

The PREDICTS database: a global database of how local terrestrial biodiversity responds to human impacts.

Biomass resilience of Neotropical secondary forests

Phylogenetic classification of the world’s tropical forests

Global dominance of lianas over trees is driven by forest disturbance, climate and topography

Carbon sequestration potential of second-growth forest regeneration in the Latin American tropics

Lianas and self-supporting plants during tropical forest succession

Legume abundance along successional and rainfall gradients in Neotropical forests

Climate change increases threat to plant diversity in tropical forests of Central America and southern Mexico

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Biomass resilience of Neotropical secondary forests

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