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Biodiversity and ecosystem functioning in degraded and recovering Amazonian and Atlantic forests

退化和恢复的亚马逊和大西洋森林的生物多样性和生态系统功能

基本信息

批准号：
NE/K01644X/1
负责人：
Emanuel Gloor
金额：
$ 41.63万
依托单位：
University of Leeds
依托单位国家：
英国
项目类别：
Research Grant
财政年份：
2013
资助国家：
英国
起止时间：
2013 至无数据
项目状态：
已结题

来源：
https://gtr.ukri.org/projects?ref=NE%2FK01644X%2F1
关键词：
Biodiversity ecosystem functioning degraded recovering

项目摘要

Tropical forests hold more species of plant and animal than any other kind of terrestrial environment, and store large amounts of greenhouse gases in their trees and soils. Yet most of us are aware that they are also highly threatened by human activities, with media attention often focusing on deforestation - when forests are replaced with alternative land-uses, such as agriculture and cattle ranching. However, forests are also being modified in other ways, when trees are felled for the commercial extraction of timber, or when forest burn in abnormally dry years. These events are known as forest degradation, and affect a larger area of land than deforestation alone.The widespread nature of forest degradation means it is very important to understand whether these human-modified forests are performing similar roles as intact primary forests. How much carbon and nitrogen do they hold, and are these nutrients cycled between the leaves and the forest floor at similar rates as in primary forests? Can these ecosystem processes by predicted by characteristics of the vegetation itself (such as leaf shape and format, and the rate it carries out photosynthesis). And crucially, what are the implications of these changes for the future of these forests - are they able to resist additional modification? This project will answer these questions in two separate Brazilian biomes, the Atlantic Forests of Sao Paulo and the Amazon forests near the city of Santarem. The data we collect in two years of fieldwork will be used to improve our understanding of forest functioning, and to develop computer simulations of forests. These simulations will then be used to examine how forests may respond to changes in climate, or other human impacts such as logging or fire.These forests are also crucial for biodiversity conservation, as many rare and endemic species are only found in landscapes where forests have already been heavily modified by humans. It is important to assess to what extent they help conserve these species, and what factors could be managed to improve their conservation value. Tropical forests hold a bewildering number of species, and so many of these species are yet to be described. It is therefore important to focus on groups of species which are well known, making birds and plants are two ideal species groups. The detailed work on forest functioning will take place in a limited number of forest plots, as we are limited by the many precise measures that need to be taken over time. In contrast, biodiversity is much quicker to sample, allowing us to examine much larger areas of around one million hectares in the Amazon and in the Atlantic Forest. As well as examining biodiversity in these landscapes, this project will also assess changes in species traits, which are characteristics that link species to the many tasks they perform in nature. By doing so, we will be able to examine the extent to which human-modified forests are losing key ecosystem processes, such as pollination from long-beaked hummingbirds, or the ability of trees to assimilate and store large quantities of carbon. This will provide us with a much better idea of how the many different kinds of human activity are affecting biodiversity, which is important if we are to design landscapes that help protect the many species of conservation concern. For too long, important scientific knowledge has remained locked away in learned journals, and has failed to inform and influence policies. We are determined not to let this happen with our research, as we believe it will produce important insights that can help us preserve the ecological stability of tropical forests and the biodiversity they contain. To facilitate these impacts, we will make every effort to disseminate our findings. These activities include producing a series of short films for YouTube, linking with local schools, and writing policy briefs that can be presented to politicians, NGOs & environmental charities

