The MdOST1-MdCNGC1C-MdCaM7.1 module fine-tunes cold-induced calcium signaling in apple A regulatory mechanism involving calcium signaling mediates cold stress responses in apple plants.

The #MdOST1-MdCNGC1C-MdCaM7.1 module fine-tunes #cold-induced #calcium signaling in #apple

academic.oup.com/plcell/artic...

#PlantScience @theplantcell.bsky.social @aspbofficial.bsky.social @plantteaching.bsky.social @plantnet.bsky.social @planttreaty.bsky.social @ashs-hort.bsky.social

Insights into plant abiotic stress physiology through conventional and nonconventional approaches - Discover Agriculture Abiotic stresses are among the most significant constraints on global crop productivity, adversely affecting plant growth, physiological performance, and yield stability. Environmental stresses such a...

Insights into plant #abiotic stress #physiology through #conventional and nonconventional #approaches

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

#PlantScience #StressBiology @discovernature2025.bsky.social @plantredox.bsky.social @springer.springernature.com @springernature.com @plantphysiolupv.bsky.social

Journal of Agronomy and Crop Science Call for Papers Unraveling Physiological Adaptations in Crops: Innovative Mitigation Strategies for Abiotic Stress Resilience Journal of Agronomy and Crop Science is an agricultural journal analysing the impact of abiotic stress and climate change on crop performance.

Call for Papers
Unraveling #Physiological Adaptations in #Crops: Innovative #Mitigation Strategies for #Abiotic Stress #Resilience

Deadline: 30 September 2026

onlinelibrary.wiley.com/page/journal...

#PlantScience @wileylifesci.bsky.social @grassrootsag.bsky.social @funcagroeco.bsky.social

Navigating Climate Change: Exploring the Dynamics Between Plant–Soil Microbiomes and Their Impact on Plant Growth and Productivity This article presents a comprehensive analysis of the impact of climate change on the interactions between plant and soil microbiomes, highlighting their essential role in agricultural productivity. ...

Navigating #Climate Change: Exploring the Dynamics Between Plant– #Soil #Microbiomes and Their Impact on Plant #Growth and #Productivity

doi.org/10.1111/gcb....

#PlantScience #SciComm @globalchangebio.bsky.social @soilmicrobio.bsky.social @soilmicroecol.bsky.social @soilmicrocanada.bsky.social

Plant resilience to abiotic stresses: revealing the role of silicon in drought and metal(loid) tolerance Silicon plays a crucial role in enhancing plant resilience against abiotic stresses through modulation of physiological and molecular responses, particular

Plant #resilience to #abiotic stresses: revealing the role of #silicon in #drought and #metal(loid) tolerance

academic.oup.com/jxb/advance-...

#PlantScience @jxbotany.bsky.social @plantreproevo.bsky.social @droughtnet.bsky.social @tppajournal.bsky.social @jcb.org @plantbiology.bsky.social

Exploring the role of DNA damage response in seed priming to uncover key players for multi-stress tolerance We highlight the potentialities of harnessing the seed DNA damage response throughout priming to obtain new climate-ready crops.

Exploring the role of #DNA damage response in #seed priming to uncover key players for #multi-stress tolerance

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

#PlantScience @jxbotany.bsky.social @sebiology.bsky.social @seedbarrett.bsky.social @seedpods.bsky.social @dnadazdin.bsky.social @seedscience.bsky.social

🍅 Happy #TomatoTuesday from @nature.com Nature Genetics! #PlantScience 🍅

The potential of wheat spatial omics - Nature Genetics This study highlights the Wheat Spatial Omics Consortium, which aims to build a spatiotemporal single-cell atlas of wheat in response to different treatments, thereby contributing to the development o...

The potential of #wheat #spatial #omics

www.nature.com/articles/s41...

