Illustration showing a human brain in the background representing biological neural networks, overlaid with an artificial neural network model in the foreground. Input nodes represent combined plant stress factors, such as fungal infection and waterlogging, which are integrated through interconnected layers to predict plant traits. The output highlights predicted plant height, demonstrating how machine learning models can analyze complex stress interactions and their effects on plant growth.

An artificial neural network–based deep learning model to predict combined stress impact and interaction in plants

New in #AppsPlantSci by Piyush Priya, @rimchaudhury15.bsky.social, Senthil-Kumar, et al

doi.org/10.1002/aps3... #botany #deeplearning #machinelearning #plantphenomics #plantstress

Plant Stress | ScienceDirect.com by Elsevier - Plant Stress | ScienceDirect.com by Elsevier Read the latest articles of Plant Stress at ScienceDirect.com, Elsevier’s leading platform of peer-reviewed scholarly literature

Please consider sharing your research with us in our #PlantStress #Special_Issue ✅

Looking forward to your contributions

🖇️ www.sciencedirect.com/special-issu...

@abioticstress.bsky.social @planteditors.bsky.social @botany.one @sebiology.bsky.social @psb-vib.bsky.social @molplantsci.bsky.social👆

Call for papers

A quick update on our #PlantStress #Special_Issue on #Panomics🧬 and #climate-smart crops under combined #stresses🌾

🗓️New submission deadline: June 15

✅We’re now also accepting #Opinion, #Spotlight, and Short #Communication articles

🔗 www.sciencedirect.com/special-issu...

@scinews.bsky.social

Sweet memories…

Yee-yung Charng kicks off the PCP-sponsored symposium on ‘Priming and memory of plants in facing environmental changes’

#JSPPTokyo26

@jspp-news.bsky.social
@academic.oup.com

#memorystress
#PlantStress
#plantabioticstress
#plantscience

Understanding plant resilience by putting photosynthesis and photorespiration in the metabolic context - Planta Main conclusion Photorespiration is a dynamic metabolic process that contributes to energy balance, stress resilience, and nutrient flux, warranting its integration into genome-scale models to enhance...

Understanding plant #resilience by putting #photosynthesis and #photorespiration in the #metabolic context

link.springer.com/article/10.1...

#PlantScience #StressBiology #PlantStress @springernature.com @springer.springernature.com @mejorageneticaupm.bsky.social @photosynthesharpe.bsky.social

Unveiling links between phytohormone and abiotic stress signaling <p>Signal integration is essential for organisms to fine-tune their growth, development, and stress responses. Phytohormones, serving as endogenous signals, play important roles in mediating various p...

Unveiling links between #phytohormone and #abiotic stress signaling

www.maxapress.com/article/doi/...

#PlantScience #StressBiology #PlantStress @maxplanckcampus.bsky.social @maxplanck.de @canopyrobin.com @scottzona.bsky.social @plantricia.bsky.social @plantredox.bsky.social @mrillig.bsky.social

When 1–2 °C matters: climate warming reshapes maize disease and resistance networks This article comments on:Schwarz CG, Hartmann F, Zier C, van der Linde K. 2026. Characterization of the maize–Ustilago maydis interaction in a warming clim

When 1–2 °C matters: #climate warming reshapes #maize disease and #resistance networks

academic.oup.com/jxb/article/...

#PlantScience #SciComm #CropScience #StressBiology #PlantStress #AbioticStress #Agriculture @jxbotany.bsky.social @sebiology.bsky.social @seburbanbotany.bsky.social

A leucine‐rich‐repeat receptor‐like kinase SERL1 phosphorylates and stabilizes OsALDH2B1 to promote alkaline tolerance and grain size in rice The rice aldehyde dehydrogenase OsALDH2B1 enhances grain size and tolerance to alkaline soil by repressing GRAIN SIZE 3 and activating catalases. SERL1-mediated phosphorylation stabilizes OsALDH2B1 u...

A #leucine-rich-repeat receptor-like kinase SERL1 #phosphorylates and stabilizes OsALDH2B1 to promote #alkaline tolerance and #grain size in #rice

onlinelibrary.wiley.com/doi/10.1111/...

#PlantScience #SciComm #CropScience #StressBiology #PlantStress #AbioticStress #Agriculture @jipb.bsky.social

TALE Homeodomain Proteins in Plant Reproductive Development and Environmental Stress Resilience This review provides a comprehensive synthesis of the Three Amino acid Loop Extension (TALE) homeodomain gene family, integrating recent advances in structure, evolution, and mechanism to illuminat...

TALE #Homeodomain #Proteins in Plant #Reproductive Development and #Environmental Stress #Resilience

onlinelibrary.wiley.com/doi/10.1111/...

#PlantScience #CropScience #StressBiology #PlantStress #AbioticStress #Agriculture @plecevo.bsky.social @plantcmb.bsky.social @plantenergy.bsky.social

From growth potential to drought survival: a trait‐ and time‐based framework for plant water economics across vascular species A framework of traits and strategies for drought adaptation is critical for understanding the effects of climate change on natural and cultivated plant communities. The ‘growth potential – stress sur...

