Articles citing this paper
Effect of sample age and season of collection on the reliability of microsatellite genotyping of faecal DNA
Maxine P. Piggott A
+ Author Affiliations
- Author Affiliations
A School of Biological Sciences, Monash University, Vic. 3800, Australia. Email: Maxine.Piggott@sci.monash.edu.au
Wildlife Research 31(6) 485-493 https://doi.org/10.1071/WR03096
Submitted: 10 October 2003 Accepted: 3 August 2004 Published: 13 December 2004
127 articles found in Crossref database.
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Soulliere Colleen E.,
Mahoney Shane P., Waits Lisette P.
Molecular Ecology Resources. 2014 14(1). p.100
Genetic diversity of the genus Vulpes (Red fox and Fennec fox) in Tunisia based on mitochondrial DNA and noninvasive DNA sampling
Karssene Yamna,
Nowak Carsten,
Chammem Mohsen,
Cocchiararo Berardino, Nouira Said
Mammalian Biology. 2019 96 p.118
Allelic dropout from a high-quality DNA source
Soulsbury Carl D.,
Iossa Graziella,
Edwards Keith J.,
Baker Philip J., Harris Stephen
Conservation Genetics. 2007 8(3). p.733
Degradation and detection of fox (Vulpes vulpes) scats in Tasmania: evidence from field trials
Brown W. E.,
Ramsey D. S. L., Gaffney R.
Wildlife Research. 2014 41(8). p.681
Scats can reveal the presence and habitat use of cryptic rock-dwelling macropods
Telfer Wendy R.,
Griffiths Anthony D., Bowman David M. J. S.
Australian Journal of Zoology. 2006 54(5). p.325
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PIGGOTT M. P.,
BANKS S. C.,
STONE N.,
BANFFY C., TAYLOR A. C.
Molecular Ecology. 2006 15(1). p.81
A new DNA extraction method (HV-CTAB-PCI) for amplification of nuclear markers from open ocean-retrieved faeces of an herbivorous marine mammal, the dugong
Ooi Vicky,
McMichael Lee,
Hunter Margaret E.,
Takoukam Kamla Aristide,
Lanyon Janet M., Santos Ricardo
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Journal of Wildlife Management. 2005 69(4). p.1419
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DeMay Stephanie M.,
Becker Penny A.,
Eidson Chad A.,
Rachlow Janet L.,
Johnson Timothy R., Waits Lisette P.
Molecular Ecology Resources. 2013 13(4). p.654
Evaluation of fecal DNA preservation techniques and effects of sample age and diet on genotyping success
Panasci Michael,
Ballard Warren B.,
Breck Stewart,
Rodriguez David,
Densmore Llewellyn D.,
Wester David B., Baker Robert J.
The Journal of Wildlife Management. 2011 75(7). p.1616
The influence of evolutionary distance between cross-species microsatellites and primer base-pair composition on allelic dropout rates
Soulsbury Carl D.,
Iossa Graziella, Edwards Keith J.
Conservation Genetics. 2009 10(3). p.797
Evaluation of noninvasive genetic methods for Nubian ibex
Goodman Idan,
Shahar Naama,
Bar-Gal Gila Kahila,
Saltz David, Bar-David Shirli
Conservation Genetics Resources. 2017 9(2). p.181
Non-invasive monitoring and reintroduction biology of the brush-tailed rock-wallaby (
Kleemann S.,
Sandow D.,
Stevens M.,
Schultz D. J.,
Taggart D. A.,
Croxford A., Deakin Janine
Australian Journal of Zoology. 2022 69(2). p.41
Species-specific SNP arrays for non-invasive genetic monitoring of a vulnerable bat
Thavornkanlapachai Rujiporn,
Armstrong Kyle N.,
Knuckey Chris,
Huntley Bart,
Hanrahan Nicola, Ottewell Kym
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wisepair: a computer program for individual matching in genetic tracking studies
Rothstein Andrew P.,
McLaughlin Ryan,
Acevedo‐Gutiérrez Alejandro, Schwarz Dietmar
Molecular Ecology Resources. 2017 17(2). p.267
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ADAMS JENNIFER R.,
LUCASH CHRIS,
SCHUTTE LESLIE, WAITS LISETTE P.
Molecular Ecology. 2007 16(9). p.1823
Low genetic diversity in an isolated red fox (Vulpes vulpes) population on Mt. Hakodate, Japan, revealed by microsatellite analyses of fecal samples
Amaike Yosuke,
Murakami Takahiro, Masuda Ryuichi
Mammal Study. 2018 43(3). p.141
Distribution, fine-scale subdivision, and population size of San Joaquin kit foxes in the Ciervo-Panoche Natural Area, California
Wilbert Tammy R.,
Woollett Deborah A. Smith,
Westphal Michael F.,
Whitelaw Alice,
Ralls Katherine, Maldonado Jesús E.