热带森林拥有比任何其他陆地环境更多的植物和动物物种，并在树木和土壤中储存大量温室气体。然而，我们大多数人都意识到，它们也受到人类活动的高度威胁，媒体的注意力往往集中在森林砍伐上-当森林被其他土地用途所取代时，如农业和畜牧业。然而，森林也在以其他方式改变，当树木被砍伐用于商业木材开采时，或者当森林在异常干旱的年份燃烧时。这些事件被称为森林退化，影响的土地面积比森林砍伐本身更大。森林退化的广泛性意味着了解这些人为改造的森林是否发挥着与完整的原始森林相似的作用非常重要。它们含有多少碳和氮，这些营养物质在树叶和森林地面之间的循环速度与原始森林相似吗？这些生态系统过程可以通过植被本身的特征（如叶子的形状和格式，以及它进行光合作用的速率）来预测。至关重要的是，这些变化对这些森林的未来有什么影响--它们是否能够抵抗额外的改变？这个项目将在两个独立的巴西生物群落中回答这些问题，这两个生物群落是圣保罗的大西洋森林和桑塔雷姆市附近的亚马逊森林。我们在两年的实地考察中收集的数据将用于提高我们对森林功能的理解，并开发森林的计算机模拟。这些模拟将用于研究森林如何应对气候变化或其他人类影响，如伐木或火灾。这些森林对生物多样性保护也至关重要，因为许多稀有和特有物种只在森林已被人类严重改造的景观中发现。重要的是要评估它们在多大程度上有助于保护这些物种，以及可以管理哪些因素来提高它们的保护价值。热带森林拥有令人眼花缭乱的物种数量，其中许多物种尚未被描述。因此，重要的是要把重点放在众所周知的物种群，使鸟类和植物是两个理想的物种群。关于森林功能的详细工作将在数量有限的林地中进行，因为我们受到需要长期采取的许多精确措施的限制。相比之下，生物多样性的采样速度要快得多，这使我们能够在亚马逊和大西洋森林中检查大约100万公顷的更大面积。除了研究这些景观中的生物多样性外，该项目还将评估物种特征的变化，这些特征将物种与它们在自然界中执行的许多任务联系起来。通过这样做，我们将能够研究人类改造的森林在多大程度上失去了关键的生态系统过程，例如长喙蜂鸟的授粉，或者树木吸收和储存大量碳的能力。这将使我们更好地了解许多不同种类的人类活动是如何影响生物多样性的，如果我们要设计有助于保护许多物种的景观，这一点很重要。长期以来，重要的科学知识一直被锁在学术期刊中，未能为政策提供信息和影响政策。我们决心不让这种情况发生在我们的研究中，因为我们相信它将产生重要的见解，可以帮助我们保护热带森林的生态稳定性及其所包含的生物多样性。为了促进这些影响，我们将尽一切努力传播我们的研究结果。这些活动包括为YouTube制作一系列短片，与当地学校建立联系，以及编写可提交给政治家、非政府组织和环境慈善机构的政策简报

项目成果

期刊论文数量（10）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

21st Century drought-related fires counteract the decline of Amazon deforestation carbon emissions.

DOI：
10.1038/s41467-017-02771-y
发表时间：
2018-02-13
期刊：
Nature communications
影响因子：
16.6
作者：
Aragão LEOC;Anderson LO;Fonseca MG;Rosan TM;Vedovato LB;Wagner FH;Silva CVJ;Silva Junior CHL;Arai E;Aguiar AP;Barlow J;Berenguer E;Deeter MN;Domingues LG;Gatti L;Gloor M;Malhi Y;Marengo JA;Miller JB;Phillips OL;Saatchi S
通讯作者：
Saatchi S

Atmospheric CO 2 inversion reveals the Amazon as a minor carbon source caused by fire emissions, with forest uptake offsetting about half of these emissions

大气 CO 2 反演显示亚马逊地区是火灾排放造成的次要碳源，森林吸收抵消了大约一半的排放量

DOI：
10.5194/acp-23-9685-2023
发表时间：
2023
期刊：
Atmospheric Chemistry and Physics
影响因子：
6.3
作者：
Basso L
通讯作者：
Basso L

Compositional response of Amazon forests to climate change.

