18304211b2d94cf79fff434bec93db0e46e97d0b29284a53a669738d34506101561bb54df3644c708e707bec0ba120b8627e8572b53a423eaf0ab8be155af72c7c694bb36d604d1486ae9c3a6a0d061d98a3e0025e5549f9898e2459b3dfe6969c0af4774d924c25ad61ae8412259eb7b436018b34c04c8187dfcf514d6eee90e6807cbf3bf54f0db6fb07d339a4fe8fe8a6b7f59d2e4979be56b4f70ef0eb8ded2bd22b272f4af3ac9349ef3e98d36f
agent
Phenological mismatch affects individual fitness and population growth in the winter mothTiming of increased temperature sensitivity coincides with nervous system development in winter moth embryosTranscriptional regulation underlying the temperature response of embryonic development rate in the winter mothBacterial Communities Differ among Drosophila melanogaster Populations and Affect Host Resistance against ParasitoidsFitness consequences of timing asynchrony at the individual and population level in the winter mothWinter moth (Operophtera brumata) adaptation to climate change: plasticity in embryonic response to temperature.Genomic basis of rapid adaptation to climate change in the winter mothTowards evolutionary predictionsAbsence of Complementary Sex Determination in the Parasitoid Wasp Genus Asobara (Hymenoptera: Braconidae)
author
type
label
Bregje Wertheim