Add to ORKGGuzmania monostachia (Bromeliaceae) is a tropical epiphyte capable of up-regulating crassulacean acid metabolism (CAM) in its photosynthetic tissues in response to changing nutrient and water availability. Previous studies have shown that under drought there is a gradient of increasing CAM expression from the basal (youngest) to the apical (oldest) portion of the leaves, and additionally that nitrogen deficiency can further increase CAM intensity in the leaf apex of this bromeliad. The present study investigated the inter-relationships between nitrogen source (nitrate and/or ammonium) and water deficit in regulating CAM expression in G. monostachia leaves. The highest CAM activity was observed under ammonium nutrition in combination with wa...
Drought tolerance is a key factor for agriculture in the 21st century as it is a major determinant o...
Among species that perform CAM photosynthesis, members of the genus Kalanchoë have been studied freq...
Portulaca oleracea is a C4 plant; however, under drought it can change its carbon fixation metabolis...
Guzmania monostachia (Bromeliaceae) is a tropical epiphyte capable of up-regulating crassulacean aci...
Most epiphytes are found in low-nutrient environments with an intermittent water supply. To deal wit...
Ao longo dos últimos anos, o metabolismo ácido das crassuláceas (CAM) tem sido bem estudado em espéc...
Leaves comprise most of the vegetative body of tank bromeliads and are usually subjected to strong l...
Physiology and nutritional quality of a facultative CAM plant Mesembryanthemum crystallinum under dr...
Although physiological responses to drought have been examined in several species of epiphytic brome...
We examined the function of CAM in reactive oxygen species (ROS) alleviation using a newly isolated ...
Guzmania monostachia is an epiphytic tank bromeliad that displays the inducible CAM photosynthesis u...
Plants can assimilate nitrogen from soil pools of both ammonium and nitrate, and the relative levels...
Crassulacean acid metabolism (CAM) confers crucial adaptations for plants living under frequent envi...
Ammonium nutrition inhibits the growth of many plant species, including Arabidopsis thaliana. The to...
Plants with crassulacean acid metabolism (CAM) are increasing their abundance in drylands worldwide....
Drought tolerance is a key factor for agriculture in the 21st century as it is a major determinant o...
Among species that perform CAM photosynthesis, members of the genus Kalanchoë have been studied freq...
Portulaca oleracea is a C4 plant; however, under drought it can change its carbon fixation metabolis...
Guzmania monostachia (Bromeliaceae) is a tropical epiphyte capable of up-regulating crassulacean aci...
Most epiphytes are found in low-nutrient environments with an intermittent water supply. To deal wit...
Ao longo dos últimos anos, o metabolismo ácido das crassuláceas (CAM) tem sido bem estudado em espéc...
Leaves comprise most of the vegetative body of tank bromeliads and are usually subjected to strong l...
Physiology and nutritional quality of a facultative CAM plant Mesembryanthemum crystallinum under dr...
Although physiological responses to drought have been examined in several species of epiphytic brome...
We examined the function of CAM in reactive oxygen species (ROS) alleviation using a newly isolated ...
Guzmania monostachia is an epiphytic tank bromeliad that displays the inducible CAM photosynthesis u...
Plants can assimilate nitrogen from soil pools of both ammonium and nitrate, and the relative levels...
Crassulacean acid metabolism (CAM) confers crucial adaptations for plants living under frequent envi...
Ammonium nutrition inhibits the growth of many plant species, including Arabidopsis thaliana. The to...
Plants with crassulacean acid metabolism (CAM) are increasing their abundance in drylands worldwide....
Drought tolerance is a key factor for agriculture in the 21st century as it is a major determinant o...
Among species that perform CAM photosynthesis, members of the genus Kalanchoë have been studied freq...
Portulaca oleracea is a C4 plant; however, under drought it can change its carbon fixation metabolis...