Global climate change and small mammal populations in north-central Chile

Since 1989 we have monitored small mammal populations at a semiarid site in north-central Chile with a large-scale livetrapping grid complex. Selective exclusions of vertebrate predators or putative small mammal competitors, or both, have yielded relatively small or mostly transitory effects, or bot...

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Bibliographic Details
Published in:Journal of mammalogy 2011-12, Vol.92 (6), p.1223-1235
Main Authors: Meserve, Peter L., Kelt, Douglas A., Previtali, M. Andrea, Milstead, W. Bryan, Gutiérrez, Julio R.
Format: Article
Language:English
Subjects:
Biological and medical sciences
Chile
Climate change
Climatology. Bioclimatology. Climate change
Community composition
Drought
Earth, ocean, space
El Nino
El Niño
El Niño Southern Oscillation (ENSO)
Exact sciences and technology
External geophysics
Field study
Forest habitats
Fundamental and applied biological sciences. Psychology
Global climate
global climate change
Mammalia
Mammalogy
Mammals
Meteorology
Octodon degus
Oligoryzomys longicaudatus
Phyllotis darwini
Plant communities
Plant spines
Plants
population fluctuations
Predators
Rain
Rainfall
Rodents
semiarid small mammals
Small mammals
SPECIAL FEATURE
Species diversity
Vertebrates: general zoology, morphology, phylogeny, systematics, cytogenetics, geographical distribution
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Summary:Since 1989 we have monitored small mammal populations at a semiarid site in north-central Chile with a large-scale livetrapping grid complex. Selective exclusions of vertebrate predators or putative small mammal competitors, or both, have yielded relatively small or mostly transitory effects, or both, on small mammal population dynamics and plant community composition. During the study period 5 El Niño–high rainfall episodes have occurred lasting 1–3 years. Resident or core small mammals such as Abrothrix olivaceus, Phyllotis darwini, and Octodon degus experience dramatic fluctuations during and following rainfall pulses. Temporary resident or opportunistic species such as Oligoryzomys longicaudatus and A. longipilis disappear from the thorn scrub for varying periods of time. All species persist in more mesic nearby habitats near dry stream courses (aguadas). Since a 3-year high rainfall event in 2000–2002 mean annual rainfall has increased in this region, mainly due to a lack of prolonged droughts. Under these conditions, and building on a qualitative model proposed by Noy-Meir, long-lived species might become more abundant. Changes in the small mammal assemblage are consistent with these predictions; O. degus, a caviomorph rodent with a long life span, now comprises a more constant proportion of the small mammal biomass in the thorn scrub, and we have documented reduced variation in species diversity. Increased rainfall, a predicted consequence of global climate change in this region, might be leading to changes in small mammal assemblage structure and composition and ultimately will result in a more stable, less oscillatory assemblage in the thorn scrub. Additionally, invasive groups such as introduced lagomorphs and ephemeral plants might become more abundant in this community. The long-term consequences of changes in rainfall patterns due to El Niño Southern Oscillations (ENSOs), with important teleconnections to global-scale phenomena, will lead to diverse changes at the community level here.
ISSN:0022-2372
1545-1542
DOI:10.1644/10-MAMM-S-267.1