Conservation Genetics. 2019 20(3). p.405
DNA mini‐barcoding of leporids using noninvasive fecal DNA samples and its significance for monitoring an invasive species
Rodrigues Nayra T.,
Saranholi Bruno H.,
Angeloni Thais A.,
Pasqualotto Nielson,
Chiarello Adriano G., Galetti Jr Pedro M.
Ecology and Evolution. 2020 10(12). p.5219
Identifying individual ungulates from fecal DNA: a comparison of field collection methods to maximize efficiency, ease, and success
Bach Bryan H.,
Quigley Ashling B.,
Gaynor Kaitlyn M.,
McInturff Alex,
Charles Kristin L.,
Dorcy Janelle, Brashares Justin S.
Mammalian Biology. 2022 102(3). p.863
Is Non-invasive Genetic Population Estimation via Faeces Sampling Feasible for Abundant Mammals with Low Defecation Rates? A Pilot Study on Free Ranging Wild Boar (Sus scrofa)in South-West Germany
Ebert Cornelia,
Kolodziej Karolina,
Schikora Tim Frederic,
Schulz Holger K., Hohmann Ulf
Acta Silvatica et Lignaria Hungarica. 2009 5(1). p.167
Identification of robust microsatellite markers for wild pig fecal DNA
Kierepka Elizabeth M.,
Unger Shem D.,
Keiter David A.,
Beasley James C.,
Rhodes Olin E.,
Cunningham Fred L., Piaggio Antoinette J.
The Journal of Wildlife Management. 2016 80(6). p.1120
Pine marten (Martes martes) abundance in an insular mountainous region using non-invasive techniques
O’Mahony Declan T.,
Turner Peter, O’Reilly Catherine
European Journal of Wildlife Research. 2015 61(1). p.103
Sex Determination of Sika Deer (Cervus nippon yesoensis) Using Nested PCR from Feces Collected in the Field
YAMAZAKI Shoki,
MOTOI Yuta,
NAGAI Kazuya,
ISHINAZAKA Tsuyoshi,
ASANO Makoto, SUZUKI Masatsugu
Journal of Veterinary Medical Science. 2011 73(12). p.1611
The estimation of grizzly bear density through hair‐snagging techniques above the tree line
Dumond Mathieu,
Boulanger John, Paetkau David
Wildlife Society Bulletin. 2015 39(2). p.390
Use of fecal DNA to estimate black bear density in an urban‐wildland interface
Owen‐Ramos Julia D.,
Sanchez Camilo J.,
Blair Shelly,
Holm Sara,
Furnas Brett J., Sacks Benjamin N.
Wildlife Society Bulletin. 2022 46(4).
Effects of time and rainfall on PCR success using DNA extracted from deer fecal pellets
Brinkman Todd J.,
Schwartz Michael K.,
Person David K.,
Pilgrim Kristine L., Hundertmark Kris J.
Conservation Genetics. 2010 11(4). p.1547
Comparison of methods to detect rare and cryptic species: a case study using the red fox (Vulpes vulpes)
Vine S. J.,
Crowther M. S.,
Lapidge S. J.,
Dickman C. R.,
Mooney N.,
Piggott M. P., English A. W.
Wildlife Research. 2009 36(5). p.436
DNA based method for determining source country of the short beaked echidna (Tachyglossus aculeatus) in the illegal wildlife trade
Summerell A.E.,
Frankham G.J.,
Gunn P., Johnson R.N.
Forensic Science International. 2019 295 p.46
Genetic sampling for estimating density of common species
Cheng Ellen,
Hodges Karen E.,
Sollmann Rahel, Mills L. Scott
Ecology and Evolution. 2017 7(16). p.6210
Environmental DNA from Residual Saliva for Efficient Noninvasive Genetic Monitoring of Brown Bears (Ursus arctos)
Wheat Rachel E.,
Allen Jennifer M.,
Miller Sophie D. L.,
Wilmers Christopher C.,
Levi Taal, Janke Axel
PLOS ONE. 2016 11(11). p.e0165259
Effects of different environmental and sampling variables on the genotyping success in field-collected scat samples: a brown bear case study
Skrbinšek Tomaž
Acta Biologica Slovenica. 2020 63(2). p.89
Feasibility and Recommendations for Swift Fox Fecal DNA Profiling
CULLINGHAM CATHERINE I.,
CURTEANU MEDEA,
BALL MARK C., MANSEAU MICHELINE
The Journal of Wildlife Management. 2010 74(4). p.849
The First Report on the Ecology and Distribution of the Wolf Population in Cilento, Vallo di Diano and Alburni National Park
Buglione M.,
Troisi S. R.,
Petrelli S.,
van Vugt M.,
Notomista T.,
Troiano C.,
Bellomo A.,
Maselli V.,
Gregorio R., Fulgione D.
