Add to ORKGThe Lasthenia californica complex consists of two species, L. californica s.s. and L. gracilis, that include two races differing in flavonoid chemistry and edaphic tolerances. Populations of each race occur in each of the two species and the complex provides an ideal setting in which to examine the evolution of adaptations to soil conditions. Race A plants contain sulfated flavonoids and are found in habitats subjected to ionic stresses. Race C plants lack these sulfated compounds and are restricted to dry yet ionically-benign habitats. Studies described in this thesis show that the races are physiologically differentiated to deal with key environmental variables that are associated with their distinct habitats. Race A is better adapted to ...
Premise of the Study Methods Studies across diverse species have established theory for the contribu...
Studies of ecotypic differentiation in the California Floristic Province have contributed greatly to...
Plants adapted to special soil types are ideal for investigating evolutionary processes, including m...
Members of the Lasthenia californica species complex show extensive ecological and phenotypic divers...
The study of plants growing on unusual geologies has provided much insight into evolutionary biolog...
Transectional studies of Lasthenia californica in the Jasper Ridge Biological Preserve (Stanford Uni...
Our laboratory\u27s study of Lasthenia (Asteraceae) began with an examination of flavonoid profiles ...
Our laboratory’s study of Lasthenia (Asteraceae) began with an examination of flavonoid profiles of ...
Lasthenia californica DC. ex Lindley is an annual, presumably obligate out crossing species and is t...
Two edaphic races of Lasthenia californica sensu Ornduff (races A and C) grow in parapatry on a serp...
• Premise of the study: Divergent edaphic adaptation can contribute to reproductive isolation and co...
Although speciation has been a central focus in evolutionary biology for more than a century, there ...
• Premise of the study: Divergent edaphic adaptation can contribute to reproductive isolation and co...
Although speciation has been a central focus in evolutionary biology for more than a century, there ...
Intraspecific variation providing tolerance to specific edaphic conditions may contribute to populat...
Premise of the Study Methods Studies across diverse species have established theory for the contribu...
Studies of ecotypic differentiation in the California Floristic Province have contributed greatly to...
Plants adapted to special soil types are ideal for investigating evolutionary processes, including m...
Members of the Lasthenia californica species complex show extensive ecological and phenotypic divers...
The study of plants growing on unusual geologies has provided much insight into evolutionary biolog...
Transectional studies of Lasthenia californica in the Jasper Ridge Biological Preserve (Stanford Uni...
Our laboratory\u27s study of Lasthenia (Asteraceae) began with an examination of flavonoid profiles ...
Our laboratory’s study of Lasthenia (Asteraceae) began with an examination of flavonoid profiles of ...
Lasthenia californica DC. ex Lindley is an annual, presumably obligate out crossing species and is t...
Two edaphic races of Lasthenia californica sensu Ornduff (races A and C) grow in parapatry on a serp...
• Premise of the study: Divergent edaphic adaptation can contribute to reproductive isolation and co...
Although speciation has been a central focus in evolutionary biology for more than a century, there ...
• Premise of the study: Divergent edaphic adaptation can contribute to reproductive isolation and co...
Although speciation has been a central focus in evolutionary biology for more than a century, there ...
Intraspecific variation providing tolerance to specific edaphic conditions may contribute to populat...
Premise of the Study Methods Studies across diverse species have established theory for the contribu...
Studies of ecotypic differentiation in the California Floristic Province have contributed greatly to...
Plants adapted to special soil types are ideal for investigating evolutionary processes, including m...