Four principles for improved statistical ecology by Gordana Popovic, Tanya Jane Mason, Szymon Marian Drobniak, Tiago André Marques, Joanne Potts, Rocío Joo, Res Altwegg, Carolyn Claire Isabelle Burns, Michael Andrew McCarthy, Alison Johnston, Shinichi Nakagawa, Louise McMillan, Kadambari Devarajan, Patrick Leo Taggart, Alison Wunderlich, Magdalena M. Mair, Juan Andrés Martínez‐Lanfranco, Malgorzata Lagisz, Patrice Pottier

“…Originating from a discussion at the 2020 International Statistical Ecology Conference, we show how ecologists can build their research following four guiding principles for impactful statistical research practices: (1) define a focussed research question, then plan sampling and analysis to answer it; (2) develop a model that accounts for the distribution and dependence of your data; (3) emphasise effect sizes to replace statistical significance with ecological relevance; and (4) report your methods and findings in sufficient detail so that your research is valid and reproducible. …”
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How close is an undiscovered species to you after conducting biodiversity sampling? by Youhua Chen, Yongbin Wu, Chia-Hao Chang, Tsung-Jen Shen

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Editorial: Cognitive movement ecology by Eliezer Gurarie, Tal Avgar, Tal Avgar

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Application of a Negative Multinomial Model Gives Insight into Rarity-Area Relationships by Youhua Chen, Yongbin Wu, Weihua Chen, Tian Zhao, Wenyan Zhang, Tsung-Jen Shen

Subjects: “…spatial and statistical ecology…”
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Inferring single- and multi-species distributional aggregation using quadrat sampling by Ziyan Liao, Jin Zhou, Tsung-Jen Shen, Youhua Chen

Subjects: “…Statistical ecology…”
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Data concerning the Araneae fauna from the Aninei Mountains Karstic area (Banat, Romania) by AUGUSTIN NAE

“…The chorological composition of the fauna is presented, followed by some statistical ecology analyses…”
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Recursive Estimation in Capture-Recapture Methods by Lakhdar Aggoun, Robert J. Elliott

“…An important problem in statistical ecology is how to determine the size of an animal population. …”
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First Description of Invertebrate Benthic Fauna in the Middle Zone of the Loa River (Chile) by P. De los Rios-Escalante, R. Wilson, J. Norambuena, C. Esse

“…Aquatic insect communities in inland waters of Chile are characterised by the presence of certain species depending on water quality, but there is little information on statistical ecology in the structure of insect communities. …”
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Suksesi Areal Bekas Ladang Berpindah Di Desa Sungai Buluh, Kalteng by Perpustakaan UGM, i-lib

“…This paper employs statistical ecology to analyze ecological changes in degraded forest land caused by slash-and-burn practices. …”

A novel application of mark-recapture to examine behaviour associated with the online trade in elephant ivory by Lydia M. Yeo, Rachel S. McCrea, David L. Roberts

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Ecological show cave and wild cave: negative binomial GLLVM’s arthropod community modelling by Caraka, Rezzy Eko, Shohaimi, Shamarina, Kurniawan, Isma Dwi, Herliansyah, Riki, Budiarto, Arif, Sari, Shinta Purnama, Pardamean, Bens

“…In the heart of statistical ecology, we need to analyze the differences on Arthropods community and abiotic (climatic-edaphic) parameters among show caves and wild caves. …”
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Dynamic multi-species occupancy models reveal individualistic habitat preferences in a high-altitude grassland bird community by David H. Maphisa, Hanneline Smit-Robinson, Res Altwegg

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Use of Bayesian Modeling to Determine the Effects of Meteorological Conditions, Prescribed Burn Season, and Tree Characteristics on Litterfall of <i>Pinus nigra</i> and <i>Pinus pi... by Juncal Espinosa, Óscar Rodríguez De Rivera, Javier Madrigal, Mercedes Guijarro, Carmen Hernando

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eBird: Curating Citizen Science Data for Use by Diverse Communities by Carl Lagoze

“…With over 150,000 participants worldwide and an accumulation of over 140,000,000 bird observations globally in the last decade, eBird has evolved into a major tool for scientific investigations in diverse fields such as ornithology, computer science, statistics, ecology and climate change. eBird’s impact in scientific research is grounded in careful data curation practices that pay attention to all stages of the data lifecycle, and attend to the needs of stakeholders engaged in that data lifecycle. …”
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eBird: Curating Citizen Science Data for Use by Diverse Communities by Carl Lagoze

“…With over 150,000 participants worldwide and an accumulation of over 140,000,000 bird observations globally in the last decade, eBird has evolved into a major tool for scientific investigations in diverse fields such as ornithology, computer science, statistics, ecology and climate change. eBird’s impact in scientific research is grounded in careful data curation practices that pay attention to all stages of the data lifecycle, and attend to the needs of stakeholders engaged in that data lifecycle. …”
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eBird: Curating Citizen Science Data for Use by Diverse Communities by Carl Lagoze

“…With over 150,000 participants worldwide and an accumulation of over 140,000,000 bird observations globally in the last decade, eBird has evolved into a major tool for scientific investigations in diverse fields such as ornithology, computer science, statistics, ecology and climate change. eBird’s impact in scientific research is grounded in careful data curation practices that pay attention to all stages of the data lifecycle, and attend to the needs of stakeholders engaged in that data lifecycle. …”
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eBird: Curating Citizen Science Data for Use by Diverse Communities by Carl Lagoze

“…With over 150,000 participants worldwide and an accumulation of over 140,000,000 bird observations globally in the last decade, eBird has evolved into a major tool for scientific investigations in diverse fields such as ornithology, computer science, statistics, ecology and climate change. eBird’s impact in scientific research is grounded in careful data curation practices that pay attention to all stages of the data lifecycle, and attend to the needs of stakeholders engaged in that data lifecycle. …”
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eBird: Curating Citizen Science Data for Use by Diverse Communities by Carl Lagoze

“…With over 150,000 participants worldwide and an accumulation of over 140,000,000 bird observations globally in the last decade, eBird has evolved into a major tool for scientific investigations in diverse fields such as ornithology, computer science, statistics, ecology and climate change. eBird’s impact in scientific research is grounded in careful data curation practices that pay attention to all stages of the data lifecycle, and attend to the needs of stakeholders engaged in that data lifecycle. …”
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Robust morphogenesis by chaotic dynamics by J. Reinitz, S. Vakulenko, I. Sudakow, D. Grigoriev

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Evolution of biological cooperation: an algorithmic approach by Ivan Sudakow, John Reinitz, Sergey A. Vakulenko, Dima Grigoriev

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