DOI：
10.1111/gcb.14413
发表时间：
2019-01
期刊：
Global change biology
影响因子：
11.6
作者：
Esquivel-Muelbert A;Baker TR;Dexter KG;Lewis SL;Brienen RJW;Feldpausch TR;Lloyd J;Monteagudo-Mendoza A;Arroyo L;Álvarez-Dávila E;Higuchi N;Marimon BS;Marimon-Junior BH;Silveira M;Vilanova E;Gloor E;Malhi Y;Chave J;Barlow J;Bonal D;Davila Cardozo N;Erwin T;Fauset S;Hérault B;Laurance S;Poorter L;Qie L;Stahl C;Sullivan MJP;Ter Steege H;Vos VA;Zuidema PA;Almeida E;Almeida de Oliveira E;Andrade A;Vieira SA;Aragão L;Araujo-Murakami A;Arets E;Aymard C GA;Baraloto C;Camargo PB;Barroso JG;Bongers F;Boot R;Camargo JL;Castro W;Chama Moscoso V;Comiskey J;Cornejo Valverde F;Lola da Costa AC;Del Aguila Pasquel J;Di Fiore A;Fernanda Duque L;Elias F;Engel J;Flores Llampazo G;Galbraith D;Herrera Fernández R;Honorio Coronado E;Hubau W;Jimenez-Rojas E;Lima AJN;Umetsu RK;Laurance W;Lopez-Gonzalez G;Lovejoy T;Aurelio Melo Cruz O;Morandi PS;Neill D;Núñez Vargas P;Pallqui Camacho NC;Parada Gutierrez A;Pardo G;Peacock J;Peña-Claros M;Peñuela-Mora MC;Petronelli P;Pickavance GC;Pitman N;Prieto A;Quesada C;Ramírez-Angulo H;Réjou-Méchain M;Restrepo Correa Z;Roopsind A;Rudas A;Salomão R;Silva N;Silva Espejo J;Singh J;Stropp J;Terborgh J;Thomas R;Toledo M;Torres-Lezama A;Valenzuela Gamarra L;van de Meer PJ;van der Heijden G;van der Hout P;Vasquez Martinez R;Vela C;Vieira ICG;Phillips OL
通讯作者：
Phillips OL

Evolutionary heritage influences Amazon tree ecology.

DOI：
10.1098/rspb.2016.1587
发表时间：
2016-12-14
期刊：
Proceedings. Biological sciences
影响因子：
0
作者：
Coelho de Souza F;Dexter KG;Phillips OL;Brienen RJ;Chave J;Galbraith DR;Lopez Gonzalez G;Monteagudo Mendoza A;Pennington RT;Poorter L;Alexiades M;Álvarez-Dávila E;Andrade A;Aragão LE;Araujo-Murakami A;Arets EJ;Aymard C GA;Baraloto C;Barroso JG;Bonal D;Boot RG;Camargo JL;Comiskey JA;Valverde FC;de Camargo PB;Di Fiore A;Elias F;Erwin TL;Feldpausch TR;Ferreira L;Fyllas NM;Gloor E;Herault B;Herrera R;Higuchi N;Honorio Coronado EN;Killeen TJ;Laurance WF;Laurance S;Lloyd J;Lovejoy TE;Malhi Y;Maracahipes L;Marimon BS;Marimon-Junior BH;Mendoza C;Morandi P;Neill DA;Vargas PN;Oliveira EA;Lenza E;Palacios WA;Peñuela-Mora MC;Pipoly JJ 3rd;Pitman NC;Prieto A;Quesada CA;Ramirez-Angulo H;Rudas A;Ruokolainen K;Salomão RP;Silveira M;Stropp J;Ter Steege H;Thomas-Caesar R;van der Hout P;van der Heijden GM;van der Meer PJ;Vasquez RV;Vieira SA;Vilanova E;Vos VA;Wang O;Young KR;Zagt RJ;Baker TR
通讯作者：
Baker TR

Quantifying Canopy Tree Loss and Gap Recovery in Tropical Forests under Low-Intensity Logging Using VHR Satellite Imagery and Airborne LiDAR

DOI：
10.3390/rs11070817
发表时间：
2019-04-01
期刊：
REMOTE SENSING
影响因子：
5
作者：
Dalagnol, Ricardo;Phillips, Oliver L.;Aragao, Luiz E. O. C.
通讯作者：
Aragao, Luiz E. O. C.

