References
Stephens, P. A. et al. Consistent response of bird populations to climate change on two continents. Science 352, 84–87 (2016).
Elsen, P. R. & Tingley, M. W. Global mountain topography and the fate of montane species under climate change. Nat. Clim. Chang. 5, 772 (2015).
Meltofte, H. Arctic Biodiversity Assessment. Status and Trends in Arctic Biodiversity: Synthesis (Conservation of Arctic Flora and Fauna, 2013).
Kubelka, T. et al. Global pattern of nest predation is disrupted by climate change in shorebirds. Science 362, 680–683 (2018).
Post, E. et al. Ecological dynamics across the arctic associated with recent climate change. Science 325, 1355–1358 (2009).
Tingley, M. W., Monahan, W. B., Beissinger, S. R. & Moritz, C. Birds track their Grinnellian niche through a century of climate change. Proc. Natl Acad. Sci. USA 106, 19637–19643 (2009).
Lehikoinen, A., Green, M., Husby, M., Kålås, J. A. & Lindström, Å. Common montane birds are declining in northern Europe. J. Avian Biol. 45, 3–14 (2014).
Elmhagen, B., Kindberg, J., Hellstrom, P. & Angerbjorn, A. A boreal invasion in response to climate change? Range shifts and community effects in the borderland between forest and tundra. Ambio 44, S39–S50 (2015).
Callaghan, T. V. et al. Ecosystem change and stability over multiple decades in the Swedish subarctic: complex processes and multiple drivers. Philos. Trans.R. Soc. B 368, 20120488 (2013).
Blois, J. L., Zarnetske, P. L., Fitzpatrick, M. C. & Finnegan, S. Climate change and the past, present, and future of biotic interactions. Science 341, 499–504 (2013).
Dawson, T. P., Jackson, S. T., House, J. I., Prentice, I. C. & Mace, G. M. Beyond predictions: Biodiversity conservation in a changing climate. Science 332, 53–58 (2011).
Martin, T. E. Avian life history evolution in relation to nest sites, nest predation, and food. Ecol. Monogr. 65, 101–127 (1995).
Martin, T. E. Nest predation and nest sites: New perspectives on old patterns. Bioscience 43, 523–532 (1993).
Ibáñez-Álamo, J. D. et al. Nest predation research: recent findings and future perspectives. J. Ornithol. 156, 247–262 (2015).
Chapin, F. S. III et al. Role of land-surface changes in Arctic summer warming. Science 310, 657–660 (2005).
Xu, L. et al. Temperature and vegetation seasonality diminishment over northern lands. Nat. Clim. Chang. 3, 581 (2013).
Legagneux, P. et al. Arctic ecosystem structure and functioning shaped by climate and herbivore body size. Nat. Clim. Chang. 4, 379 (2014).
Myers-Smith, I. H. et al. Climate sensitivity of shrub growth across the tundra biome. Nat. Clim. Chang. 5, 887 (2015).
McKinnon, L. et al. Lower predation risk for migratory birds at high latitudes. Science 327, 326–327 (2010).
Ims, R. A. & Fuglei, E. Trophic interaction cycles in tundra ecosystems and the impact of climate change. Bioscience 55, 311–322 (2005).
Gilg, O. & Yoccoz, N. G. Ecology. Explaining bird migration. Science 327, 276–277 (2010).
Oksanen, L. & Oksanen, T. The logic and realism of the hypothesis of exploitation ecosystems. Am. Nat. 155, 703–723 (2000).
See Also2022 Tundra Bed Noise (Solved)Maron, J. L. & Harrison, S. Spatial pattern formation in an insect host-parasitoid system. Science 278, 1619–1621 (1997).
Henden, J. A., Ims, R. A., Fuglei, E. & Pedersen, Å. Ø. Changed Arctic-alpine food web interactions under rapid climate warming: Implication for ptarmigan research. Wildlife Biol. SP1, 1–11 (2017).
Sokolov, A. A., Sokolova, N. A., Ims, R. A., Brucker, L. & Ehrich, D. Emergent rainy winter warm spells may promote boreal predator expansion into the Arctic. Arctic 69, 121–129 (2015).