Biology Bulletin. 2020 47(6). p.640
DNA Analysis Using Noninvasive Samples: Methods of Sample Collection, DNA Extraction, PCR Amplification and Kinship Analysis
INOUE Eiji
Primate Research. 2015 31(1). p.3
Functional connectivity in northern swamp deer (Rucervus duvaucelii duvaucelii) population across a fragmented, human-dominated landscape along Gangetic Plains of north India: implications for conservation in non-protected areas
Paul Shrutarshi,
Saha Sohini,
Nigam Parag,
Pandey Garima,
Habib Bilal,
Mohan Dhananjai,
Pandav Bivash, Mondol Samrat
Conservation Genetics. 2024 25(1). p.17
Effects of time and environmental conditions on the quality of DNA extracted from fecal samples for genotyping of wild deer in a warm temperate broad-leaved forest
Agetsuma-Yanagihara Yoshimi,
Inoue Eiji, Agetsuma Naoki
Mammal Research. 2017 62(2). p.201
DNA from scats combined with capture–recapture modeling: a promising tool for estimating the density of red foxes—a pilot study in a boreal forest in southeast Norway
Wegge Per,
Bakke Beate Banken,
Odden Morten, Rolstad Jørund
Mammal Research. 2019 64(1). p.147
Using patterns in prey DNA digestion rates to quantify predator diets
Uiterwaal Stella F., DeLong John P.
Molecular Ecology Resources. 2020 20(6). p.1723
Noninvasive individual and species identification of jaguars (Panthera onca), pumas (Puma concolor) and ocelots (Leopardus pardalis) in Belize, Central America using cross‐species microsatellites and faecal DNA
Wultsch Claudia,
Waits Lisette P., Kelly Marcella J.
Molecular Ecology Resources. 2014 14(6). p.1171
Population structure of brush‐tailed rock‐wallaby (Petrogale penicillata) colonies inferred from analysis of faecal DNA
PIGGOTT M. P.,
BANKS S. C., TAYLOR A. C.
Molecular Ecology. 2006 15(1). p.93
Genetic identification of Iberian rodent species using both mitochondrial and nuclear loci: application to noninvasive sampling
Barbosa S.,
Pauperio J.,
Searle J. B., Alves P. C.
Molecular Ecology Resources. 2013 13(1). p.43
A framework for estimating the sensitivity of eDNA surveys
Furlan Elise M.,
Gleeson Dianne,
Hardy Christopher M., Duncan Richard P.
Molecular Ecology Resources. 2016 16(3). p.641
Protocol for DNA extraction of Cryptosporidium spp. oocysts in fecal samples
Gonçalves Elenice M.N.,
Araújo Ronalda S.,
Orban Magali,
Matté Glavur R.,
Matté Maria Helena, Corbett Carlos E.P.
Revista do Instituto de Medicina Tropical de São Paulo. 2008 50(3). p.165
Estimating cougar densities in northeast Oregon using conservation detection dogs
Davidson Gregory A.,
Clark Darren A.,
Johnson Bruce K.,
Waits Lisette P., Adams Jennifer R.
The Journal of Wildlife Management. 2014 78(6). p.1104
Rapid species identification of Sonoran pronghorn from fecal pellet DNA
Woodruff Susannah P.,
Adams Jennifer R.,
Johnson Timothy R., Waits Lisette P.
Wildlife Society Bulletin. 2014 38(4). p.842
Patterns of paternity and group fission in wild multimale mountain gorilla groups
Nsubuga Anthony M.,
Robbins Martha M.,
Boesch Christophe, Vigilant Linda
American Journal of Physical Anthropology. 2008 135(3). p.263
Tree Kangaroos (2021)
Balancing sample accumulation and DNA degradation rates to optimize noninvasive genetic sampling of sympatric carnivores
Lonsinger Robert C.,
Gese Eric M.,
Dempsey Steven J.,
Kluever Bryan M.,
Johnson Timothy R., Waits Lisette P.
Molecular Ecology Resources. 2015 15(4). p.831
Genetic assessment of captive red panda (Ailurus fulgens) population
Kumar Arun,
Rai Upashna,
Roka Bhupen,
Jha Alankar K., Reddy P. Anuradha
SpringerPlus. 2016 5(1).
