Add to ORKGNitrates may induce alterations in NO-signaling system and change photosynthesis in plants. Significant reduction of 14CO 2 fixation was noted at concentration of 3.96 mM NaNO 3 in an aquatic macrophyte (Typha angustifolia L.). Assimilation of 14CO 2 seven days after the introduction of nitrates did not differ between control and experimental samples. There were changes in distribution of 14C among products of 4CO 2 fixation 4 h after NaNO 3 addition, resulting in increased sugar radioactivity in experimental plants. It was suggested that the observed changes may have regulatory importance. © 2012 by Acta Botanica Croatica, the Faculty of Science, University of Zagreb
The partial pressure of carbon dioxide (CO2) in freshwater ecosystems is likely to be affected by cl...
Vacuum infiltration of inorganic nitrogen ions affected the photosynthetic rate and CO2 compensation...
Impairments in leaf nitrogen (N) assimilation in C3 plants have been identified as processes conditi...
Nitrates may induce alterations in NO-signaling system and change photosynthesis in plants. Signific...
Nitrates may induce alterations in NO-signaling system and change photosynthesisin plants. Significa...
Macrophytes play a significant role in the functioning of hydroecosystems. Their activities include ...
The responses of higher plants to rising carbon dioxide concentration in the atmosphere are strongly...
This article discusses how nitrate assimilation is integrated with nitrate uptake, with ammonium ass...
Although shoot N depletion in plants exposed to elevated [CO] has already been reported on several o...
Nitrate (NO3−) assimilation in perennial grasses occurs predominantly in leaves. A growing body of e...
Carbon (C) and nitrogen (N) metabolism are integrated processes that modulate many aspects of plant ...
Higher rates of nitrate assimilation are required to support faster growth in enhanced carbon dioxid...
Abstract: Under low growth-irradiance and/or excessive nitrogen (N) fertilization, the roots of leaf...
Bloom et al. proposed that rising atmospheric CO₂ concentrations ‘inhibit malate production in chlor...
Carbon (C) and nitrogen (N), among many others, are essential elements for plant metabolism and grow...
The partial pressure of carbon dioxide (CO2) in freshwater ecosystems is likely to be affected by cl...
Vacuum infiltration of inorganic nitrogen ions affected the photosynthetic rate and CO2 compensation...
Impairments in leaf nitrogen (N) assimilation in C3 plants have been identified as processes conditi...
Nitrates may induce alterations in NO-signaling system and change photosynthesis in plants. Signific...
Nitrates may induce alterations in NO-signaling system and change photosynthesisin plants. Significa...
Macrophytes play a significant role in the functioning of hydroecosystems. Their activities include ...
The responses of higher plants to rising carbon dioxide concentration in the atmosphere are strongly...
This article discusses how nitrate assimilation is integrated with nitrate uptake, with ammonium ass...
Although shoot N depletion in plants exposed to elevated [CO] has already been reported on several o...
Nitrate (NO3−) assimilation in perennial grasses occurs predominantly in leaves. A growing body of e...
Carbon (C) and nitrogen (N) metabolism are integrated processes that modulate many aspects of plant ...
Higher rates of nitrate assimilation are required to support faster growth in enhanced carbon dioxid...
Abstract: Under low growth-irradiance and/or excessive nitrogen (N) fertilization, the roots of leaf...
Bloom et al. proposed that rising atmospheric CO₂ concentrations ‘inhibit malate production in chlor...
Carbon (C) and nitrogen (N), among many others, are essential elements for plant metabolism and grow...
The partial pressure of carbon dioxide (CO2) in freshwater ecosystems is likely to be affected by cl...
Vacuum infiltration of inorganic nitrogen ions affected the photosynthetic rate and CO2 compensation...
Impairments in leaf nitrogen (N) assimilation in C3 plants have been identified as processes conditi...