#PlantScience @natgenet.nature.com @natplants.nature.com @wheatinitiative.bsky.social @wheatbiology.bsky.social @triticumaestivum.bsky.social @techspatiales.bsky.social @singlecellbeyblade.bsky.social @cellbionews.bsky.social

Redox–calcium crosstalk in plants: proposed regulatory roles for nitric oxide and hydrogen sulfide in CBL–CIPK-mediated stress responses Calcium (Ca2+) signaling governs plant responses to abiotic stress; however, its integration with redox regulation remains unclear. In this review, we propose that thiol-based oxidative post-translati...

#Redox–calcium crosstalk in plants: proposed regulatory roles for #nitric oxide and #hydrogen sulfide in #CBL–CIPK-mediated #stress responses

www.cell.com/trends/plant...

#PlantScience #StressBiology #Redox @cp-trendsplantsci.bsky.social @cellpress.bsky.social @plantscientist.bsky.social

A tomato telomere-to-telomere super-pangenome empowers stress resilience breeding - Nature Genetics A genus-wide super-pangenome across 16 tomato species generated by integrating 20 telomere-to-telomere genome assemblies and 27 published genomes identifies structural variants associated with salinit...

A tomato #telomere-to-telomere #super-pangenome empowers stress #resilience #breeding

www.nature.com/articles/s41...

#PlantScience #StressBiology #Genomics @natgenet.nature.com @tomatotri.bsky.social @pangenomics.bsky.social @plecevo.bsky.social @plantgenomics.bsky.social @pgrp2026.bsky.social

First Tetraploa Genome and Multi‐Omics Analysis Reveal Key Plant‐Microbe‐Soil Interactions for Salt Tolerance and Yield Improvement of Wheat Salinity is a major threat to global agricultural productivity of staple crops such as wheat. Although microbial-based solutions hold promise for alleviating salinity stress, practical implementation...

First Tetraploa #Genome and #Multi-Omics Analysis Reveal Key Plant- #Microbe-Soil Interactions for #Salt Tolerance and #Yield Improvement of #Wheat

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

#PlantScience #StressBiology @plantbiotechj.bsky.social @sebiology.bsky.social @wileylifesci.bsky.social

Strigolactones as Integrative Regulators of Plant Adaptation and Resilience to Abiotic Stress Strigolactones function as central modulators of plant hormonal and stress signalling networks, orchestrating growth, developmental processes and adaptive responses under abiotic stress. Their biosyn....

#Strigolactones as Integrative Regulators of Plant #Adaptation and Resilience to #Abiotic Stress

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

#PlantScience @plantcellphysiol.bsky.social @plecevo.bsky.social @plantphysiolupv.bsky.social @sarracropmodels.bsky.social @ensa-research.bsky.social

Salinity tolerance in wheat: rethinking the targets Abstract. Wheat is a major staple food in the human diet, but its production under current climate scenarios is problematic given the predicted extent of l

#Salinity tolerance in #wheat: rethinking the targets

academic.oup.com/jxb/advance-...

#PlantScience #StressBiology @jxbotany.bsky.social @sebiology.bsky.social @annewheaton.bsky.social @wheatbeltwendy.bsky.social @triticum.bsky.social @wheatbiology.bsky.social @wheatgenome.bsky.social

Seven plant capacities to adapt to abiotic stress This review presents seven inherent plant capacities that are essential for reproductive success during the stresses of drought, salinity, flooding, temper

Seven #plant capacities to #adapt to #abiotic stress

academic.oup.com/jxb/advance-...

#PlantScience #StressBiology @jxbotany.bsky.social @sebiology.bsky.social @asps-oz.bsky.social @biology.ox.ac.uk @molbiosystems.bsky.social @plecevo.bsky.social @arccoesb.bsky.social @danielbolnick.bsky.social

Cereal protein biofortification at the interface of nutrition, yield and sustainability - Nature Plants Cereal protein biofortification can improve nutrition while maintaining yield and lowering environmental impact. This Review shows how genetics and breeding can enhance protein quality in staple cerea...

#Cereal protein #biofortification at the interface of #nutrition, #yield and #sustainability

www.nature.com/articles/s41...