Optimizing methods for PCR‐based analysis of predation
SINT DANIELA,
RASO LORNA,
KAUFMANN RÜDIGER, TRAUGOTT MICHAEL
Molecular Ecology Resources. 2011 11(5). p.795
Non-invasive genetic sampling of sympatric marten species (Martes martes and Martes foina): assessing species and individual identification success rates on faecal DNA genotyping
Ruiz-González Aritz,
Madeira María José,
Randi Ettore,
Urra Fermin, Gómez-Moliner Benjamín J.
European Journal of Wildlife Research. 2013 59(3). p.371
The impact of time and field conditions on brown bear (Ursus arctos) faecal DNA amplification
Murphy Melanie A.,
Kendall Katherine C.,
Robinson Andrew, Waits Lisette P.
Conservation Genetics. 2007 8(5). p.1219
Reliable genotyping of the koala (Phascolarctos cinereus) using DNA isolated from a single faecal pellet
Wedrowicz Faye,
Karsa Mawar,
Mosse Jennifer, Hogan Fiona E.
Molecular Ecology Resources. 2013 13(4). p.634
Noninvasive alternatives for DNA collection from threatened rodents
Green Michelle L.,
Ting Tih-Fen,
Manjerovic Mary Beth, Mateus-Pinilla Nohra
Natural Science. 2013 05(05). p.18
Evaluating exotic predator control programs using non-invasive genetic tagging
Piggott Maxine P.,
Wilson Rebecca,
Banks Sam C.,
Marks Clive A.,
Gigliotti Frank, Taylor Andrea C.
Wildlife Research. 2008 35(7). p.617
Noninvasive recovery and detection of possum Trichosurus vulpecula DNA from bitten bait interference devices (WaxTags)
VARGAS M. L.,
CRUICKSHANK R. H.,
ROSS J. G.,
HOLYOAKE A. J.,
OGILVIE S. C., PATERSON A. M.
Molecular Ecology Resources. 2009 9(2). p.505
Scat DNA as a non-invasive method for estimating the abundance of the vulnerable mala (Lagorchestes hirsutus)
Treloar Shannon,
Lohr Cheryl,
Hopkins Anna J. M.,
Ottewell Kym,
McArthur Shelley,
Davis Robert A., Robinson Natasha
Wildlife Research. 2023 51(1).
Novel microsatellites and investigation of faecal DNA as a non-invasive population monitoring tool for the banded hare-wallaby (
Cowen Saul,
Smith Michael,
McArthur Shelley,
Rayner Kelly,
Jackson Chantelle,
Anderson Georgina,
Ottewell Kym, Deakin Janine
Australian Journal of Zoology. 2022 69(2). p.55
Non-invasive genetic sampling is one of our most powerful and ethical tools for threatened species population monitoring: a reply to Lavery et al.
Banks Sam C., Piggott Maxine P.
Biodiversity and Conservation. 2022 31(2). p.723
Breaking down scats: degradation of DNA from greater bilby (Macrotis lagotis) faecal pellets
Carpenter Fiona M., Dziminski Martin A.
Australian Mammalogy. 2017 39(2). p.197
Population monitoring of small and declining brush-tailed rock wallaby (Petrogale penicillata) colonies at the extreme of their range using faecal DNA sampling
Piggott Maxine P.,
Hansen Birgita,
Soderquist Todd,
Eldridge Mark D. B., Taylor Andrea C.
Australian Mammalogy. 2018 40(1). p.58
Evaluating predator control using two non-invasive population metrics: a camera trap activity index and density estimation from scat genotyping
Keem Jessica L.,
Hradsky Bronwyn A.,
Benshemesh Joe,
Le Pla Mark,
Watkins Abigail,
Weeks Andrew R.,
van Rooyen Anthony,
Black John,
Southwell Darren, Prowse Thomas
Wildlife Research. 2023 51(1).
Evidence that the Tibetan fox is an obligate predator of the plateau pika: conservation implications
Harris Richard B.,
Jiake Zhou,
Yinqiu Ji,
Kai Zhang,
Chunyan Yang, Yu Douglas W.
Journal of Mammalogy. 2014 95(6). p.1207
Effects of Exposure on Genotyping Success Rates of Hair Samples from Brown and American Black Bears
Stetz Jeff B.,
Seitz Tucker, Sawaya Michael A.
Journal of Fish and Wildlife Management. 2015 6(1). p.191
Efficacy and precision of fecal genotyping to estimate coyote abundance
Gulsby William D.,
Killmaster Charlie H.,
Bowers John W.,
Laufenberg Jared S.,
Sacks Benjamin N.,
Statham Mark J., Miller Karl V.
Wildlife Society Bulletin. 2016 40(4). p.792
Optimizing the use of shed feathers for genetic analysis
HOGAN FIONA E.,
COOKE RAYLENE,
BURRIDGE CHRISTOPHER P., NORMAN JANETTE A.
