Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

DeepDyve requires Javascript to function. Please enable Javascript on your browser to continue.

Arboreal camera trapping: a reliable tool to monitor plant‐frugivore interactions in the trees on large scales

Zhu, Chen; Li, Wande; Gregory, Tremaine; Wang, Duorun; Ren, Peng;

Remote Sensing in Ecology and Conservation , Volume 8 (1) – Feb 1, 2022

Download PDF

Share Full Text for Free

13 pages

Loading next page...

References (79)

Sarina Thiel, M. Tschapka, E. Heymann, K. Heer (2020)
Vertical stratification of seed‐dispersing vertebrate communities and their interactions with plants in tropical forests
Biological Reviews, 96
Jinliang Liu, T. Matthews, Lei Zhong, Jiajia Liu, Donghao Wu, Mingjian Yu (2019)
Environmental filtering underpins the island species—area relationship in a subtropical anthropogenic archipelago
Journal of Ecology, 108
S. Menke, K. Böhning‐Gaese, M. Schleuning (2012)
Plant-frugivore networks are less specialized and more robust at forest-farmland edges than in the interior of a tropical forest
Oikos, 121
(2002)
Closing the seed dispersal
M. Schleuning, N. Blüthgen, Martin Flörchinger, Julius Braun, H. Schaefer, K. Böhning‐Gaese (2011)
Specialization and interaction strength in a tropical plant-frugivore network differ among forest strata.
Ecology, 92 1
Amico G. (2000)
929
Nature, 408
(2019)
vegan: Community Ecology Package
F. Palacio, M. Ordano (2018)
The Strength and Drivers of Bird-Mediated Selection on Fruit Crop Size: A Meta-Analysis
Frontiers in Ecology and Evolution, 6
P. Jayasekara, U. Weerasinghe, S. Takatsuki, S. Lanka. (2007)
IDENTIFYING DIURNAL AND NOCTURNAL FRUGIVORES IN THE TERRESTRIAL AND ARBOREAL LAYERS OF A TROPICAL RAIN FOREST IN SRI LANKA
(2021)
The Authors. Remote Sensing in Ecology and Conservation
A. Burton, E. Neilson, Darío Moreira, A. Ladle, Robin Steenweg, J. Fisher, E. Bayne, S. Boutin (2015)
REVIEW: Wildlife camera trapping: a review and recommendations for linking surveys to ecological processes
Journal of Applied Ecology, 52
M. Bowler, M. Tobler, B. Endress, M. Gilmore, Matthew Anderson (2017)
Estimating mammalian species richness and occupancy in tropical forest canopies with arboreal camera traps
Remote Sensing in Ecology and Conservation, 3
A. O'connell, J. Nichols, Ke. Kāranta (2011)
Camera traps in animal ecology : methods and analyses
M. Laughlin, E. Olson, Jonathan Martin (2017)
Arboreal camera trapping expands Hyla versicolor complex (Hylidae) canopy use to new heights.
Ecology, 98 8
Robin Steenweg, M. Hebblewhite, R. Kays, J. Ahumada, J. Fisher, Cole Burton, Cole Burton, S. Townsend, C. Carbone, J. Rowcliffe, J. Whittington, J. Brodie, J. Royle, T. Switalski, A. Clevenger, N. Heim, L. Rich (2017)
Scaling-up camera traps: monitoring the planet's biodiversity with networks of remote sensors
Frontiers in Ecology and the Environment, 15
T. O'Brien, M. Kinnaird, H. Wibisono (2003)
Crouching tigers, hidden prey: Sumatran tiger and prey populations in a tropical forest landscape
Animal Conservation, 6
B. Snow, D. Snow (1990)
Birds and berries : a study of an ecological interaction
J. Rivas-Romero, Jose Soto-Shoender (2015)
Filling in the Gaps: Evaluating the Use of Camera Traps in the Canopy to Examine Frugivore Visits to Oreopanax echinops in the Highlands of Guatemala
The Southwestern Naturalist, 60
Anders Nielsen, J. Bascompte (2007)
Ecological networks, nestedness and sampling effort
Journal of Ecology, 95
Tremaine Gregory, Farah Rueda, J. Deichmann, J. Kolowski, A. Alonso (2014)
Arboreal camera trapping: taking a proven method to new heights
Methods in Ecology and Evolution, 5
D. Anderson, Will Koomjian, B. French, Scott Altenhoff, J. Luce (2015)
Review of rope‐based access methods for the forest canopy: safe and unsafe practices in published information sources and a summary of current methods
Methods in Ecology and Evolution, 6
G. Amico, M. Aizen (2000)
Ecology: Mistletoe seed dispersal by a marsupial
Nature, 408
M. Kéry, J. Royle (2015)
Applied Hierarchical Modeling in Ecology: Analysis of Distribution, Abundance and Species Richness in R and BUGS
J. González‐Varo, J. Arroyo, P. Jordano (2014)
Who dispersed the seeds? The use of DNA barcoding in frugivory and seed dispersal studies
Methods in Ecology and Evolution, 5
R. Kays, B. Arbogast, Megan Baker‐Whatton, C. Beirne, Hailey Boone, M. Bowler, Santiago Burneo, M. Cove, P. Ding, S. Espinosa, André Gonçalves, Christopher Hansen, P. Jansen, J. Kolowski, Travis Knowles, M. Lima, J. Millspaugh, W. McShea, K. Pacifici, A. Parsons, B. Pease, F. Rovero, Fernanda Santos, Stephanie Schuttler, D. Sheil, Xingfeng Si, M. Snider, W. Spironello (2020)