#PlantScience @natplants.nature.com @cerealcommas.bsky.social @mpi-cbg.de @maxplanck.de @biofortified.bsky.social @sarracropmodels.bsky.social @mcropper.bsky.social

DNA methylation contributes to plant acclimation to naturally fluctuating light Plants in the natural environment experience continuous dynamic changes in light intensity. Here, we exposed Arabidopsis thaliana plants to naturally fluctuating light (FL) regimes alongside tradi...

#DNA #methylation contributes to plant #acclimation to naturally fluctuating #light

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

#PlantScience @newphyt.bsky.social @jcellsci.bsky.social @methylation-mark.bsky.social @mpi-ie.bsky.social @epigeneticspod.bsky.social @epigenetichulk.bsky.social

Breeding for multi‐stress resilience in crops: Myth or possibility? Climate change threatens millions of farmers worldwide by exposing crops to multiple concurrent or sequential environmental stresses such as drought, heat, waterlogging, and diseases. Although crops ...

#Breeding for #multi‐stress resilience in #crops: Myth or possibility?

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

#PlantScience #StressBiology @plantspeopleplanet.bsky.social @newphyt.bsky.social @tppajournal.bsky.social @plantbiomax.bsky.social @jplantgeneticbreed.bsky.social @ukrbbp.bsky.social

Diversity-triggered 2-naphthoic acid exudation recruits keystone microbial taxa to promote soybean drought tolerance Chen et al. demonstrate that high rhizosphere microbial diversity triggers soybean roots to exude 2-naphthoic acid under drought stress, selectively recruiting the beneficial bacterium Sinorhizobium s...

#Diversity-triggered 2-naphthoic acid exudation recruits keystone #microbial taxa to promote #soybean #drought tolera

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

#PlantScience @cp-cellhostmicrobe.bsky.social @microbioblog.bsky.social @tischlerlab.bsky.social @localmicrobes.bsky.social @plantmicrobiol.bsky.social

Phytoglobin 1 in plant hypoxia acclimation and development: Integrating oxygen sensing, NO homeostasis and redox balance Abstract. Hypoxia is integral to the plant life cycle, occurring during both development and environmental stresses like flooding. The class I phytoglobins

#Phytoglobin 1 in plant #hypoxia acclimation and development: Integrating #oxygen sensing, #NO #homeostasis and #redox balance

academic.oup.com/jxb/advance-...

#PlantScience #SciComm @rsasidharan.bsky.social @jxbotany.bsky.social @hartman-plantlab.com @isplore.bsky.social @plantredox.bsky.social

Insights into plant abiotic stress physiology through conventional and nonconventional approaches - Discover Agriculture Abiotic stresses are among the most significant constraints on global crop productivity, adversely affecting plant growth, physiological performance, and yield stability. Environmental stresses such a...

Insights into plant #abiotic stress #physiology through #conventional and nonconventional #approaches

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

#PlantScience #StressBiology @discovernature2025.bsky.social @plantredox.bsky.social @springer.springernature.com @springernature.com @plantphysiolupv.bsky.social

Journal of Agronomy and Crop Science Call for Papers Unraveling Physiological Adaptations in Crops: Innovative Mitigation Strategies for Abiotic Stress Resilience Journal of Agronomy and Crop Science is an agricultural journal analysing the impact of abiotic stress and climate change on crop performance.

Call for Papers
Unraveling #Physiological Adaptations in #Crops: Innovative #Mitigation Strategies for #Abiotic Stress #Resilience

Deadline: 30 September 2026

onlinelibrary.wiley.com/page/journal...

#PlantScience @wileylifesci.bsky.social @grassrootsag.bsky.social @funcagroeco.bsky.social

Navigating Climate Change: Exploring the Dynamics Between Plant–Soil Microbiomes and Their Impact on Plant Growth and Productivity This article presents a comprehensive analysis of the impact of climate change on the interactions between plant and soil microbiomes, highlighting their essential role in agricultural productivity. ...

Navigating #Climate Change: Exploring the Dynamics Between Plant– #Soil #Microbiomes and Their Impact on Plant #Growth and #Productivity

doi.org/10.1111/gcb....