Roslin, T. et al. Higher predation risk for insect prey at low latitudes and elevations. Science 356, 742–744 (2017).
Andrén, H. Corvid density and nest predation in relation to forest fragmentation: A landscape perspective. Ecology 73, 794–804 (1992).
Storch, I., Woitke, E. & Krieger, S. Landscape-scale edge effect in predation risk in forest-farmland mosaics of central Europe. Landsc. Ecol. 20, 927–940 (2005).
Killengreen, S. T., Strømseng, E., Yoccoz, N. G. & Ims, R. A. How ecological neighbourhoods influence the structure of the scavenger guild in low Arctic tundra. Divers. Distrib. 18, 563–574 (2012).
Ims, R. A., Henden, J.-A., Thingnes, A. V. & Killengreen, S. T. Indirect food web interactions mediated by predator–rodent dynamics: relative roles of lemmings and voles. Biol. Lett. 9, 20130802 (2013).
Marolla, F. et al. Assessing the effect of predator control on an endangered goose population subjected to predator-mediated food web dynamics. J. Appl. Ecol. 56, 1245–1255 (2019).
Moen, A, Lillethun, A. & Odland, A. Vegetation. (Norwegian Mapping Authority: 1999).
Bateman, P. W., Fleming, P. A. & Wolfe, A. K. A different kind of ecological modelling: the use of clay model organisms to explore predator–prey interactions in vertebrates. J. Zool. 301, 251–262 (2017).
McKinnon, L. et al. Suitability of artificial nests—response. Science 328, 46–47 (2010).
Haftorn, S. Birds of Norway (Universitetsforlaget Oslo, 1971).
Ims, R. A., Yoccoz, N. G. & Killengreen, S. T. Determinants of lemming outbreaks. Proc. Natl Acad. Sci. USA 108, 1970–1974 (2011).
Ims, R. A. et al. Ecosystem drivers of an Arctic fox population at the western fringe of the Eurasian Arctic. Polar Res. https://doi.org/10.1080/17518369.2017.1323621 (2017).
Huete, A. et al. Overview of the radiometric and biophysical performance of the MODIS vegetation indices. Remote Sens. Environ. 83, 195–213 (2002).
Andrén, H., Angelstam, P., Lindstrom, E. & Widen, P. Differences in predation pressure in relation to habitat fragmentation - an experiment. Oikos 45, 273–277 (1985).
Donovan, T. M., Jones, P. W., Annand, E. M. & Thompson, F. R. Variation in local-scale edge effects: Mechanisms and landscape context. Ecology 78, 2064–2075 (1997).
Kurki, S., Nikula, A., Helle, P. & Lindén, H. Landscape fragmentation and forest composition effects on grouse breeding success in boreal forests. Ecology 81, 1985–1997 (2000).
Harju, S. M., Olson, C. V., Hess, J. E. & Bedrosian, B. Common raven movement and space use: influence of anthropogenic subsidies within greater sage‐grouse nesting habitat. Ecosphere 9, e02348 (2018).
Walton, Z., Samelius, G., Odden, M. & Willebrand, T. Variation in home range size of red foxes Vulpes vulpes along a gradient of productivity and human landscape alteration. PLoS ONE 12, e0175291 (2017).
Didan, K. MOD13Q1 v006: MODIS/Terra Vegetation Indices 16-Day L3 Global 250 m SIN Grid (USGS, 2015).
Pinheiro, J. & Bates, D. Mixed-Effects Models in S and S-PLUS (Springer, 2000).
Bates, D., Machler, M., Bolker, B. M. & Walker, S. C. Fitting linear mixed-effects models using lme4. J. Stat. Softw. 67, 1–48 (2015).
Burnham, K. P. & Anderson, D. A. Model selection and multimodel inference: a practical information-theoretic approach 2nd edn (Springer, New York, 2002).
Nakagawa, S. & Schielzeth, H. A general and simple method for obtaining R² from generalized linear mixed-effects models. Methods Ecol. Evol. 4, 133–142 (2013).
