Natural variation in #PtoCPK3 governs #drought tolerance by orchestrating #xylem remodeling & #lignin #metabolism in #Populus
www.science.org/doi/abs/10.1...
#PlantSci @science.org @sciplant.bsky.social @plantstress.bsky.social @plantmetabolism.bsky.social @cyi12.bsky.social @plantgene.bsky.social
Natural variation in #PtoCPK3 governs #drought tolerance by orchestrating #xylem remodeling & #lignin #metabolism in #Populus
www.science.org/doi/abs/10.1...
#PlantSci @science.org @sciplant.bsky.social @plantstress.bsky.social @plantmetabolism.bsky.social @cyi12.bsky.social @plantgene.bsky.social
Investigating GERMs: how #genotype, #environment, and #rhizosphere #microbiome interactions underlie #heat response in #maize and #sorghum
nph.onlinelibrary.wiley.com/doi/10.1111/...
#PlantScience @newphyt.bsky.social @plant-sci.bsky.social @plantmicrobiol.bsky.social @poolelaboxford.bsky.social
#Stomata in motion: How #temperature shapes #guard cell function and developmental plasticity
nph.onlinelibrary.wiley.com/doi/full/10....
#PlantSci @newphyt.bsky.social @wileylifesci.bsky.social @stomata-tweets.bsky.social @stomagenesis.bsky.social @plantcellatlas.bsky.social @sciplant.bsky.social
Conserved and divergent #mechanisms by which endoplasmic #reticulum stress reprograms lipid #metabolism in #microalgae
academic.oup.com/jxb/advance-...
#PlantScience #PlantSci @jxbotany.bsky.social @plantscience.bsky.social @sciplant.bsky.social @plantstress.bsky.social @planttreaty.bsky.social
High #temperature leads to a loss of isohydry in #Pinus radiata
academic.oup.com/jxb/advance-...
#PlantScience #PlantStress @jxbotany.bsky.social @sebiology.bsky.social @sciplant.bsky.social @planthealthprog.bsky.social @plant-sci.bsky.social @plantscientist.bsky.social @plantstress.bsky.social
🌱🧬 Melatonin seed priming triggers stress tolerance during germination. A green, climate smart strategy. Pair with nanoformulations, omics or gene editing for more potential.
Challenges remain but the path forward is clear #plantscience @jipb.bsky.social
onlinelibrary.wiley.com/doi/10.1111/...
🌾🌿 Grassland restoration cooled local temps by 0.1°C and increased rain by 11mm. Maize yields rose nearly 8%. Yield gains offset most program costs.
Ecosystem restoration for climate resilient food security. #plantscience @natclimate.nature.com
www.nature.com/articles/s41...
🌾🧬 TaHST2 is a negative regulator of heat tolerance in wheat. It was silenced during domestication through sequence and epigenetic changes. Strong artificial selection favored low TaHST2 expression.
Silencing this gene boosted heat tolerance. #plantscience www.nature.com/articles/s41...
Abstract. The endoplasmic reticulum (ER) is a central hub coordinating protein homeostasis and lipid metabolism in eukaryotic cells. In microalgae, which i
Abstract. Pinus radiata has been characterised as strongly isohydric, which means that it tends to close stomata to maintain leaf water potential relativel
academic.oup.com
Abiotic Stress in Plants
Abiotic Stress in Plants
Abiotic Stress in Plants
Abiotic Stress in Plants
Abiotic Stress in Plants
Abiotic Stress in Plants
Global Plant Science Spotlight
Global Plant Science Spotlight
Global Plant Science Spotlight
Multi-environment high-throughput phenotyping reveals cascading water traits that sustain wheat yield under terminal drought, validating the translation of
The authors assess the impacts of China’s Grassland Ecological Compensation Policy on climate and maize yields. They demonstrate reduced temperature and increased precipitation, which are linked to in...
This review synthesizes how melatonin seed priming preconditions seeds to enhance tolerance against diverse abiotic stresses. It highlights the underlying mechanisms and proposes an integrative roadm...
TaHST2 negatively regulates thermotolerance in wheat as it encodes a ubiquitin hydrolase that represses heat tolerance by stabilizing TaHSC701/702. During domestication, TaHST2 was progressively suppr...