Molecular Ecology Resources. 2008 8(3). p.561
Evaluating the interaction of faecal pellet deposition rates and DNA degradation rates to optimize sampling design for DNA‐based mark–recapture analysis of Sonoran pronghorn
Woodruff S. P.,
Johnson T. R., Waits L. P.
Molecular Ecology Resources. 2015 15(4). p.843
Timing Moose Pellet Collections to Increase Genotyping Success of Fecal DNA
Rea Roy V.,
Johnson Chris J.,
Murray Brent W.,
Hodder Dexter P., Crowley Shannon M.
Journal of Fish and Wildlife Management. 2016 7(2). p.461
The dispersion and detection patterns of mtDNA‐assigned red fox Vulpes vulpes scats in Tasmania are anomalous
Marks Clive A,
Obendorf David,
Pereira Filipe,
Edwards Ivo,
Hall Graham P, Lukacs Paul
Journal of Applied Ecology. 2014 51(4). p.1033
Optimizing collection methods for noninvasive genetic sampling of neotropical felids
Wultsch Claudia,
Waits Lisette P.,
Hallerman Eric M., Kelly Marcella J.
Wildlife Society Bulletin. 2015 39(2). p.403
Managing outbreaks of the citrus long‐horned beetle Anoplophora chinensis (Forster) in Europe: molecular diagnosis of plant infestation
Strangi Agostino,
Sabbatini Peverieri Giuseppino, Roversi Pio Federico
Pest Management Science. 2013 69(5). p.627
Evaluation of fecal DNA preservation and extraction methods in Przewalski’s horse
Liu Gang,
Zang Sen,
Li Linhai,
Hu Xiaolong,
Zhao Shasha,
Li Kai, Hu Defu
Conservation Genetics Resources. 2014 6(3). p.511
Genetic sampling and an activity index indicate contrasting outcomes of lethal control for an invasive predator
Le Pla Mark N.,
Birnbaum Emma K.,
Rees Matthew W.,
Hradsky Bronwyn A.,
Weeks Andrew R.,
Van Rooyen Anthony, Pascoe Jack H.
Austral Ecology. 2022 47(5). p.1062
Comparing telemetry and fecal dna sampling methods to quantify survival and dispersal of juvenile pygmy rabbits
Demay Stephanie M.,
Rachlow Janet L.,
Waits Lisette P., Becker Penny A.
Wildlife Society Bulletin. 2015 39(2). p.413
Impacts of sampling location within a faeces on DNA quality in two carnivore species
STENGLEIN J. L.,
DE BARBA M.,
AUSBAND D. E., WAITS L. P.
Molecular Ecology Resources. 2010 10(1). p.109
An Effective Microsatellite Marker Panel for Noninvasive Samples in Tibetan Macaques (Macaca thibetana)
Liu Hua,
Luo Jinxia,
Hou Wei,
Pan Xuan,
Cai Yansen, Li Jing
International Journal of Primatology. 2023 44(2). p.399
Genetic integrity and individual identification-based population size estimate of the endangered long-tailed goral, Naemorhedus caudatus from Seoraksan National Park in South Korea, based on a non-invasive genetic approach
Jang Ji Eun,
Kim Nam Hyeong,
Lim Sangjin,
Kim Ki Yoon,
Lee Hyuk Je, Park Yung Chul
Animal Cells and Systems. 2020 24(3). p.171
Detecting pygmy rabbits (Brachylagus idahoensis) using DNA extracted from fecal pellets of mixed-species groups
TORSTROM SHANNON M.,
ADAMS JENNIFER R., WAITS LISETTE P.
Wildlife Society Bulletin. 2013 p.n/a
Improved DNA profiles from aged horse feces using pressure cycling technology
Deshpande K.,
Villarreal M., Mills D. K.
Conservation Genetics Resources. 2016 8(4). p.487
Comparing morphological and molecular diet analyses and fecal DNA sampling protocols for a terrestrial carnivore
Gosselin Elyce N.,
Lonsinger Robert C., Waits Lisette P.
Wildlife Society Bulletin. 2017 41(2). p.362
Evaluation of plant contamination in metabarcoding diet analysis of a herbivore
Ando Haruko,
Fujii Chieko,
Kawanabe Masataka,
Ao Yoshimi,
Inoue Tomomi, Takenaka Akio
Scientific Reports. 2018 8(1).
Multiplex pre‐amplification for noninvasive genetic sampling: is the extra effort worth it?
DE BARBA M., WAITS L. P.
