Macroecological patterns of rodent population dynamics shaped by bioclimatic gradients - UTU Research Portal

A1 Refereed original research article in a scientific journal

Macroecological patterns of rodent population dynamics shaped by bioclimatic gradients

Authors: Soininen, Eeva M.; Magnusson, Magnus; Jepsen, Jane U.; Eide, Nina E.; Yoccoz, Nigel G.; Angerbjörn, Anders; Breisjøberget, Jo Inge; Ecke, Frauke; Ehrich, Dorothee; Framstad, Erik; Henttonen, Heikki; Hörnfeldt, Birger; Killengreen, Siw; Olofsson, Johan; Oksanen, Lauri; Oksanen, Tarja; Tveito, Ole Einar; Ims, Rolf A.

Publisher: Wiley

Publication year: 2025

Journal: Ecography

Article number: e07058

Volume: 2025

Issue: 5

ISSN: 0906-7590

eISSN: 1600-0587

DOI: https://doi.org/10.1111/ecog.07058

Publication's open availability at the time of reporting: Open Access

Publication channel's open availability : Open Access publication channel

Web address : https://doi.org/10.1111/ecog.07058

Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/508622305

Self-archived copy's licence: CC BY

Self-archived copy's version: Publisher`s PDF

Additional information: Analysoimme kaikki Fennoskandian tundra- / tunturiekosysteemeissä tehdyt pitkä- tai keskipitkäkestoiset aikasarjat myyrien ja sopulien kannanvaihteluista. Voimakkaimmat kannanvaihtelut löytyivät sieltä missä kunkin lajin eniten suosimaa luontotyyppiä oli runsaimmin. Pohjoisuudella tai eteläisyydellä ei sen sijaan ollut mitään vaikutusta kannanvaihteluiden voimakkuuteen. Fennoskandian tunturiluonto on siis tässä suhteessa varsin yhtenäinen, vaikka metsänraja nouseekin nollasta 1100 metrin korkeuteen siirryttäessä pohjoisen niemistä etelän ylängöille. Eli kuten vanha kunnon Áiluhaš joikasi: ”duoattar dat lea duottar” (tunturi on tunturia), ei se siitä muuksi muutu.

Abstract

Long-term studies of cyclic rodent populations have contributed fundamentally to the development of population ecology. Pioneering rodent studies have shown macroecological patterns of population dynamics in relation to latitude and have inspired similar studies in several other taxa. Nevertheless, such studies have not been able to disentangle the role of different environmental variables in shaping the macroecological patterns. We collected rodent time-series from 26 locations spanning 10 latitudinal degrees in the tundra biome of Fennoscandia and assessed how population dynamics characteristics of the most prevalent species varied with latitude and environmental variables. While we found no relationship between latitude and population cycle peak interval, other characteristics of population dynamics showed latitudinal patterns. The environmental predictor variables provided insight into causes of these patterns, as 1) increased proportion of optimal habitat in the landscape led to higher density amplitudes in all species and 2) mid-winter climate variability lowered the amplitude in Norwegian lemmings and grey-sided voles. These results indicate that biome-scale climate and landscape change can be expected to have profound impacts on rodent population cycles and that the macro-ecology of such functionally important tundra ecosystem characteristics is likely to be subjected to transient dynamics.

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Ecography - 2024 - Soininen - Macroecological patterns of rodent population dynamics shaped by bioclimatic gradients.pdf

Funding information in the publication:
Kilpisjärvi Biological Station, Swedish Research Council Formas (mobility grant no. 2017-00867 to MM post doc position). JUJ, NEE, EMS and EF acknowledge strategic support from the Norwegian Institute for Nature Research. The monitoring of small mammals at Vålådalen/ Ljungdalen, Ammarnäs and Stora Sjöfallet has been financed by the Swedish Environmental Protection Agency (via the National Environmental Monitoring Programme). Data were collected at the sites Møsvatn, Gutulia, Åmotsdalen, Børgefjell and Dividalen as part of the Terrestrial Ecosystems Monitoring Program (TOV), funded by the Norwegian Environment Agency. Data collection at Finse has been funded by the University of Oslo and the Norwegian Institute for Nature Research. Data from eastern Finnmark (locations 1–6) are from the Climate-Ecological Observatory for Arctic Tundra (COAT) and funded by the Norwegian Environment Agency.