Add to ORKGThe objective of this study was to determine the effect of increasing leaf area index on the photosynthetic temperature response of a wheat canopy. Hard red spring wheat (Triticum aestivum L. cv. Veery-10) was grown hydroponically in a growth chamber, which also served as the gas-exchange chamber. Gas-exchange parameters were measured on single leaves and on wheat canopies at various leaf area indices. The temperature response curves of the canopy shifted from being steeper with a high temperature optimum to being flatter with a lower temperature optimum as leaf area index increased from 0 to 20.0 m2m-2. Single-leaf and canopy measurements show that this shift was primarily a result of increasing respiration from accumulating stems and repr...
Abstract\ud In order to study the canopy, spike and flag leaf temperature in wheat genotypes und...
Plant breeders can select cultivars with physiological traits that confer a growth or yield advanta...
The response of photosynthesis to temperature is a central facet of plant response to climate. Such ...
Plant breeders often examine leaf size, plant height and photosynthetic capacity in an effort to inc...
It is well known that photosynthetic health impacts the overall fitness of the mature plant. This st...
High temperatures account for major wheat yield losses annually and, as the climate continues to war...
Crop models are tools used to predict crop yield in virtual climates. They enable to anticipate the ...
Wheat (Triticum aestivum, L.) plants were exposed to three different levels of phytochrome photoequi...
Photosynthetic acclimation (photoacclimation) is the process whereby leaves alter their morphology a...
Global climate change has been forecast to result in significant alterations to current temperature ...
There is a growing consensus in the literature that rising temperatures influence the rate of biomas...
"This work evaluates the experimental warming effects on phenology and grain yield components of whe...
Perennial grain crops are promoted as an alternative to annual staple crops to reduce negative envir...
Wheat (Triticum aestivum L.) is one of the most important cereal crops in the world. In order to mee...
This study analyses the interannual variability of carbon dioxide fluxes, growth and productivity of...
Abstract\ud In order to study the canopy, spike and flag leaf temperature in wheat genotypes und...
Plant breeders can select cultivars with physiological traits that confer a growth or yield advanta...
The response of photosynthesis to temperature is a central facet of plant response to climate. Such ...
Plant breeders often examine leaf size, plant height and photosynthetic capacity in an effort to inc...
It is well known that photosynthetic health impacts the overall fitness of the mature plant. This st...
High temperatures account for major wheat yield losses annually and, as the climate continues to war...
Crop models are tools used to predict crop yield in virtual climates. They enable to anticipate the ...
Wheat (Triticum aestivum, L.) plants were exposed to three different levels of phytochrome photoequi...
Photosynthetic acclimation (photoacclimation) is the process whereby leaves alter their morphology a...
Global climate change has been forecast to result in significant alterations to current temperature ...
There is a growing consensus in the literature that rising temperatures influence the rate of biomas...
"This work evaluates the experimental warming effects on phenology and grain yield components of whe...
Perennial grain crops are promoted as an alternative to annual staple crops to reduce negative envir...
Wheat (Triticum aestivum L.) is one of the most important cereal crops in the world. In order to mee...
This study analyses the interannual variability of carbon dioxide fluxes, growth and productivity of...
Abstract\ud In order to study the canopy, spike and flag leaf temperature in wheat genotypes und...
Plant breeders can select cultivars with physiological traits that confer a growth or yield advanta...
The response of photosynthesis to temperature is a central facet of plant response to climate. Such ...