An empirical evaluation of camera trap study design: How many, how long and when?
Methods in Ecology and Evolution, 11
H. Yousif, Jianhe Yuan, R. Kays, Zhihai He (2019)
Animal Scanner: Software for classifying humans, animals, and empty frames in camera trap images
Ecology and Evolution, 9
J. Rowcliffe, R. Kays, B. Kranstauber, C. Carbone, P. Jansen (2014)
Quantifying levels of animal activity using camera trap data
Methods in Ecology and Evolution, 5
Juan Acevedo-Quintero, J. Zamora-Abrego, D. García (2020)
From structure to function in mutualistic interaction networks: topologically important frugivores have greater potential as seed dispersers.
The Journal of animal ecology
P. Jordano (2015)
Sampling networks of ecological interactions
bioRxiv
N. Cordeiro, H. Howe (2003)
Forest fragmentation severs mutualism between seed dispersers and an endemic African tree
Proceedings of the National Academy of Sciences of the United States of America, 100
A. Chao (1984)
Nonparametric estimation of the number of classes in a population
Scandinavian Journal of Statistics, 11
(2014)
Mutualistic networks. NJ
Anderson D.L. (2015)
865
Methods in Ecology and Evolution, 6
M. Laughlin, Jonathan Martin, E. Olson (2020)
Arboreal Camera Trapping Reveals Seasonal Behaviors of Peromyscus spp. in Pinus strobus Canopies
The American Midland Naturalist, 183
Tremaine Gregory, D. Lunde, Hugo Zamora-Meza, Farah Carrasco‐Rueda (2015)
Records of Coendou ichillus (Rodentia, Erethizontidae) from the Lower Urubamba Region of Peru
ZooKeys
C. Ortmann, S. Johnson (2020)
How reliable are motion‐triggered camera traps for detecting small mammals and birds in ecological studies?
Journal of Zoology
P. Hsing, Steven Bradley, Vivien Kent, R. Hill, Graham Smith, M. Whittingham, Jim Cokill, Derek Crawley, P. Stephens (2018)
Economical crowdsourcing for camera trap image classification
Remote Sensing in Ecology and Conservation, 4
Acevedo‐Quintero J.F. (2020)
2181
Journal of Animal Ecology, 89
M. Schleuning, K. Böhning‐Gaese, D. Dehling, K. Burns (2014)
At a loss for birds: insularity increases asymmetry in seed-dispersal networks.
Global Ecology and Biogeography, 23
G. Amico, M.A. Aizen (2000)
Mistletoe seed dispersal by a marsupial
, 408
D. MacKenzie (2005)
Occupancy Estimation and Modeling: Inferring Patterns and Dynamics of Species Occurrence
Jeferson Vizentin‐Bugoni, Jeferson Vizentin‐Bugoni, C. Tarwater, J. Foster, D. Drake, Jason Gleditsch, Amy Hruska, J. Kelley, J. Sperry, J. Sperry (2019)
Structure, spatial dynamics, and stability of novel seed dispersal mutualistic networks in Hawaiʻi
Science, 364
A. Nakamura, R. Kitching, M. Cao, Thomas Creedy, Thomas Creedy, T. Fayle, T. Fayle, Martin Freiberg, C. Hewitt, T. Itioka, L. Koh, K. Ma, Y. Malhi, Alan Mitchell, V. Novotný, C. Ozanne, L. Song, Han Wang, L. Ashton (2017)
Forests and Their Canopies: Achievements and Horizons in Canopy Science.
Trends in ecology & evolution, 32 6
A. Chao, Robert Colwell, Chih-Wei Lin, N. Gotelli (2009)
Sufficient sampling for asymptotic minimum species richness estimators.
Ecology, 90 4
Henry Howe, J. Smallwood (1982)
Ecology of Seed Dispersal
Annual Review of Ecology, Evolution, and Systematics, 13
A. O'connell, J. Nichols, K. Karanth (2011)
Camera Traps in Animal Ecology
(2013)
Estimates: statistical estimation of species richness and shared species from samples. Version 9
R. Kays, A. Allison (2001)
Arboreal tropical forest vertebrates: current knowledge and research trends
Plant Ecology, 153
M. Willi, Ross Pitman, Anabelle Cardoso, Christina Locke, A. Swanson, Amy Boyer, Marten Veldthuis, L. Fortson (2018)
Identifying animal species in camera trap images using deep learning and citizen science
Methods in Ecology and Evolution, 10
(2014)
Mutualistic networks
M. Kéry, J.A. Royle (2016)
Applied hierarchical modeling in ecology: analysis of distribution, abundance and species richness in R and BUGS. Volume 1: Prelude and Static Models
M. Tobler, S. Carrillo-Percastegui, R. Pitman, R. Mares, G. Powell (2008)
An evaluation of camera traps for inventorying large‐ and medium‐sized terrestrial rainforest mammals
Animal Conservation, 11
Albrecht J. (2013)
990
Journal of Ecology, 101
Joanna Carpenter, D. Kelly, E. Moltchanova, C. O'donnell (2018)
Introduction of mammalian seed predators and the loss of an endemic flightless bird impair seed dispersal of the New Zealand tree Elaeocarpus dentatus
Ecology and Evolution, 8
T. O'Brien, M. Kinnaird (2011)
Estimation of Species Richness of Large Vertebrates Using Camera Traps: An Example from an Indonesian Rainforest
Di Zeng, Tinghao Jin, Yuhao Zhao, Chuan Yan, Zhibin Zhang, P. Ding (2020)