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Emanuel Gloor其他文献

Synthesis of the land carbon ﬂ uxes of the Amazon region between 2010 and 2020

2010年至2020年亚马逊地区陆地碳弹性通量综合

DOI：
发表时间：
期刊：
影响因子：
0
作者：
T. Rosan;S. Sitch;Michael O. Sullivan;L. Basso;Chris Wilson;Camila Silva;Emanuel Gloor;Dominic Fawcett;Viola H. A. Heinrich;Jefferson G. Souza;Francisco Gilney;Silva Bezerra;C. Randow;L. Mercado;L. Gatti;A. Wiltshire;P. Friedlingstein;Julia Pongratz;Clemens Schwingshackl;Mathew Williams;L. Smallman;Jürgen Knauer;Vivek K. Arora;Daniel Kennedy;Hanqin Tian;Wenping Yuan;A. K. Jain;Stefanie Falk;Benjamin Poulter;A. Arneth;Qing Sun;S. Zaehle;Anthony P. Walker;Etsushi Kato;Xu Yue;Ana Bastos;P. Ciais;J. Wigneron;Clément Albergel;Luiz;E. O. C. Aragão
通讯作者：
E. O. C. Aragão

Large range sizes link fast life histories with high species richness across wet tropical tree floras

在潮湿的热带树木植物区系中，较大的种内居群大小与快速的生活史和高物种丰富度相关联。

DOI：
10.1038/s41598-024-84367-3
发表时间：
2025-02-08
期刊：
Scientific Reports
影响因子：
3.900
作者：
Timothy R. Baker;Stephen Adu-Bredu;Kofi Affum-Baffoe;Shin-ichiro Aiba;Perpetra Akite;Miguel Alexiades;Everton Almeida;Edmar Almeida de Oliveira;Esteban Alvarez Davila;Christian Amani;Ana Andrade;Luiz Aragao;Alejandro Araujo-Murakami;Eric Arets;Luzmila Arroyo;Peter Ashton;Suspense A. Averti Ifo;Gerardo A. C. Aymard;Michel Baisie;William Balee;Michael Balinga;Lindsay F. Banin;Olaf Banki;Christopher Baraloto;Jorcely Barroso;Jean-Francois Bastin;Hans Beeckman;Serge Begne;Natacha Nssi Bengone;Nicholas Berry;Wemo Betian;Vincent Bezard;Lilian Blanc;Pascal Boeckx;Damien Bonal;Frans Bongers;Francis Q. Brearley;Roel Brienen;Foster Brown;Musalmah Bt. Nasaradin;Benoit Burban;David F. R. P. Burslem;Plinio Camargo;Jose Luis Camargo;Wendeson Castro;Carlos Ceron;Victor Chama Moscoso;Colin Chapman;Jerome Chave;Eric Chezeaux;Murray Collins;James Comiskey;David Coomes;Fernando Cornejo Valverde;Flavia R. C. Costa;Aida Cuni-Sanchez;Lola da Costa;Douglas C. Daly;Martin Dančák;Armandu Daniels;Greta Dargie;Stuart Davies;Charles De Canniere;Thales de Haulleville;Jhon del Aguila Pasquel;Geraldine Derroire;Kyle G. Dexter;Anthony Di Fiore;Marie-Noel K. Djuikouo;Jean-Louis Doucet;Vincent Droissart;Gerald Eilu;Thaise Emillio;Julien Engel;Bocko Yannick Enock;Fidele Evouna Ondo;Corneille Ewango;Sophie Fauset;Ted R. Feldpausch;Muhammad Fitriadi;Gerardo Flores Llampazo;Ernest G. Foli;Gabriella Fredriksson;David R. Galbraith;Martin Gilpin;Emanuel Gloor;Christelle Gonmadje;Rene Guillen Villaroel;Jefferson Hall;Keith C. Hamer;Alan Hamilton;Olivier Hardy;Terese Hart;Radim