However, the changes in soybean photosynthesis under such light alternations in relay intercropping are poorly understood. This study compared the photosynthetic acclimation of two soybean varieties with
To test whether a yield increase could be achieved in a major agronomical crop, we introduced the VPZ construct into soybean [Glycine max (Gm)]. In terms of total global production,
To investigate photosynthetic acclimation to such FL conditions, we compared the shade-tolerant cultivar ND12 and the shade-sensitive cultivar GX7. Plants were grown under either constant
Phosphorus deficiency mainly limits the response of stomatal conductance of soybean leaves to light induction under strip compound planting, resulting in a decrease in photosynthetic efficiency and yield.
Soybeans lose as much as 13% of their productivity because they can''t adjust quickly enough to changes in light intensity that are standard in crop fields, says Yu Wang, a postdoctoral
The main objective was not to quantify changes in yield potential based on specific levels of solar radiation but rather to understand which growth stages in corn and soybeans are most impacted by
Correlation analyses revealed that the decline in carbon assimilation under FL primarily stemmed from two factors: the slow recovery of stomatal conductance upon transition to high light
The efficiency with which soybeans convert sunlight into useful energy is influenced by several factors, including plant architecture, the angle of light interception, and environmental
Increased planting density enhanced the light fluctuation frequency and reduced the duration of daily high light, as well as the light-saturated photosynthetic rate, biomass, and yield per...
Manipulating light intensity using reflective mylar tended to have a minimal or negative effect on yield in both corn and soybeans. Any benefits from increased light in the lower canopy were likely negated
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