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BIODIVERSITY AND LAND-USE IMPACTS ON TROPICAL ECOSYSTEM FUNCTION (BALI)

生物多样性和土地利用对热带生态系统功能的影响（巴厘岛）

基本信息

批准号：
NE/K01613X/1
负责人：
Paul Eggleton
金额：
$ 37.18万
依托单位：
Natural History Museum
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%2FK01613X%2F1
关键词：
BIODIVERSITY LAND USE IMPACTS TROPICAL

项目摘要

Anthropogenic disturbance and land-use change in the tropics is leading to irrevocable changes in biodiversity and substantial shifts in ecosystem biogeochemistry. Yet, we still have a poor understanding of how human-driven changes in biodiversity feed back to alter biogeochemical processes. This knowledge gap substantially restricts our ability to model and predict the response of tropical ecosystems to current and future environmental change. There are a number of critical challenges to our understanding of how changes in biodiversity may alter ecosystem processes in the tropics; namely: (i) how the high taxonomic diversity of the tropics is linked to ecosystem functioning, (ii) how changes in the interactions among trophic levels and taxonomic groups following disturbance impacts upon functional diversity and biogeochemistry, and (iii) how plot-level measurements can be used to scale to whole landscapes. We have formed a consortium to address these critical challenges to launch a large-scale, replicated, and fully integrated study that brings together a multi-disciplinary team with the skills and expertise to study the necessary taxonomic and trophic groups, different biogeochemical processes, and the complex interactions amongst them.To understand and quantify the effects of land-use change on the activity of focal biodiversity groups and how this impacts biogeochemistry, we will: (i) analyse pre-existing data on distributions of focal biodiversity groups; (ii) sample the landscape-scale treatments at the Stability of Altered Forest Ecosystems (SAFE) Project site (treatments include forest degradation, fragmentation, oil palm conversion) and key auxiliary sites (Maliau Basin - old growth on infertile soils, Lambir Hills - old growth on fertile soils, Sabah Biodiversity Experiment - rehabilitated forest, INFAPRO-FACE - rehabilitated forest); and (iii) implement new experiments that manipulate key components of biodiversity and pathways of belowground carbon flux. The manipulations will focus on trees and lianas, mycorrhizal fungi, termites and ants, because these organisms are the likely agents of change for biogeochemical cycling in human-modified tropical forests. We will use a combination of cutting-edge techniques to test how these target groups of organisms interact each other to affect biogeochemical cycling. We will additionally collate and analyse archived data on other taxa, including vertebrates of conservation concern. The key unifying concept is the recognition that so-called 'functional traits' play a key role in linking taxonomic diversity to ecosystem function. We will focus on identifying key functional traits associated with plants, and how they vary in abundance along the disturbance gradient at SAFE. In particular, we propose that leaf functional traits (e.g. physical and chemical recalcitrance, nitrogen content, etc.) play a pivotal role in determining key ecosystem processes and also strongly influence atmospheric composition. Critically, cutting-edge airborne remote sensing techniques suggest it is possible to map leaf functional traits, chemistry and physiology at landscape-scales, and so we will use these novel airborne methods to quantify landscape-scale patterns of forest degradation, canopy structure, biogeochemical cycling and tree distributions. Process-based mathematical models will then be linked to the remote sensing imagery and ground-based measurements of functional diversity and biogeochemical cycling to upscale our findings over disturbance gradients.