Hédl;Rafael Herrera;Niro Higuchi;Claude Marcel Hladik;Eurídice Honorio Coronado;Isau Huamantupa-Chuquimaco;Walter Huaraca Huasco;Wannes Hubau;Muhammad Idhamsyah;Sascha A. Ismail;Kath Jeffery;Eliana Jimenez;Tommaso Jucker;Elizabeth Kearsley;Lip Khoon Kho;Timothy Killeen;Kanehiro Kitayama;William Laurance;Susan Laurance;Miguel Leal;Simon L. Lewis;Stanislav Lhota;Jeremy Lindsell;Gabriela Lopez-Gonzalez;Jon Lovett;Richard Lowe;William E. Magnusson;Jean-Remy Makana;Yadvinder Malhi;Beatriz Marimon;Ben Hur Marimon Junior;Andrew Marshall;Colin Maycock;Faustin Mbayu;Casimiro Mendoza;Irina Mendoza Polo;Faizah Metali;Vianet Mihindou;Abel Monteagudo-Mendoza;Sam Moore;Patrick Mucunguzi;Jacques Mukinzi;Pantaleo Munishi;Laszlo Nagy;Petrus Naisso;David Neill;Adriano Nogueira Lima;Percy Nunez Vargas;Lucas Ojo;Walter Palacios;Nadir Pallqui Camacho;Alexander Parada Gutierrez;Julie Peacock;Kelvin S.-H. Peh;Antonio Pena Cruz;Colin Pendry;Toby Pennington;Maria Cristina Penuela-Mora;Pascal Petronelli;Oliver L. Phillips;Georgia Pickavance;G. John Pipoly;Nigel Pitman;Axel Dalberg Poulsen;Ghillean T. Prance;Adriana Prieto;Richard B. Primack;Lan Qie;Simon A. Queenborough;Terry Sunderland;Carlos Quesada;Freddy Ramirez Arevalo;Hirma Ramirez-Angulo;Jan Reitsma;Maxime Réjou-Méchain;Anand Roopsind;Francesco Rovero;Ervan Rutishauser;Kamariah Abu Salim;Rafael Salomao;Ismayadi Samsoedin;Muhd Shahruney Saparudin;Juliana Schietti;Ricardo A. Segovia;Julio Serrano;Rafizah Serudia;Douglas Sheil;Natalino Silva;Javier Silva Espejo;Marcos Silveira;Murielle Simo-Droissart;James Singh;Bonaventure Sonké;Thaise Emilio Lopes De Sousa;Juliana Stropp;Rahayu Sukri;Terry Sunderland;Martin Svátek;Michael Swaine;Hermann Taedoumg;Joey Talbot;Sylvester Tan;James Taplin;David Taylor;Hans ter Steege;John Terborgh;Armando Torres-Lezama;John Tshibamba Mukendi;Darlington Tuagben;Peter van de Meer;Geertje van der Heijden;Peter van der Hout;Mark van Nieuwstadt;Bert van Ulft;Rodolfo Vasquez Martinez;Ronald Vernimmen;Barbara Vinceti;Simone Vieira;Ima Celia Guimaries Vieira;Emilio Vilanova Torre;Jason Vleminckx;Lee White;Simon Willcock;Mathew Williams;John T. Woods;Tze Leong Yao;Ishak Yassir;Roderick Zagt;Lise Zemagho
通讯作者：
Lise Zemagho

Tree ring isotopes reveal an intensification of the hydrological cycle in the Amazon

树木年轮同位素揭示了亚马逊地区水文循环的加剧

DOI：
10.1038/s43247-025-02408-9
发表时间：
2025-06-17
期刊：
Communications Earth & Environment
影响因子：
8.900
作者：
Bruno B. L. Cintra;Emanuel Gloor;Jessica C. A. Baker;Arnoud Boom;Jochen Schöngart;Santiago Clerici;Kanhu Pattnayak;Roel J. W. Brienen
通讯作者：
Roel J. W. Brienen