From #growth potential to #drought survival: a trait- and time-based framework for plant water #economics across #vascular species

nph.onlinelibrary.wiley.com/doi/10.1111/...

#PlantScience #CropScience #StressBiology #PlantStress #AbioticStress #Agriculture @newphyt.bsky.social @nybg.bsky.social

Integrating Physiological, Molecular, and Epigenetic Strategies for Drought–resilient Crops Drought is one of the most pressing environmental threats to global crop production, with its frequency and intensity escalating under climate change. To withstand water scarcity, plants deploy a s...

​Integrating Physiological, #Molecular, and #Epigenetic Strategies for #Drought–resilient Crops

www.tandfonline.com/doi/full/10....

#PlantScience #SciCom #CropScience #StressBiology #PlantStress #AbioticStress #Agriculture @tandfresearch.bsky.social @epigeneticspod.bsky.social

#GrassResearch
🌿 Exogenous amino acids (Pro/GABA/glycine betaine) boost grass drought/heat tolerance via multiple regulatory pathways.
Details: maxapress.com/article/doi/10.48130/gra...
#PlantStress #AminoAcidMetabolism

We are Hiring a Research Technician!
Join the Lee Lab at WV State University for plant stress adaptation research.
To apply:
rdemployment@wvstateu.edu

Full Description: drive.google.com/file/d/1TPrV...

#CropScience #ResearchJob #PlantStress #ResearchTechnicia

F‐Box Protein‐Mediated Proteolytic Regulation of Phenylpropanoid Metabolism in Response to Biotic and Abiotic Stresses Phenylpropanoid metabolism is essential for stress resilience. This review highlights F-box protein-mediated ubiquitin proteolysis as a key mechanism integrating developmental and environmental cues ...

FBox #Protein-Mediated #Proteolytic Regulation of #Phenylpropanoid Metabolism in Response to #Biotic & #Abiotic Stresses

onlinelibrary.wiley.com/doi/10.1111/...

#PlantScience #SciComm #PlantStress @plantcmb.bsky.social @wileylifesci.bsky.social @wileyecology.bsky.social @mpi-metabolism.bsky.social

Root-to-shoot signaling in plant adaptation to soil salinity This work provides a comprehensive summary of the current knowledge of root-borne long-distance signals that propagate through the plant and coordinate who

#Root-to-shoot signaling in plant adaptation to soil #salinity

academic.oup.com/jxb/article/...

#PlantScience #PlantStress @thegsbi.bsky.social @jxbotany.bsky.social @sebiology.bsky.social @esmmicrobes.bsky.social @martinebotany.bsky.social @gfz.bsky.social @root-shoot.bsky.social @rootsaction.org

Review of Amino Acid Foliar Application as a Stress Mitigation Strategy: Unraveling the Protective Mechanisms Against Abiotic Stress The foliar application of amino acids offers a promising strategy to mitigate multiple abiotic stresses—drought, salinity, heat and heavy metals—by enhancing plant physiological, biochemical and mole...

Review of #AminoAcid Foliar Application as a Stress #Mitigation Strategy: Unraveling the Protective #Mechanisms Against #Abiotic Stress

onlinelibrary.wiley.com/doi/10.1002/...

#PlantScience #PlantStress @martinebotany.bsky.social @polyamines.bsky.social @plantnerd.bsky.social @ceplas.bsky.social

Microbial communities in semi-mature oak trees are resilient to drought, nutrient limitation, and pathogen challenge Hussain et al. show that microbial communities associated with semi-mature oak trees are surprisingly resilient to rain exclusion, ring-barking, and early acute oak decline symptom development. Despit...

#Microbial communities in semi-mature #oak trees are resilient to #drought, #nutrient limitation, and #pathogen challenge

www.cell.com/cell-host-mi...

#PlantScience #PlantStress @cp-cellhostmicrobe.bsky.social @cellpress.bsky.social @plant-pathogens.bsky.social @quesadalabncsu.bsky.social

Recent Advances in Understanding the Roles of PPR Proteins in Plant’s Responses to Biotic and Abiotic Stresses Pentatricopeptide repeat (PPR) proteins, one of the largest families of RNA-binding proteins in higher plants, play essential roles in the post-transc…

Recent Advances in Understanding the Roles of PPR #Proteins in Plant’s Responses to #Biotic & #Abiotic Stress

www.sciencedirect.com/science/arti...

#PlantScience #PlantStress #StressTolerance @official-smbe.bsky.social @sustainable-plants.bsky.social @saps-news.bsky.social @efsa-plants.bsky.social

How state transitions balance photosynthetic electron transport in plants – a quantitative study In plants, the process of state transition regulates the allocation of sunlight energy between Photosystem II (PSII) and PSI. However, the implications of state transitions for harmonizing electron .....