Rodent abundance triggered switch between the relative mutualism and predation in a rodent-seed system of the subtropical island forest.
Integrative zoology, 16 1
M. Tobler, S. Carrillo-Percastegui, R. Pitman, R. Mareš, G. Powell (2008)
Further notes on the analysis of mammal inventory data collected with camera traps
Animal Conservation, 11
Wangworn Sankamethawee, A. Pierce, G. Gale, B. Hardesty (2011)
Plant-frugivore interactions in an intact tropical forest in north-east Thailand.
Integrative zoology, 6 3
Xingfeng Si, R. Kays, P. Ding (2014)
How long is enough to detect terrestrial animals? Estimating the minimum trapping effort on camera traps
PeerJ, 2
L. Silveira, A. Jácomo, J. Diniz‐Filho (2003)
Camera trap, line transect census and track surveys: a comparative evaluation
Biological Conservation, 114
E. Olson, R. Marsh, Brittany Bovard, H. Randrianarimanana, Maholy Ravaloharimanitra, J. Ratsimbazafy, T. King (2012)
Arboreal camera trapping for the Critically Endangered greater bamboo lemur Prolemur simus
Oryx, 46
Supparat Tongkok, Xuelian He, Mark Alcantara, Chanpen Saralamba, Anuttara Nathalang, Wirong Chanthorn, W. Brockelman, Luxiang Lin (2020)
Composition of frugivores of Baccaurea ramiflora (Phyllanthaceae) and effects of environmental factors on frugivory in two tropical forests of China and Thailand
Global Ecology and Conservation, 23
S. Timóteo, Marta Correia, S. Rodríguez‐Echeverría, H. Freitas, R. Heleno (2018)
Multilayer networks reveal the spatial structure of seed-dispersal interactions across the Great Rift landscapes
Nature Communications, 9
Benjamin Wang, T. Smith (2002)
Closing the seed dispersal loop
Trends in Ecology and Evolution, 17
Di Zeng, R. Swihart, Yuhao Zhao, Xingfeng Si, P. Ding (2019)
Cascading effects of forested area and isolation on seed dispersal effectiveness of rodents on subtropical islands
Journal of Ecology, 107
A. Whitworth, L. Braunholtz, Ruthmery Huarcaya, R. Macleod, C. Beirne (2016)
Out on a Limb: Arboreal Camera Traps as an Emerging Methodology for Inventorying Elusive Rainforest Mammals
Tropical Conservation Science, 9
T. Ganesh, M. Devy (2006)
Interactions between non-flying mammals and flowers of Cullenia exarillata Robyns (Bombacaceae), a canopy tree from the wet forests of Western Ghats, India
Current Science, 90
Benno Simmons, W. Sutherland, L. Dicks, Jörg Albrecht, N. Farwig, D. García, P. Jordano, J. González‐Varo (2018)
Moving from frugivory to seed dispersal: Incorporating the functional outcomes of interactions in plant–frugivore networks
The Journal of Animal Ecology, 87
Xingfeng Si, S. Pimm, G. Russell, P. Ding (2014)
Turnover of breeding bird communities on islands in an inundated lake
Journal of Biogeography, 41
Jörg Albrecht, D. Berens, N. Blüthgen, B. Jaroszewicz, N. Selva, N. Farwig (2013)
Logging and forest edges reduce redundancy in plant–frugivore networks in an old‐growth European forest
Journal of Ecology, 101
K. Karanth, J. Nichols (1998)
ESTIMATION OF TIGER DENSITIES IN INDIA USING PHOTOGRAPHIC CAPTURES AND RECAPTURES
Ecology, 79
T. Cutler (1999)
Using remote photography in wildlife ecology : a review
Wildlife Society Bulletin, 27
Chen Zhu, Wande Li, Duorun Wang, P. Ding, Xingfeng Si (2021)
Plant–frugivore interactions revealed by arboreal camera trapping
Frontiers in Ecology and the Environment, 19
M. Norouzzadeh, Anh Nguyen, M. Kosmala, A. Swanson, M. Palmer, C. Packer, J. Clune (2017)
Automatically identifying, counting, and describing wild animals in camera-trap images with deep learning
Proceedings of the National Academy of Sciences of the United States of America, 115
Hai‐Dong Li, Linfang Tang, C. Jia, M. Holyoak, Jochen Fründ, Xiaoqun Huang, Zhishu Xiao (2020)
The functional roles of species in metacommunities, as revealed by metanetwork analyses of bird-plant frugivory networks.
Ecology letters
B. Walther, Joslin Moore (2005)
The concepts of bias, precision and accuracy, and their use in testing the performance of species richness estimators, with a literature review of estimator performance
Ecography, 28
(2013)
Estimates: statistical estimation of species richness and shared species from samples. Version 9. User’s Guide and application published at: http://purl.oclc.org/ estimates
J. Moore, W. Pine, F. Mulindahabi, P. Niyigaba, G. Gatorano, M. Masozera, L. Beaudrot (2020)
Comparison of species richness and detection between line transects, ground camera traps, and arboreal camera traps
Animal Conservation, 23
R. Corlett (2017)
Frugivory and seed dispersal by vertebrates in tropical and subtropical Asia: An update
Global Ecology and Conservation, 11

