Reduced Body Mass in a Highly Insectivorous Mammal, the Garden Dormouse—Ecological Consequences of Insect Decline?

Reduced Body Mass in a Highly Insectivorous Mammal, the Garden Dormouse—Ecological Consequences of Insect Decline?

Blog Article

ABSTRACT Biodiversity is decreasing worldwide, and early indicators are needed to identify endangered populations before they start to decline in abundance.In mammals, body mass (BM) is regarded as an indicator of Action Figure fitness, and its loss is used as an early warning signal preceding population decline.The garden dormouse (Eliomys quercinus, Gliridae, BM: 60–110 g) is a small mammalian hibernator that has disappeared from over 50% of its former range in the last decades.The aim of this study was to investigate whether garden dormice from a presumably thriving and stable population already show early warning signals, which may precede a population decline.We therefore conducted capture‐mark‐recapture studies during 2003–2005 (Period 1) and 2018–2021 (Period 2) in the Northern Black Forest, one of its last natural distribution areas in Germany.

We collected fecal samples, measured BM, and tibia length as a proxy for size and age.Results revealed that in Period trikes 2 adult dormice had a significantly lower (12%) pre‐hibernation BM, corrected for body size, and juveniles showed a significantly lower BM gain after weaning than nearly two decades ago.Fecal samples collected in Period 2 showed that arthropods represented the main food residues in fecal samples during juvenile growth and pre‐hibernation fattening.Ambient temperature during hibernation showed no correlation with BM at emergence.We could not detect a phenological time shift in reproduction; however, we found only one birth peak in Period 2, compared with two birth peaks in Period 1.

Observed changes in BM and reproduction pattern represent early warning signals, as they point to an insufficient availability of high‐quality food, which prevents dormice from meeting their nutritional requirements, with potentially serious consequences for their reproductive success and survival.As arthropods are the dominant food resource, their decline may at least partly explain this phenomenon.