How state transitions balance #photosynthetic electron transport in plants – a quantitative study

nph.onlinelibrary.wiley.com/doi/10.1111/...

#PlantScience #PlantStress @newphyt.bsky.social @wileylifesci.bsky.social @wileyecology.bsky.social @sheffieldpps.bsky.social @photosynthesis66.bsky.social

Cell-to-cell connectivity: a future target for crop improvement This review explores plasmodesmata-mediated cell-to-cell connectivity as a key target for crop improvement. We list gene targets and propose genetic strate

#Cell-to-cell connectivity: a future target for #crop improvement

academic.oup.com/jxb/article/...

#PlantScience #PlantStress @jxbotany.bsky.social @sebiology.bsky.social @plantcellphysiol.bsky.social @plantcelltech.bsky.social @plantcellatlas.bsky.social @cropxr.bsky.social @mcropper.bsky.social

Stomata in-sight: Integrating live confocal microscopy with leaf gas exchange and environmental control The development of a tool to simultaneously measure stomatal conductance and aperture enables investigation into the role of stomatal anatomy in controllin

#Stomata in-sight: Integrating live #confocal microscopy with #leaf gas exchange and #environmental control

academic.oup.com/plphys/artic...

#PlantStress @plantphys.bsky.social @aspbofficial.bsky.social #PlantScience @stomagenesis.bsky.social @stomatasky.bsky.social @royalmicrosoc.bsky.social

Inferring hypoxia-responsive regulators of cell fate in plant meristems through single-cell transcriptomics - npj Science of Plants npj Science of Plants - Inferring hypoxia-responsive regulators of cell fate in plant meristems through single-cell transcriptomics

Inferring #hypoxia-responsive regulators of cell fate in plant #meristems through #single-cell #transcriptomics

www.nature.com/articles/s44...

#PlantScience #PlantStress @theplantlab.bsky.social @hartman-plantlab.com @rootscientists.bsky.social @cyi12.bsky.social @isplore.bsky.social @nature.com

Actual footage of my plants trying to escape the growth chambers after I stress them. 🌱🌡️ #PlantScience #PlantStress

Exploring abiotic stress resilience module for molecular design in rice

Exploring #abiotic stress resilience module for #molecular design in #rice

www.sciencedirect.com/science/arti...

#PlantStress @elsevierconnect.bsky.social @researcheracad.bsky.social @oryzasativum.bsky.social @sse-evolution.bsky.social @albertvilella.bsky.social @molplantsci.bsky.social

Welcome to our new hub for plant stress science!

We’re here to feature and discuss the latest on how plants cope with drought, temperature, metals, and other abiotic challenges.

Got relevant work? Tag us!

#PlantStress @planteditors.bsky.social @plantteaching.bsky.social @isplore.bsky.social

📘 Most cited PlantEcophys paper in 2025📈

by @dmarquez.bsky.social, @annaagardner.bsky.social, and @florianabusch.bsky.social

#plantstress | #cuticularconductance | #stomatalpatchiness | #unsaturation | #abaxial | #adaxial | #leafgasexchange

The 'Hell-Plant' of Death Valley offers hope to a hotter world We humans are a delicate bunch. We don’t have bark, boney exo-plates, or lush fur to protect us from hostile environments, so we have to steal what other creatures produce just to survive in regions a...

"Tidestromia oblongifolia took only two days to increase its photosynthetic capacity to produce energy and thrive in extreme heat, and by day 14 reached its ideal photosynthetic temperature of 45 °C (113 °F)"

#PlantScience #PlantStress #ClimateChange

Original paper: www.cell.com/current-biol...

Promotional graphic for Annals of Botany reading “Root Stress Week!” with a thank-you message, featuring the Annals of Botany logo on a black background and a colorful fluorescent microscopy image of a plant root cross-section showing red, green, and yellow tissues.

🌱 Thank you to everyone who joined us for #RootStressWeek!

We hope this week brought new perspectives on root science and stimulated discussion around root responses to stress. We truly appreciate your engagement. 💚

#RootBiology #PlantStress #RootPhysiology #PlantScience

As trees grow older, they adjust how their roots explore the soil, shifting toward more efficient resource uptake, while their dependence on fungal partners remains largely unchanged. This shows that root strategies change naturally with age and that trees in mixed-age forests respond differently than those growing in uniform stands.

🌱⚡🔬#RootStressWeek

Tree age affects key fine root morphological traits but does not interfere strongly with (ecto-)mycorrhizal traits by Yu Qin and co-authors in @annbot.bsky.social

#freeaccess article
👉 doi.org/qj59

#RootBiology #PlantStress #RootPhysiology #PlantScience

🌱⚡🔬#RootStressWeek

Roots go through rapid hydraulic recovery following moderate water stress by Feng-Ping Li and co-authors in @annbot.bsky.social

#freeaccess article
👉 doi.org/qj57

#RootBiology #PlantStress #RootPhysiology #PlantScience