Publisher: Wiley
Copyright: © 2022 Published by John Wiley & Sons Ltd.
ISSN: 2056-3485
eISSN: 2056-3485
DOI: 10.1002/rse2.232
Publisher site: See Article on Publisher Site

There are no references for this article.

Sign up for your 14-Day Free Trial Now!

Read and print from thousands of top scholarly journals.

System error. Please try again!

or

Continue with Facebook

Log in with Microsoft

By signing up, you agree to DeepDyve’s Terms of Service and Privacy Policy.

Already have an account? Log in

Cite

Copy and paste the desired citation format or use the link below to download a file formatted for EndNote

APA
Zhu, C., Li, W., Gregory, T., Wang, D., Ren, P., Zeng, D., Kang, Y., Ding, P., Si, X., Rowcliffe, M., & De Angelo, C. (2022). Arboreal camera trapping: a reliable tool to monitor plant‐frugivore interactions in the trees on large scales. Remote Sensing in Ecology and Conservation, 8(1), 92-104.
MLA
Zhu, Chen, Wande Li, Tremaine Gregory, Duorun Wang, Peng Ren, Di Zeng, Yi Kang, Ping Ding, Xingfeng Si, Marcus Rowcliffe, and Carlos De Angelo. "Arboreal camera trapping: a reliable tool to monitor plant‐frugivore interactions in the trees on large scales." Remote Sensing in Ecology and Conservation 8.1 (2022): 92-104.

Reference Managers
Export to EndNote
Export in RIS Format

Our policy towards the use of cookies

All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.

cookie policy