Abstract
The hippocampal formation (HF) processes spatial memories for cache locations in food-hoarding birds. Hoarding is a seasonal behavior, and seasonal changes in the HF have been described in some studies, but not in others. One potential reason is that birds may have been sampled during the seasonal hoarding peak in some studies, but not in others. In this study, we investigate the seasonal changes in hoarding and HF in willow tits (Poecile montanus). We compare this to seasonal changes in HF in a closely related non-hoarding bird, the great tit (Parus major). Willow tits near Oulu, Finland, show a seasonal hoarding peak in September and both HF volume and neuron number show a similar peak. HF neuronal density also increases in September, but then remains the same throughout winter. Unexpectedly, the great tit HF also changes seasonally, although in a different pattern: the great tit telencephalon increases in volume from July to August and decreases again in November. Great tit HF volume follows suit, but with a delay. Great tit HF neuron number and density also increase from August to September and stay high throughout winter. We hypothesize that seasonal changes in hoarding birds’ HF are driven by food-hoarding experience (e.g., the formation of thousands of memories). The seasonal changes in great tit brains may also be due to experience-dependent plasticity, responding to changes in the social and spatial environment. Large-scale experience-dependent neural plasticity is therefore probably not an adaptation of food-hoarding birds, but a general property of the avian HF and telencephalon.
Highlights
In food-hoarding Parids, hoarding intensity varies seasonally, typically with a peak in the late summer/autumn and a consistent, but lower intensity period of hoarding throughout winter
We confirm that the hippocampus of foodhoarding Parids changes seasonally in its volume and number of neurons, and that this seasonal change is closely linked to the seasonal changes in food-hoarding intensity
This is consistent with the hypothesis that the increase in hippocampal formation (HF) volume is driven by the intense spatial memory formation associated with high-intensity hoarding
Summary
In food-hoarding Parids (titmice and chickadees), hoarding intensity varies seasonally, typically with a peak in the late summer/autumn and a consistent, but lower intensity period of hoarding throughout winter Hoarding in these birds is essentially non-existent during the breeding season and summer (Brodin, 1994b; Haftorn, 1954, 1956a, 1956b). When studying seasonal changes in particular brain areas, it is important to ascertain that these seasonal changes are specific to the brain area under investigation, and not general changes in the entire brain (or a larger subdivision of the brain) Because almost all these studies are conducted with a between-subject design (individuals need to be killed in order to do histology on the brains), we need to control for individual variation in brain size within species. Used brain areas are the telencephalon, which is the larger brain subdivision
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