Abstract
1. Annual insects are predicted to grow larger where the growing season is longer. However, transitions from one to two generations per year can occur when the season becomes sufficiently long, and are predicted to result in a sharp decrease in body size because available development time is halved. The potential for resulting saw‐tooth clines has been investigated only in solitary taxa with free‐living larvae.2. Size clines were investigated in two socially polymorphic sweat bees (Halictidae): transitions between solitary and social nesting occur along gradients of increasing season length, characterised by the absence or presence of workers and offspring that are individually mass provisioned by adults. How the body size changes with season length was examined, and whether transitions in social phenotype generate saw‐tooth size clines. We measured Lasioglossum calceatum and Halictus rubicundus nest foundresses originating from more than 1000 km of latitude, encompassing the transition between social and solitary nesting.3. Using satellite‐collected temperature data to estimate season length, it was shown that both species were largest where the season was longest. Body size increased linearly with season length in L. calceatum and non‐linearly in H. rubicundus but the existence of saw‐tooth clines was not supported.4. The present results suggest that because the amount of food consumed by offspring during development is determined by adults, environmental and social influences on the provisioning strategies of adult bees may be more important factors than available feeding time in determining offspring body size in socially polymorphic sweat bees.
Highlights
Intraspecific geographic variation in life history traits is common in many taxa (Roff, 1992; Stearns, 1992), and spatial variation in body size has received considerable research attention for more than 150 years (Blanckenhorn & Demont, 2004)
The head width for 487 L. calceatum and 313 H. rubicundus foundresses was measured
The head width increased significantly with increasing season length in both L. calceatum and H. rubicundus, supporting previous work suggesting that sweat bees follow converse-Bergmann clines (CBCs)
Summary
Intraspecific geographic variation in life history traits is common in many taxa (Roff, 1992; Stearns, 1992), and spatial variation in body size has received considerable research attention for more than 150 years (Blanckenhorn & Demont, 2004). Body size frequently varies either positively or negatively with latitude and altitude (Chown & Gaston, 2010; Shelomi, 2011). Annual insects with long generation times can exhibit CBCs if a larger body size can be attained only by prolonging growth (Chown & Gaston, 1999; Blanckenhorn & Demont, 2004). Species with many generations per year in which growth is not limited by season length can exhibit BCs, either because it is adaptive or as a consequence of temperature-mediated physiological processes (see Blanckenhorn & Demont, 2004 and references therein)
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