Genetically based body size and shape differences among Drosophila populations from different climatic areas or after natural selection for temperature in the lab are well known. Usually, bigger individuals show larger structures with respect to the smaller ones, but the relationships between adult structures and total body size can significantly vary among populations and/or species. Development in multicellular animals is a process that involves both tight control and flexibility. Little is known about developmental mechanisms that generate allometry and about their relative evolutionary importance. In Drosophila, the discovery that during development cell division within imaginal discs uses borders of clonal restriction as references off...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
Quantitative genetic variation in morphology is pervasive in all species and is the basis for the ev...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
Genetically based body size and shape differences among Drosophila populations from different climat...
The size and shape of organs are characteristic for each species. Even when organisms develop to dif...
Organ shape evolves through cross-generational changes in developmental patterns at cellular and/or ...
To predict the response of complex morphological structures to selection it is necessary to know how...
Inbreeding is expected to increase the variability in size and shape within populations. The distinc...
Artificial selection offers a powerful tool for the exploration of how selection and development sha...
Organismal development is a complex process, involving a vast number of molecular constituents inter...
Proper scaling of morphological traits to body size is necessary for ecological function. Individual...
© 2021 Lobo-Cabrera, Navarro, Iannini, Casares and Cuetos.The size of organs is critical for their f...
The scaling of body parts is a central feature of animal morphology1-7. Within species, morphologica...
Sexual dimorphism is widely viewed as adaptive, reflecting the evolution of males and females toward...
Over the past two decades, fundamental strides in physiology and genetics have allowed us to finally...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
Quantitative genetic variation in morphology is pervasive in all species and is the basis for the ev...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
Genetically based body size and shape differences among Drosophila populations from different climat...
The size and shape of organs are characteristic for each species. Even when organisms develop to dif...
Organ shape evolves through cross-generational changes in developmental patterns at cellular and/or ...
To predict the response of complex morphological structures to selection it is necessary to know how...
Inbreeding is expected to increase the variability in size and shape within populations. The distinc...
Artificial selection offers a powerful tool for the exploration of how selection and development sha...
Organismal development is a complex process, involving a vast number of molecular constituents inter...
Proper scaling of morphological traits to body size is necessary for ecological function. Individual...
© 2021 Lobo-Cabrera, Navarro, Iannini, Casares and Cuetos.The size of organs is critical for their f...
The scaling of body parts is a central feature of animal morphology1-7. Within species, morphologica...
Sexual dimorphism is widely viewed as adaptive, reflecting the evolution of males and females toward...
Over the past two decades, fundamental strides in physiology and genetics have allowed us to finally...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
Quantitative genetic variation in morphology is pervasive in all species and is the basis for the ev...
Both development and evolution under chronic malnutrition lead to reduced adult size in Drosophila. ...
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