Fiona Koller
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View article: Multi-omic profiles of <i>Sorghum</i> genotypes with contrasting heat tolerance connect pathways related to thermotolerance
Multi-omic profiles of <i>Sorghum</i> genotypes with contrasting heat tolerance connect pathways related to thermotolerance Open
Understanding how crop varieties acclimate to elevated temperatures is key to priming them for future climates. Here, we imposed a 6 d heat shock treatment (reaching 45 °C) on two genotypes of Sorghum bicolor [one sensitive to heat shock (…
View article: Anatomical drivers of stomatal conductance in sorghum lines with different leaf widths grown under different temperatures
Anatomical drivers of stomatal conductance in sorghum lines with different leaf widths grown under different temperatures Open
Sustaining crop productivity and resilience in water‐limited environments and under rising temperatures are matters of concern worldwide. We investigated the leaf anatomical traits that underpin our recently identified link between leaf wi…
View article: Anatomical drivers of stomatal conductance in sorghum lines with different leaf widths grown under different temperatures
Anatomical drivers of stomatal conductance in sorghum lines with different leaf widths grown under different temperatures Open
Summary Improvements in leaf water use efficiency ( iWUE ) can maintain crop productivity in water limited environments under rising temperatures. We investigated the leaf anatomical traits which underpin our recently identified link betwe…
View article: Coordination of stomata and vein patterns with leaf width underpins water use efficiency in a C4 crop
Coordination of stomata and vein patterns with leaf width underpins water use efficiency in a C4 crop Open
Despite its importance for crop productivity in drought-affected environments, the underlying mechanisms of variation in intrinsic water use efficiency (iWUE) are not well understood, especially in C4 plants. Recently, Cano et al. (2019) d…
View article: The transcriptomic responses of C<sub>4</sub> grasses to subambient CO<sub>2</sub> and low light are largely species specific and only refined by photosynthetic subtype
The transcriptomic responses of C<sub>4</sub> grasses to subambient CO<sub>2</sub> and low light are largely species specific and only refined by photosynthetic subtype Open
Summary Three subtypes of C 4 photosynthesis exist (NADP‐ME, NAD‐ME and PEPCK), each known to be beneficial under specific environmental conditions. However, the influence of photosynthetic subtype on transcriptomic plasticity, as well as …