Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/living-fences-decrease-the-edge-effect-on-nest-predation-in-a-tropical-AaVPazrBoo
References (60)
-
F. Hausmann, C. Catterall, S. Piper (2005)
Effects of Edge Habitat and Nest Characteristics on Depredation of Artificial Nests in Fragmented Australian Tropical RainforestBiodiversity & Conservation, 14
-
I. Storch, Evi Woitke, S. Krieger (2005)
Landscape-scale Edge Effect in Predation Risk in Forest-farmland Mosaics of Central EuropeLandscape Ecology, 20
-
A. Estrada, A. Rivera, R. Coates‐Estrada (2002)
Predation of artificial nests in a fragmented landscape in the tropical region of Los Tuxtlas, MexicoBiological Conservation, 106
-
Iriana Zuria, J. Gates, I. Castellanos (2007)
Artificial nest predation in hedgerows and scrub forest in a human-dominated landscape of central MexicoActa Oecologica-international Journal of Ecology, 31
-
J. Rivera, I. Montaño, J. Rappole, Felipe Cerda (2009)
Testing the importance of nest concealment: does timing matter?Journal of Field Ornithology, 80
-
P. Pulido-Santacruz, Luis Renjifo (2010)
Live fences as tools for biodiversity conservation: a study case with birds and plantsAgroforestry Systems, 81
-
R. Zahawi (2005)
Establishment and Growth of Living Fence Species: An Overlooked Tool for the Restoration of Degraded Areas in the TropicsRestoration Ecology, 13
-
Javier Morantes-Toloza, Luis Renjifo (2018)
Cercas vivas en sistemas de producción tropicales: una revisión mundial de los usos y percepcionesRevista De Biologia Tropical, 66
-
L. Fahrig, Judith Girard, Dennis Duro, J. Pasher, Adam Smith, S. Javorek, D. King, K. Lindsay, S. Mitchell, L. Tischendorf (2015)
Farmlands with smaller crop fields have higher within-field biodiversityAgriculture, Ecosystems & Environment, 200
-
C. Harvey, C. Villanueva, Jaime Villacís, M. Chacón, D. Muñoz, Marlon López, M. Ibrahim, René Gómez, Rachel Taylor, J. Martínez, Á. Navas, J. Sáenz, D. Sánchez, A. Medina, S. Vílchez, B. Hernández, A. Perez, F. Ruiz, F. López, I. Lang, F. Sinclair (2005)
Contribution of live fences to the ecological integrity of agricultural landscapesAgriculture, Ecosystems & Environment, 111
-
Juliana Ribeiro, A. Nunes-Freitas, E. Fidalgo, M. Uzêda (2019)
Forest fragmentation and impacts of intensive agriculture: Responses from different tree functional groupsPLoS ONE, 14
-
Carlos Portillo-Quintero, G. Sánchez-Azofeifa (2010)
Extent and conservation of tropical dry forests in the AmericasBiological Conservation, 143
-
A. Chalfoun, F. Thompson, M. Ratnaswamy (2002)
Nest Predators and Fragmentation: a Review and Meta‐AnalysisConservation Biology, 16
-
D. Vetter, G. Rücker, I. Storch (2013)
A meta-analysis of tropical forest edge effects on bird nest predation risk:: Edge effects in avian nest predationBiological Conservation, 159
-
R. Almazán-Núñez, M. Arizmendi, L. Eguiarte, P. Corcuera (2014)
Distribution of the community of frugivorous birds along a successional gradient in a tropical dry forest in south-western MexicoJournal of Tropical Ecology, 31
-
R. Hale, E. Treml, S. Swearer (2015)
Evaluating the metapopulation consequences of ecological trapsProceedings of the Royal Society B: Biological Sciences, 282
-
J. Gibbs (1991)
Avian nest predation in tropical wet forest: an experimental studyOikos, 60
-
L. Graham, R. Gaulton, J. Staley (2018)
The influence of hedgerow structural condition on wildlife habitat provision in farmed landscapesBiological Conservation, 220
-
W. Laurance (2008)
Theory meets reality: How habitat fragmentation research has transcended island biogeographic theoryBiological Conservation, 141
-
R. Forman, J. Baudry (1984)
Hedgerows and hedgerow networks in landscape ecologyEnvironmental Management, 8
-
Martin Ludwig, Hella Schlinkert, A. Holzschuh, C. Fischer, C. Scherber, A. Trnka, T. Tscharntke, P. Batáry (2012)
Landscape-moderated bird nest predation in hedges and forest edgesActa Oecologica-international Journal of Ecology, 45
-