Molecular Ecology Resources. 2010 10(4). p.659
High efficiency protocol of DNA extraction from Micromys minutus mandibles from owl pellets: a tool for molecular research of cryptic mammal species
Buś Magdalena M.,
Żmihorski Michał,
Romanowski Jerzy,
Balčiauskienė Laima,
Cichocki Jan, Balčiauskas Linas
Acta Theriologica. 2014 59(1). p.99
Evaluating the predictive power of field variables for species and individual molecular identification on wolf noninvasive samples
Nakamura Mónia,
Godinho Raquel,
Rio-Maior H.,
Roque S.,
Kaliontzopoulou A.,
Bernardo J.,
Castro D.,
Lopes S.,
Petrucci-Fonseca F., Álvares F.
European Journal of Wildlife Research. 2017 63(3).
Non-invasive genetic population density estimation of mountain hares (Lepus timidus) in the Alps: systematic or opportunistic sampling?
Rehnus Maik, Bollmann Kurt
European Journal of Wildlife Research. 2016 62(6). p.737
Characterization of six cross-species microsatellite markers suitable for estimating the population parameters of the black-backed jackal (Canis mesomelas) using a non-invasive genetic recovery protocol
James Robert S.,
James Phillip L.,
Scott Dawn M.,
Overall Andrew D.J., Bahler Jurg
Cogent Biology. 2015 1(1). p.1108479
Monitoring the Abundance of Wild and Reintroduced Bilby Populations
Dziminski Martin A.,
Carpenter Fiona M., Morris Frank
The Journal of Wildlife Management. 2021 85(2). p.240
An efficient method for screening faecal DNA genotypes and detecting new individuals and hybrids in the red wolf (Canis rufus) experimental population area
Adams Jennifer R., Waits Lisette P.
Conservation Genetics. 2006 8(1). p.123
Estimating mountain goat abundance using DNA from fecal pellets
Poole Kim G.,
Reynolds Darryl M.,
Mowat Garth, Paetkau David
The Journal of Wildlife Management. 2011 75(6). p.1527
Single-tube HotSHOT technique for the collection, preservation and PCR-ready DNA preparation of faecal samples: the threatened Cabrera's vole as a model
Alasaad Samer,
Sánchez Antonio,
García-Mudarra Juan L.,
Jowers Michael J.,
Pérez Jesús M.,
Marchal Juan Alberto,
Romero Ismael,
Garrido-García José A., Soriguer Ramón C.
European Journal of Wildlife Research. 2012 58(1). p.345
The study of habitat use by censuses and molecular methods in birds: the case of two sympatric pigeons
Nogales Manuel,
Marrero Patricia,
Padilla David P., Medina FÉlix M.
Bird Study. 2009 56(3). p.414
Species identification, molecular sexing and genotyping using non‐invasive approaches in two wild bovids species: Bos gaurus and Bos javanicus
Rivière‐Dobigny Taiana,
Doan Lan Pham,
Quang Nam Le,
Maillard Jean‐Charles, Michaux Johan
Zoo Biology. 2009 28(2). p.127
How Behavior of Nontarget Species Affects Perceived Accuracy of Scat Detection Dog Surveys
DeMatteo Karen E.,
Blake Linsey W.,
Young Julie K., Davenport Barbara
Scientific Reports. 2018 8(1).
Factors influencing genotyping success and genotyping error rate of Eurasian otter (Lutra lutra) faeces collected in temperate Central Europe
Sittenthaler Marcia,
Schöll Eva Maria,
Leeb Christoph,
Haring Elisabeth,
Parz-Gollner Rosemarie, Hackländer Klaus
European Journal of Wildlife Research. 2021 67(1).
Faecal DNA analysis enables genetic monitoring of the species recovery program for an arid-dwelling marsupial
Smith Steve,
McRae Peter, Hughes Jane
Australian Journal of Zoology. 2009 57(2). p.139
Long‐term persistence of horse fecal DNA in the environment makes equids particularly good candidates for noninvasive sampling
King Sarah R. B.,
Schoenecker Kathryn A.,
Fike Jennifer A., Oyler‐McCance Sara J.
Ecology and Evolution. 2018 8(8). p.4053
Molted feathers from clay licks in Peru provide DNA for three large macaws (Ara ararauna,A. chloropterus, andA. macao)
Gebhardt Kara J.,
Brightsmith Donald,
Powell George, Waits Lisette P.