热带地区的人为干扰和土地利用变化正在导致不可逆转的生物多样性变化和生态系统生物地球化学的重大变化。然而，我们对人类驱动的生物多样性变化如何反馈改变生物地球化学过程的理解仍然很差。这种知识差距极大地限制了我们模拟和预测热带生态系统对当前和未来环境变化的反应的能力。我们对生物多样性变化如何改变热带生态系统过程的理解面临许多关键挑战；即：(1)热带地区的高分类多样性如何与生态系统功能联系在一起；(2)扰动后营养水平和分类类群之间相互作用的变化如何影响功能多样性和生物地球化学；(3)样地水平测量如何用于扩展到整个景观。我们已经成立了一个联盟来解决这些关键的挑战，发起一个大规模的、可复制的、完全集成的研究，汇集了一个多学科的团队，他们具有研究必要的分类和营养群、不同的生物地球化学过程以及它们之间复杂的相互作用的技能和专业知识。为了理解和量化土地利用变化对重点生物多样性类群活动的影响，以及这种影响如何影响生物地球化学，我们将：(i)分析重点生物多样性类群分布的现有数据；（ii）在改变森林生态系统稳定性（SAFE）项目地点（处理包括森林退化、破碎化、油棕转化）和关键辅助地点（马里奥盆地-贫瘠土壤上的旧生长，兰贝尔山-肥沃土壤上的旧生长，沙巴生物多样性实验-恢复森林，INFAPRO-FACE -恢复森林）进行景观尺度处理取样；（三）实施新的实验，操纵生物多样性的关键组成部分和地下碳通量的途径。这些操作将集中在树木和藤本植物、菌根真菌、白蚁和蚂蚁上，因为这些生物很可能是人类改造的热带森林中生物地球化学循环变化的媒介。我们将使用尖端技术的组合来测试这些目标生物群体如何相互作用以影响生物地球化学循环。此外，我们将整理和分析其他分类群的存档数据，包括受保护的脊椎动物。关键的统一概念是认识到所谓的“功能性状”在将分类多样性与生态系统功能联系起来方面起着关键作用。我们将专注于识别与植物相关的关键功能性状，以及它们在SAFE干扰梯度下的丰度变化。特别是，我们提出叶片的功能性状（如物理和化学抗性，氮含量等）在决定关键生态系统过程中起关键作用，也对大气成分产生强烈影响。重要的是，先进的航空遥感技术表明，在景观尺度上绘制树叶的功能特征、化学和生理是可能的，因此我们将使用这些新的航空方法来量化森林退化、冠层结构、生物地球化学循环和树木分布的景观尺度模式。然后，基于过程的数学模型将与遥感图像和基于地面的功能多样性和生物地球化学循环测量相关联，以使我们的发现超越干扰梯度。

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）

Experimentally testing and assessing the predictive power of species assembly rules for tropical canopy ants.

DOI：
10.1111/ele.12403
发表时间：
2015-03
期刊：
Ecology letters
影响因子：
8.8
作者：
Fayle TM;Eggleton P;Manica A;Yusah KM;Foster WA
通讯作者：
Foster WA

Symbiogenesis: Beyond the endosymbiosis theory?

DOI：
10.1016/j.jtbi.2017.08.001
发表时间：
2017-12-07
期刊：
JOURNAL OF THEORETICAL BIOLOGY
影响因子：
2
作者：
Aanen, Duur K.;Eggleton, Paul
通讯作者：
Eggleton, Paul

Revisiting Coptotermes (Isoptera: Rhinotermitidae): a global taxonomic road map for species validity and distribution of an economically important subterranean termite genus

DOI：
10.1111/syen.12157
发表时间：
2016-04-01
期刊：
SYSTEMATIC ENTOMOLOGY
影响因子：
4.8
作者：
Chouvenc, Thomas;Li, Hou-Feng;Su, Nan-Yao
通讯作者：
Su, Nan-Yao

Logging cuts the functional importance of invertebrates in tropical rainforest.

DOI：
10.1038/ncomms7836
发表时间：
2015-04-13
期刊：
NATURE COMMUNICATIONS
影响因子：
16.6
作者：
Ewers, Robert M.;Boyle, Michael J. W.;Gleave, Rosalind A.;Plowman, Nichola S.;Benedick, Suzan;Bernard, Henry;Bishop, Tom R.;Bakhtiar, Effendi Y.;Vun Khen Chey;Chung, Arthur Y. C.;Davies, Richard G.;Edwards, David P.;Eggleton, Paul;Fayle, Tom M.;Hardwick, Stephen R.;Homathevi, Rahman;Kitching, Roger L.;Khoo, Min Sheng;Luke, Sarah H.;March, Joshua J.;Nilus, Reuben;Pfeifer, Marion;Rao, Sri V.;Sharp, Adam C.;Snaddon, Jake L.;Stork, Nigel E.;Struebig, Matthew J.;Wearn, Oliver R.;Yusah, Kalsum M.;Turner, Edgar C.
通讯作者：
Turner, Edgar C.

Termites promote soil carbon and nitrogen depletion: Results from an in situ macrofauna exclusion experiment, Peru

DOI：
10.1016/j.soilbio.2014.05.033
发表时间：
2014-10
期刊：
Soil Biology & Biochemistry
影响因子：
9.7
作者：
C. Dahlsjö;C. Parr;Y. Malhi;P. Meir;Omayra V.C. Chevarria;P. Eggleton
通讯作者：
C. Dahlsjö;C. Parr;Y. Malhi;P. Meir;Omayra V.C. Chevarria;P. Eggleton

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Paul Eggleton其他文献

Erratum to: Mapping of earthworm distribution for the British Isles and Eire highlights the under-recording of an ecologically important group

DOI：
10.1007/s10531-012-0310-6
发表时间：
2012-06-03
期刊：
BIODIVERSITY AND CONSERVATION
影响因子：
3.100
作者：
Daniel Carpenter;Emma Sherlock;David T. Jones;Jim Chiminoides;Thomas Writer;Roy Neilson;Brian Boag;Aidan M. Keith;Paul Eggleton
通讯作者：
Paul Eggleton

