Marion Pfeifer, Imperial College London
Veronique Lefebvre, Imperial College London
Toby A. Gardner, Stockholm Environment Institute
Victor Arroyo-Rodriguez, Instituto de Investigaciones en Ecosistemas y Sustentabilidad
Lander Baeten, Universiteit Gent
Cristina Banks-Leite, Imperial College London
Jos Barlow, Lancaster Environment Centre
Matthew G. Betts, Oregon State University
Joerg Brunet, Sveriges lantbruksuniversitet
Alexis Cerezo, Universidad de Buenos Aires
Laura M. Cisneros, University of Connecticut
Stuart Collard, Nature Conservation Society of South Australia Incorporated
Neil D'Cruze, World Animal Protection UK
Catarina da Silva Motta, Instituto Nacional de Pesquisas Da Amazonia
Stephanie Duguay, Carleton University
Hilde Eggermont, Universiteit Gent
Felix Eigenbrod, University of Southampton
Adam S. Hadley, Oregon State University
Thor R. Hanson
Joseph E. Hawes, University of East Anglia
Tamara Heartsill Scalley, USDA Forest Service International Institute of Tropical Forestry
Brian T. Klingbeil, University of Connecticut
Annette Kolb, Universität Bremen
Urs Kormann, Georg-August-Universität Göttingen
Sunil Kumar, Colorado State University
Thibault Lachat, Eidgenössische Forschungsanstalt für Wald, Schnee und Landschaft WSL
Poppy Lakeman Fraser, Imperial College London
Victoria Lantschner, Consejo Nacional de Investigaciones Científicas y Técnicas
William F. Laurance, James Cook University
Inara R. Leal, Universidade Federal de Pernambuco
Luc Lens, Universiteit Gent
Charles J. Marsh, University of Leeds
Guido F. Medina-Rangel, Universidad Nacional de Colombia

Document Type

Article

Publication Date

1-1-2014

Abstract

Habitat fragmentation studies have produced complex results that are challenging to synthesize. Inconsistencies among studies may result from variation in the choice of landscape metrics and response variables, which is often compounded by a lack of key statistical or methodological information. Collating primary datasets on biodiversity responses to fragmentation in a consistent and flexible database permits simple data retrieval for subsequent analyses. We present a relational database that links such field data to taxonomic nomenclature, spatial and temporal plot attributes, and environmental characteristics. Field assessments include measurements of the response(s) (e.g., presence, abundance, ground cover) of one or more species linked to plots in fragments within a partially forested landscape. The database currently holds 9830 unique species recorded in plots of 58 unique landscapes in six of eight realms: mammals 315, birds 1286, herptiles 460, insects 4521, spiders 204, other arthropods 85, gastropods 70, annelids 8, platyhelminthes 4, Onychophora 2, vascular plants 2112, nonvascular plants and lichens 320, and fungi 449. Three landscapes were sampled as long-term time series (>10 years). Seven hundred and eleven species are found in two or more landscapes. Consolidating the substantial amount of primary data available on biodiversity responses to fragmentation in the context of land-use change and natural disturbances is an essential part of understanding the effects of increasing anthropogenic pressures on land. The consistent format of this database facilitates testing of generalizations concerning biologic responses to fragmentation across diverse systems and taxa. It also allows the re-examination of existing datasets with alternative landscape metrics and robust statistical methods, for example, helping to address pseudo-replication problems. The database can thus help researchers in producing broad syntheses of the effects of land use. The database is dynamic and inclusive, and contributions from individual and large-scale data-collection efforts are welcome. © 2014 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

Publication Source (Journal or Book title)

Ecology and Evolution

First Page

1524

Last Page

1537

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