Journal of Field Ornithology. 2009 80(2). p.183
Noninvasive genetic assessment provides evidence of extensive gene flow and possible high movement ability in the African golden wolf
Karssene Yamna,
Chammem Mohsen,
Nowak Carsten,
de Smet Koen,
Castro Diana,
Eddine Ahmed,
Lopes Susana,
Muñoz-Fuentes Violeta,
Cocchiararo Berardino,
Klees Dick,
Van Der Leer Peter,
Nouira Said, Godinho Raquel
Mammalian Biology. 2018 92 p.94
Noninvasive genetic studies of brown bears using power poles
Karamanlidis Alexandros A.,
Drosopoulou Elena,
de Gabriel Hernando Miguel,
Georgiadis Lazaros,
Krambokoukis Lambros,
Pllaha Stavri,
Zedrosser Andreas, Scouras Zacharias
European Journal of Wildlife Research. 2010 56(5). p.693
A simple statistical guide for the analysis of behaviour when data are constrained due to practical or ethical reasons
Garamszegi László Zsolt
Animal Behaviour. 2016 120 p.223
Feeding ecological knowledge: the underutilised power of faecal DNA approaches for carnivore diet analysis
Monterroso Pedro,
Godinho Raquel,
Oliveira Teresa,
Ferreras Pablo,
Kelly Marcella J.,
Morin Dana J.,
Waits Lisette P.,
Alves Paulo C., Mills L. Scott
Mammal Review. 2019 49(2). p.97
Genetic mark‐recapture analysis of winter faecal pellets allows estimation of population size in Sage Grouse Centrocercus urophasianus
Shyvers Jessica E.,
Walker Brett L.,
Oyler‐McCance Sara J.,
Fike Jennifer A., Noon Barry R.
Ibis. 2020 162(3). p.749
Characterization of target nuclear DNA from faeces reduces technical issues associated with the assumptions of low-quality and quantity template
Ball Mark C.,
Pither Richard,
Manseau Micheline,
Clark Jeff,
Petersen Stephen D.,
Kingston Steve,
Morrill Natasha, Wilson Paul
Conservation Genetics. 2007 8(3). p.577
Estimating red fox density using non-invasive genetic sampling and spatial capture–recapture modelling
Lindsø Lars K.,
Dupont Pierre,
Rød-Eriksen Lars,
Andersskog Ida Pernille Øystese,
Ulvund Kristine Roaldsnes,
Flagstad Øystein,
Bischof Richard, Eide Nina E.
Oecologia. 2022 198(1). p.139
Leader of the pack: faecal pellet deposition order impacts PCR amplification in wombats
WALKER F. M.,
HORSUP A., TAYLOR A. C.
Molecular Ecology Resources. 2009 9(3). p.720
A sex determination protocol for the Iberian desman (Galemys pyrenaicus) based on a three primer amplification of DBX and DBY fragments with non-invasive samples
Vidal Oriol,
Pérez-Serra Alexandra, Pla Carles
Conservation Genetics. 2010 11(3). p.1185
Wolf scat detection dog improves wolf genetic monitoring in new French colonized areas
Roda Fabrice,
Sentilles Jérôme,
Molins Caroline,
Duchamp Christophe,
Hansen Éric, Jean Nicolas
Journal of Vertebrate Biology. 2021 69(3).
Who is who? High Resolution Melting analysis to discern between hare species using non-invasive sampling
Buglione Maria,
Petrelli Simona,
Notomista Tommaso,
de Filippo Gabriele,
Gregorio Romano, Fulgione Domenico
Conservation Genetics Resources. 2020 12(4). p.727
Recruitment in a social carnivore before and after harvest
Ausband D. E.,
Stansbury C. R.,
Stenglein J. L.,
Struthers J. L., Waits L. P.
Animal Conservation. 2015 18(5). p.415
Guidance on estimation of abundance and density of wild carnivore population:methods, challenges, possibilities
T Podgórski,
P Acevedo,
M Apollonio,
T Berezowska‐Cnota,
C Bevilacqua,
JA Blanco,
T Borowik,
G Garrote,
D Huber,
O Keuling,
R Kowalczyk,
B Mitchler,
FU Michler,
A Olszańska,
M Scandura,
K Schmidt,
N Selva,
A Sergiel,
S Stoyanov,
R Vada, J Vicente
EFSA Supporting Publications. 2020 17(11).
Optimised scat collection protocols for dietary DNA metabarcoding in vertebrates
McInnes Julie C.,
Alderman Rachael,
Deagle Bruce E.,
Lea Mary‐Anne,
Raymond Ben,
Jarman Simon N., Bunce Michael
Methods in Ecology and Evolution. 2017 8(2). p.192
Status of the Gobi bear in Mongolia as determined by noninvasive genetic methods
McCarthy Thomas M.,
Waits Lisette P., Mijiddorj B.