J. Menezes, M. Marini (2017)
Predators of bird nests in the Neotropics: a reviewJournal of Field Ornithology, 88
-
K. Burnham, David Anderson, K. Huyvaert (2011)
AIC model selection and multimodel inference in behavioral ecology: some background, observations, and comparisonsBehavioral Ecology and Sociobiology, 65
-
J. Reidy (2009)
Nest predators of Lance‐tailed Manakins on Isla Boca Brava, PanamáJournal of Field Ornithology, 80
-
K. Burnham, David Anderson (2003)
Model selection and multimodel inference : a practical information-theoretic approachJournal of Wildlife Management, 67
-
J. Braun-Blanquet, Jo Jo, Oriol Bolós (1979)
Fitosociología: bases para el estudio de las comunidades vegetales -
C Montaña (1980)
10.1093/jof/78.11.699J Forest, 78
-
Corey Shake, C. Moorman, M. Burchell (2011)
Cropland Edge, Forest Succession, and Landscape Affect Shrubland Bird Nest Predation, 75
-
J. Baudry, R. Bunce, F. Burel (2000)
Hedgerows: An international perspective on their origin, function and managementJournal of Environmental Management, 60
-
A. Zeileis, T. Hothorn (2015)
Diagnostic Checking in Regression Relationships -
P. Moreno-Casasola, Krystina Paradowska (2016)
Especies útiles de la selva baja caducifolia en las dunas costeras del centro de VeracruzMadera Y Bosques, 15
-
R. Kentie, C. Both, J. Hooijmeijer, T. Piersma (2015)
Management of modern agricultural landscapes increases nest predation rates in black-tailed godwits Limosa limosaIbis, 157
-
C. Jakovac, M. Peña-Claros, T. Kuyper, F. Bongers (2015)
Loss of secondary‐forest resilience by land‐use intensification in the AmazonJournal of Ecology, 103
-
T. Spanhove, V. Lehouck, L. Lens (2009)
Inverse edge effect on nest predation in a Kenyan forest fragment: an experimental case studyBird Conservation International, 19
-
L. Macchi, Julieta Decarre, Andrea Goijman, Matías Mastrángelo, P. Blendinger, G. Gavier-Pizarro, F. Murray, M. Piquer-Rodríguez, Asunción Semper-Pascual, T. Kuemmerle (2020)
Trade‐offs between biodiversity and agriculture are moving targets in dynamic landscapesJournal of Applied Ecology
-
W. Cox, F. Thompson, J. Faaborg (2012)
Landscape forest cover and edge effects on songbird nest predation vary by nest predatorLandscape Ecology, 27
-
A. Estrada, R. Coates-Estrada (2001)
Bat species richness in live fences and in corridors of residual rain forest vegetation at Los Tuxtlas, MexicoEcography, 24
-
Dominik Schwab, A. Wurz, Ingo Grass, A. Rakotomalala, K. Osen, M. Soazafy, D. Martin, T. Tscharntke (2020)
Decreasing predation rates and shifting predator compositions along a land‐use gradient in Madagascar's vanilla landscapesJournal of Applied Ecology
-
R. Almazán-Núñez, M. Arizmendi, L. Eguiarte, P. Corcuera (2012)
Changes in composition, diversity and structure of woody plants in successional stages of tropical dry forest in southwest MexicoRevista Mexicana De Biodiversidad, 83
-
Iriana Zuria, Iriana Zuria, J. Gates (2012)
Community composition, species richness, and abundance of birds in field margins of central Mexico: local and landscape-scale effectsAgroforestry Systems, 87
-
C. Montaña, E. Ezcurra (1980)
Simple instrument for quick measurement of crown projections.Journal of Forestry, 78
-
(2011)
STATISTICA (data analysis software system), version 10 -
N. Schneider, M. Low, Debora Arlt, T. Pärt (2012)
Contrast in Edge Vegetation Structure Modifies the Predation Risk of Natural Ground Nests in an Agricultural LandscapePLoS ONE, 7
-
M. Quesada, G. Sánchez-Azofeifa, M. Alvarez-Añorve, K. Stoner, L. Avila-Cabadilla, J. Calvo-Alvarado, Alicia Castillo, M. Espírito-Santo, M. Fagundes, G. Fernandes, J. Gamon, M. Lopezaraiza‐Mikel, D. Lawrence, L. Morellato, Jennifer Powers, Frederico Neves, V. Rosas-Guerrero, Roberto Sáyago, G. Sánchez-Montoya (2009)
Succession and management of tropical dry forests in the Americas: review and new perspectives.Forest Ecology and Management, 258
-
P. Batáry, A. Báldi (2004)
Evidence of an Edge Effect on Avian Nest SuccessConservation Biology, 18
