Abstract
Migratory strategies dictate stopover ecology, particularly concerning decisions of when, where and how long to stop, and what to do at stationary periods. In birds, individuals stop primarily to replenish energy stores, although the functions of stopover events vary among and within species, particularly between pre- and post-breeding seasons. Here, we combined plasma metabolite levels and haematological parameters to compare refuelling rates and physiological state within (early, mid, late) and between (spring, autumn) migratory periods, aiming to identify potentially different migratory strategies in a shorebird, the dunlin Calidris alpina, using a key stopover site in Iberia. Plasma triglycerides and β-hydroxybutyrate concentrations did not differ between seasons, and small differences were found in haematological profiles (higher haemoglobin and hematocrit levels in spring). Similar refuelling rates and physiological status suggests a single migratory strategy in spring and autumn. During both seasons, dunlins arrive at the Tagus estuary with medium-to-high fuel loads, indicating they do not engage in prolonged fuelling. This agrees with a skipping migratory strategy, where birds fly short-to-medium distances while fuelling at moderate rates along a network of sites. Although we may expect late spring migrants to experience stronger pressures to optimally schedule migratory events, we found no significant differences in physiological profiles among early, mid and late migrants. Unexpectedly, such differences were found in autumn: early birds showed the highest triglycerides and haemoglobin levels and lowest β-hydroxybutyrate concentrations. These results denote enhanced refuelling rates and blood oxygen-carrying capacity in early autumn migrants, which is typical of jumpers, i.e., birds travelling with larger fuel loads and performing fewer stops. Our study adds substantially to previous knowledge of stopover ecology in migratory shorebirds in the East Atlantic Flyway. Importantly, it indicates that the Tagus estuary is a high-quality stopover site for intermediate fuelling. Yet, understanding non-fuelling stopping functions is needed to ultimately inform conservation planning.
Highlights
Seasonal migration has evolved to maximize the survival and reproductive output of animals in response to seasonal or geographic variation of resources, habitats, predators, diseases or competitors [1, 2]
Following the discriminant analysis protocol proposed by Catry et al [43, 44] based on the stable isotope signatures of toenails, 65 of the birds captured during spring were assigned to the wintering population of Mauritania, seven were overwintering birds from the Tagus estuary, and five could not be assigned to any of these two populations
Our results highlight the role of the Tagus estuary as a high-quality stopover site for intermediate fuelling in dunlins during both spring and autumn migrations
Summary
Seasonal migration has evolved to maximize the survival and reproductive output of animals in response to seasonal or geographic variation of resources, habitats, predators, diseases or competitors [1, 2]. Migratory strategies vary widely among and within species and are generally shaped by total migration distance [8] and the selective pressures faced during different seasons, which are mediated by life-cycle stages and environmental conditions [9,10,11,12]. Birds embarking on their pre-breeding migration (hereafter spring migration, for boreal temperate breeders) tend to follow a time-minimization strategy [12]. During spring, late migrants are more time-constrained and more likely to follow a stricter time-minimization strategy in order to optimally schedule migration events
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