Ursus. 2009 20(1). p.30
A pilot study on the application of DNA metabarcoding for non-invasive diet analysis in the Italian hare
Buglione Maria,
Maselli Valeria,
Rippa Daniela,
de Filippo Gabriele,
Trapanese Martina, Fulgione Domenico
Mammalian Biology. 2018 88 p.31
Alaskan brown bears (Ursus arctos) aggregate and display fidelity to foraging neighborhoods while preying on Pacific salmon along small streams
Wirsing Aaron J.,
Quinn Thomas P.,
Cunningham Curry J.,
Adams Jennifer R.,
Craig Apryle D., Waits Lisette P.
Ecology and Evolution. 2018 8(17). p.9048
Improving cost-efficiency of faecal genotyping: New tools for elephant species
Bourgeois Stéphanie,
Kaden Jenny,
Senn Helen,
Bunnefeld Nils,
Jeffery Kathryn J.,
Akomo-Okoue Etienne F.,
Ogden Rob,
McEwing Ross, Cameron Elissa Z.
PLOS ONE. 2019 14(1). p.e0210811
Grading fecal consistency in an omnivorous carnivore, the brown bear: Abandoning the concept of uniform feces
De Cuyper Annelies,
Clauss Marcus,
Lens Luc,
Strubbe Diederik,
Zedrosser Andreas,
Steyaert Sam,
Saravia Arturo Muñoz, Janssens Geert P. J.
Zoo Biology. 2021 40(3). p.182
Noninvasive Genotyping of the Red-Legged Partridge (Alectoris rufa, Phasianidae): Semi-Nested PCR of Mitochondrial DNA from Feces
Guerrini Monica, Barbanera Filippo
Biochemical Genetics. 2009 47(11-12). p.873
Do Dead Fish Tell Tales? DNA Degradation in Chinook Salmon (Oncorhynchus tshawytscha) Carcasses
Copeland Timothy,
Kozfkay Christine C.,
Johnson June, Campbell Matthew R.
Northwest Science. 2009 83(2). p.140
Development of a 95 SNP panel to individually genotype mountain lions (Puma concolor) for microfluidic and other genotyping platforms
Buchalski Michael R.,
Sacks Benjamin N.,
Ahrens Kristen D.,
Gustafson Kyle D.,
Rudd Jaime L.,
Ernest Holly B., Dellinger Justin A.
Conservation Genetics Resources. 2022 14(2). p.147
Successful carnivore identification with faecal DNA across a fragmented Amazonian landscape
MICHALSKI FERNANDA,
VALDEZ FERNANDA PEDONE,
NORRIS DARREN,
ZIEMINSKI CHRIS,
KASHIVAKURA CYNTIA KAYO,
TRINCA CRISTINE S.,
SMITH HEATH B.,
VYNNE CARLY,
WASSER SAMUEL K.,
METZGER JEAN PAUL, EIZIRIK EDUARDO
Molecular Ecology Resources. 2011 11(5). p.862
And Then There was One: A Camera Trap Survey of the Declining Population of African Elephants in Knysna, South Africa
Moolman Lizette,
Morney Melanie A. de,
Ferreira Sam M.,
Ganswindt André,
Poole Joyce H., Kerley Graham I.H.
African Journal of Wildlife Research. 2019 49(1).
Estimating size and trend of the North Interlake woodland caribou population using fecal‐DNA and capture–recapture models
Hettinga Peter N.,
Arnason Arni Neil,
Manseau Micheline,
Cross Dale,
Whaley Kent, Wilson Paul J.
The Journal of Wildlife Management. 2012 76(6). p.1153
Rapid species identification of pygmy rabbits (Brachylagus idahoensis) from faecal pellet DNA
ADAMS JENNIFER R.,
GOLDBERG CAREN S.,
BOSWORTH WILLIAM R.,
RACHLOW JANET L., WAITS LISETTE P.
Molecular Ecology Resources. 2011 11(5). p.808
Molecular Dietary Analysis of the Endangered Ozark Big-Eared Bat (Corynorhinus townsendii ingens)
Bussche Ronald A. Van Den,
Lee Dana N.,
Judkins Megan E.,
Dyer Jenny E.,
Thompson Denise M.,
Stark Richard C.,
Puckette William L., Fuller Brian
Acta Chiropterologica. 2016 18(1). p.181
Application of real-time PCR for the identification of the endangered species Galemys pyrenaicus through faecal samples
Ripa Adriana,
Díaz-Caballero José A.,
Palacios-González María Jesús,
Espinosa Antonio,
García-Zapata Juan Luis, Fernández-Garcia José Luis
Molecular Biology Reports. 2024 51(1).
Factors influencing degradation of DNA and hormones in maned wolf scat
Vynne C.,
Baker M. R.,
Breuer Z. K.,
Wasser S. K., Reed David
Animal Conservation. 2012 15(2). p.184