-
V. Remeš, Beata Matysioková, A. Cockburn (2012)
Long‐term and large‐scale analyses of nest predation patterns in Australian songbirds and a global comparison of nest predation ratesJournal of Avian Biology, 43
-
P. Balvanera, A. Islas, Efraín Aguirre, Sandra Quijas (2009)
Las selvas secas -
J. Gates, L. Gysel (1978)
Avian Nest Dispersion and Fledging Success in Field‐Forest EcotonesEcology, 59
-
R. Team (2014)
R: A language and environment for statistical computing.MSOR connections, 1
-
Elizabeth Cervantes-Cornihs, I. Zuria, I. Castellanos (2009)
DEPREDACIÓN DE NIDOS ARTIFICIALES EN CERCAS VIVAS DE UN SISTEMA AGRO-URBANO EN HIDALGO, MÉXICOInterciencia, 34
-
W. Laurance (2000)
Do edge effects occur over large spatial scales?Trends in ecology & evolution, 15 4
-
B. Ruiz-Guerra, N. Rosas, J. López-Acosta (2014)
Plant Diversity in Live Fences and Pastures, Two Examples from the Mexican Humid TropicsEnvironmental Management, 54
-
Thor Hanson, W. Newmark, W. Stanley (2007)
Forest fragmentation and predation on artificial nests in the Usambara Mountains, TanzaniaAfrican Journal of Ecology, 45
-
C. Marsden, Ambroise Martin-Chave, J. Cortet, M. Hedde, Y. Capowiez (2019)
How agroforestry systems influence soil fauna and their functions - a reviewPlant and Soil, 453
-
O. Sedláček, M. Mikes, T. Albrecht, J. Reif, D. Hořák (2014)
Evidence for an Edge Effect on Avian Nest Predation in Fragmented Afromontane Forests in the Bamenda-Banso Highlands, NW CameroonTropical Conservation Science, 7
-
Amy Shipley, M. Murphy, A. Elzinga (2013)
Residential Edges as Ecological Traps: Postfledging Survival of a Ground-Nesting Passerine in a Forested Urban Park, 130
-
K. Barton (2009)
MuMIn : multi-model inference, R package version 0.12.0 -
Iriana Zuria, J. Gates (2006)
Vegetated Field Margins in Mexico: Their History, Structure and Function, and ManagementHuman Ecology, 34
-
Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations -
(2019)
ciTools: confidence or prediction intervals, quantiles, and probabilities for statistical models
- Publisher
- Springer Journals
- Copyright
- Copyright © The Author(s), under exclusive licence to Springer Nature B.V. part of Springer Nature 2021
- ISSN
- 0167-4366
- eISSN
- 1572-9680
- DOI
- 10.1007/s10457-021-00603-z
- Publisher site
- See Article on Publisher Site
Abstract
Agricultural expansion has contributed to the loss and fragmentation of natural habitats and, as a consequence, the edge effect in these habitats has increased, leading to nest predation rates higher at the edge of fragments than in the interior. Living fences in abandoned croplands, however, add a structural component to the landscape which can help to mitigate the effects of disturbance. We used artificial nests to assess whether a living fence at the edge of a fragment of tropical dry forest, immersed in an agricultural landscape, can assuage the edge effect by decreasing predation rates. We identified the predators that attacked nests at several distances from the living fence and related the frequency of predator attacks with plant height, leaf height diversity, and tree and herb coverage. Vegetation structure of the living fence was vertically more complex than that found inside the fragment. 52% of nests were predated and we did not find a significant relationship between predation rates and the proximity of nests to the living fence, suggesting a null edge effect on predation. Birds were the most frequent predators, followed by rodents and carnivorous mammals, with the composition of predators varying among transects. The composition of predators and vegetation structure of the living fence were the factors that explained the null edge effect on nests predation. Our results indicate that the presence of a living fence at the edge of a fragment in agroforestry systems could mitigate the edge effects on nest predation.
Journal
Agroforestry Systems – Springer Journals
Published: Feb 23, 2021