Variable responses of individual species to tropical forest degradation

个别物种对热带森林退化的不同反应

DOI：
10.1101/2024.02.09.576668
发表时间：
2024
期刊：
bioRxiv
影响因子：
0
作者：
Robert M. Ewers;William D. Pearse;C. D. L. Orme;P. Amarasekare;Tijmen De Lorm;Natasha R. Granville;Rahayu Adzhar;David C. Aldridge;Marc Ancrenaz;Georgina Atton;Holly Barclay;Maxwell V. L. Barclay;Henry Bernard;Jake E. Bicknell;T. R. Bishop;Joshua Blackman;Sabine Both;M. J. Boyle;Hayley Brant;Ella Brasington;D. Burslem;Emma R. Bush;Kerry Calloway;Chris Carbone;Lauren Cator;P. Chapman;V. K. Chey;Arthur Y. C. Chung;Elizabeth L. Clare;Jeremy Cusack;M. Dančák;Zoe G. Davies;Charles W. Davison;Mahadimenakbar M. Dawood;Nicolas J. Deere;Katharine J M Dickinson;R. Didham;T. Döbert;R. Dow;R. Drinkwater;David P. Edwards;Paul Eggleton;Aisyah Faruk;T. Fayle;Arman Hadi Fikri;Robert J. Fletcher;Hollie Folkard;William A. Foster;Adam Fraser;Richard J Gill;Ross E. J. Gray;Ryan Gray;Nichar Gregory;Jane Hardwick;Martina F. Harianja;Jessica Haysom;David R. Hemprich;Sui P. Heon;M. Hroneš;E. W. Jebrail;Nick Jones;P. Jotan;Victoria A. Kemp;Lois Kinneen;R. Kitching;O. Konopik;Boon Hee Kueh;Isolde Lane;Owen T. Lewis;S. Luke;Emma Mackintosh;Catherine S. Maclean;N. Majalap;Y. Malhi;Stephanie Martin;Michael Massam;R. Matula;S. Maunsell;Amelia R. Mckinlay;Simon Mitchell;Katherine E. Mullin;R. Nilus;Ciar D. Noble;J. M. Parrett;Marion Pfeifer;Annabel Pianzin;L. Picinali;Rajeev Pillay;Frederica Poznansky;Aaron Prairie;L. Qie;Homathevi Rahman;T. Riutta;S. Rossiter;J. M. Rowcliffe;Gabrielle Briana Roxby;Dave J. I. Seaman;Sarab S. Sethi;Adi Shabrani;Adam C. Sharp;Eleanor M. Slade;J. Sleutel;Nigel E Stork;M. Struebig;Martin Svátek;T. Swinfield;Heok Hui Tan;Y. Teh;J. Thorley;E. C. Turner;Joshua P. Twining;Maisie Vollans;Oliver R. Wearn;Bruce L. Webber;Fabienne Wiederkehr;Clare L Wilkinson;J. Williamson;Anna Wong;Darren C. J. Yeo;N. Yoh;K. M. Yusah;Genevieve Yvon;Nursyamin Zulkifli;Olivia Daniel;G. Reynolds;Cristina Banks‐Leite
通讯作者：
Cristina Banks‐Leite

Habitat fragmentation drives pest termite risk in humid, but not arid, biomes

DOI：
10.1016/j.oneear.2024.10.003
发表时间：
2024-11-15
期刊：
Research article
影响因子：
作者：
Donghao Wu;Cong Liu;Fernanda S. Caron;Yuanyuan Luo;Marcio R. Pie;Mingjian Yu;Paul Eggleton;Chengjin Chu
通讯作者：
Chengjin Chu

Suppression of savanna ants alters invertebrate composition and influences key ecosystem processes.

对热带草原蚂蚁的抑制会改变无脊椎动物的组成并影响关键的生态系统过程。

DOI：
发表时间：
2016
期刊：
Ecology
影响因子：
4.8
作者：
Catherine L. Parr;Catherine L. Parr;Paul Eggleton;Andrew B. Davies;Theo A. Evans;Sholto Holdsworth
通讯作者：
Sholto Holdsworth

Characterization of the Human Neutrophil Clq Receptor and Functional Effects of Free Ligand on Activated Neutrophils

DOI：
10.1182/blood.v84.5.1640.1640
发表时间：
1994-09-01
期刊：
Research article
影响因子：
作者：
Paul Eggleton;Berhane Ghebrehiwet;John P. Coburn;Kedarnath N. Sastry;Ken S. Zaner;Alfred I. Tauber
通讯作者：
Alfred I. Tauber