Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
Quantifying temporal and spatial variation in animal population size and demography is a central theme in ecological research and important for directing management and policy. However, this requires field sampling at large spatial extents and over long periods of time, which is not only prohibitive...
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2024-12-01
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| Online Access: | https://peercommunityjournal.org/articles/10.24072/pcjournal.494/ |
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| author | Nater, Chloé R. Frassinelli, Francesco Martin, James A. Nilsen, Erlend B. |
| author_facet | Nater, Chloé R. Frassinelli, Francesco Martin, James A. Nilsen, Erlend B. |
| author_sort | Nater, Chloé R. |
| collection | DOAJ |
| description | Quantifying temporal and spatial variation in animal population size and demography is a central theme in ecological research and important for directing management and policy. However, this requires field sampling at large spatial extents and over long periods of time, which is not only prohibitively costly but often politically untenable. Participatory monitoring programs (also called citizen science programmes) can alleviate these constraints by recruiting stakeholders and the public to increase the spatial and temporal resolution of sampling effort and hence resulting data. While the majority of participatory monitoring programs are limited by opportunistic sampling designs, we are starting to see the emergence of structured citizen science programs that employ trained volunteers to collect data according to standardized protocols. Simultaneously, there is much ongoing development of statistical models that are increasingly more powerful and able to make more efficient use of field data. Integrated population models (IPMs), for example, are able to use multiple streams of data from different field monitoring programmes and/or multiple aspects of single datasets to estimate population sizes and key vital rates. Here, we developed a multi-area version of a recently developed integrated distance sampling model (IDSM) and applied it to data from a large-scale participatory monitoring program – the “Hønsefuglportalen” – to study spatio-temporal variation in population dynamics of willow ptarmigan (Lagopus lagopus) in Norway. We constructed an open and reproducible workflow for exploring temporal, spatial (latitudinal, longitudinal, altitudinal), and residual variation in recruitment, survival, and population density, as well as relationships between vital rates and relevant covariates and signals of density dependence. Recruitment rates varied more across space than over time, while the opposite was the case for survival. Slower life history patterns (higher survival, lower recruitment) appeared to be more common at higher latitudes and altitudes, portending differential effects of climate change on ptarmigan across their range. While there was variation in the magnitude of the effect small rodent occupancy had on recruitment, the relationships were predominantly positive and thus consistent with the alternative prey hypothesis. Notably, the accurate estimation of covariate effect was only made possible by integrating data from several monitoring areas for analysis. Our study highlights the potential of participatory monitoring and 2integrated modelling approaches for estimating and understanding spatio-temporal patterns in species abundance and demographic rates, and showcases how corresponding workflows can be set up in reproducible and semi-automated ways that increase their usefulness for informing management and regular reporting towards national and international biodiversity frameworks. |
| format | Article |
| id | doaj-art-dd4e604529db4ae2b2076e8cf6612134 |
| institution | Kabale University |
| issn | 2804-3871 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Peer Community In |
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| series | Peer Community Journal |
| spelling | doaj-art-dd4e604529db4ae2b2076e8cf66121342025-02-07T10:17:17ZengPeer Community InPeer Community Journal2804-38712024-12-01410.24072/pcjournal.49410.24072/pcjournal.494Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird Nater, Chloé R.0https://orcid.org/0000-0002-7975-0108Frassinelli, Francesco1Martin, James A.2Nilsen, Erlend B.3https://orcid.org/0000-0002-5119-8331Norwegian Institute for Nature Research, Trondheim, NorwayNorwegian Institute for Nature Research, Trondheim, NorwayWarnell School of Forestry and Natural Resources, Savannah River Ecology Lab, University of Georgia, Athens, United States of AmericaNorwegian Institute for Nature Research, Trondheim, NorwayQuantifying temporal and spatial variation in animal population size and demography is a central theme in ecological research and important for directing management and policy. However, this requires field sampling at large spatial extents and over long periods of time, which is not only prohibitively costly but often politically untenable. Participatory monitoring programs (also called citizen science programmes) can alleviate these constraints by recruiting stakeholders and the public to increase the spatial and temporal resolution of sampling effort and hence resulting data. While the majority of participatory monitoring programs are limited by opportunistic sampling designs, we are starting to see the emergence of structured citizen science programs that employ trained volunteers to collect data according to standardized protocols. Simultaneously, there is much ongoing development of statistical models that are increasingly more powerful and able to make more efficient use of field data. Integrated population models (IPMs), for example, are able to use multiple streams of data from different field monitoring programmes and/or multiple aspects of single datasets to estimate population sizes and key vital rates. Here, we developed a multi-area version of a recently developed integrated distance sampling model (IDSM) and applied it to data from a large-scale participatory monitoring program – the “Hønsefuglportalen” – to study spatio-temporal variation in population dynamics of willow ptarmigan (Lagopus lagopus) in Norway. We constructed an open and reproducible workflow for exploring temporal, spatial (latitudinal, longitudinal, altitudinal), and residual variation in recruitment, survival, and population density, as well as relationships between vital rates and relevant covariates and signals of density dependence. Recruitment rates varied more across space than over time, while the opposite was the case for survival. Slower life history patterns (higher survival, lower recruitment) appeared to be more common at higher latitudes and altitudes, portending differential effects of climate change on ptarmigan across their range. While there was variation in the magnitude of the effect small rodent occupancy had on recruitment, the relationships were predominantly positive and thus consistent with the alternative prey hypothesis. Notably, the accurate estimation of covariate effect was only made possible by integrating data from several monitoring areas for analysis. Our study highlights the potential of participatory monitoring and 2integrated modelling approaches for estimating and understanding spatio-temporal patterns in species abundance and demographic rates, and showcases how corresponding workflows can be set up in reproducible and semi-automated ways that increase their usefulness for informing management and regular reporting towards national and international biodiversity frameworks.https://peercommunityjournal.org/articles/10.24072/pcjournal.494/Alpine; citizen science; detection; distance sampling, grouse; integrated model; IPM; Lagopus lagopus; large-scale; participatory monitoring; pipeline; population dynamics; ptarmigan; recruitment; spatial variation; spatiotemporal variation; survival; temporal variation; vital rates; workflow; |
| spellingShingle | Nater, Chloé R. Frassinelli, Francesco Martin, James A. Nilsen, Erlend B. Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird Peer Community Journal Alpine; citizen science; detection; distance sampling, grouse; integrated model; IPM; Lagopus lagopus; large-scale; participatory monitoring; pipeline; population dynamics; ptarmigan; recruitment; spatial variation; spatiotemporal variation; survival; temporal variation; vital rates; workflow; |
| title | Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
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| title_full | Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
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| title_fullStr | Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
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| title_full_unstemmed | Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
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| title_short | Large-scale spatio-temporal variation in vital rates and population dynamics of an alpine bird
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| title_sort | large scale spatio temporal variation in vital rates and population dynamics of an alpine bird |
| topic | Alpine; citizen science; detection; distance sampling, grouse; integrated model; IPM; Lagopus lagopus; large-scale; participatory monitoring; pipeline; population dynamics; ptarmigan; recruitment; spatial variation; spatiotemporal variation; survival; temporal variation; vital rates; workflow; |
| url | https://peercommunityjournal.org/articles/10.24072/pcjournal.494/ |
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