#PlantScience #SciComm @globalchangebio.bsky.social @soilmicrobio.bsky.social @soilmicroecol.bsky.social @soilmicrocanada.bsky.social

Plant resilience to abiotic stresses: revealing the role of silicon in drought and metal(loid) tolerance Silicon plays a crucial role in enhancing plant resilience against abiotic stresses through modulation of physiological and molecular responses, particular

Plant #resilience to #abiotic stresses: revealing the role of #silicon in #drought and #metal(loid) tolerance

academic.oup.com/jxb/advance-...

#PlantScience @jxbotany.bsky.social @plantreproevo.bsky.social @droughtnet.bsky.social @tppajournal.bsky.social @jcb.org @plantbiology.bsky.social

This review explores the potential of an integrated omics-driven approach to understanding how plants adapt and tolerate extreme temperatures. By leveraging cutting-edge omics methods, including genomics, transcriptomics, proteomics, metabolomics, miRNAomics, epigenomics, phenomics, and ionomics, alongside the power of machine learning and speed breeding data, we can revolutionize plant breeding practices. These advanced techniques offer a promising pathway to developing climate-proof plant varieties that can withstand temperature fluctuations, addressing the increasing global demand for high-quality food in the face of a changing climate.

Wow🤩Our article "𝙏𝙚𝙢𝙥𝙚𝙧𝙖𝙩𝙪𝙧𝙚❄️🔥-𝙨𝙢𝙖𝙧𝙩 𝙥𝙡𝙖𝙣𝙩𝙨🌾: 𝘼 𝙣𝙚𝙬 𝙝𝙤𝙧𝙞𝙯𝙤𝙣 𝙬𝙞𝙩𝙝 𝙤𝙢𝙞𝙘𝙨🧬-𝙙𝙧𝙞𝙫𝙚𝙣 𝙥𝙡𝙖𝙣𝙩 𝙗𝙧𝙚𝙚𝙙𝙞𝙣𝙜" is #recognized as #TopCitedArticle in @pplplantarum.bsky.social 😍🎉

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

Congrats to all co-authors🦾👏

@wileylifesci.bsky.social @abioticstress.bsky.social

The potential of wheat spatial omics - Nature Genetics This study highlights the Wheat Spatial Omics Consortium, which aims to build a spatiotemporal single-cell atlas of wheat in response to different treatments, thereby contributing to the development o...

The potential of #wheat #spatial #omics

www.nature.com/articles/s41...

#PlantScience @natgenet.nature.com @natplants.nature.com @wheatinitiative.bsky.social @wheatbiology.bsky.social @triticumaestivum.bsky.social @techspatiales.bsky.social @singlecellbeyblade.bsky.social @cellbionews.bsky.social

Phytoglobin 1 in plant hypoxia acclimation and development: Integrating oxygen sensing, NO homeostasis and redox balance Abstract. Hypoxia is integral to the plant life cycle, occurring during both development and environmental stresses like flooding. The class I phytoglobins

#Phytoglobin 1 in plant #hypoxia acclimation and development: Integrating #oxygen sensing, #NO #homeostasis and #redox balance

academic.oup.com/jxb/advance-...

#PlantScience #SciComm @rsasidharan.bsky.social @jxbotany.bsky.social @hartman-plantlab.com @isplore.bsky.social @plantredox.bsky.social

Diversity-triggered 2-naphthoic acid exudation recruits keystone microbial taxa to promote soybean drought tolerance Chen et al. demonstrate that high rhizosphere microbial diversity triggers soybean roots to exude 2-naphthoic acid under drought stress, selectively recruiting the beneficial bacterium Sinorhizobium s...

#Diversity-triggered 2-naphthoic acid exudation recruits keystone #microbial taxa to promote #soybean #drought tolera

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

#PlantScience @cp-cellhostmicrobe.bsky.social @microbioblog.bsky.social @tischlerlab.bsky.social @localmicrobes.bsky.social @plantmicrobiol.bsky.social

Exploring the role of DNA damage response in seed priming to uncover key players for multi-stress tolerance We highlight the potentialities of harnessing the seed DNA damage response throughout priming to obtain new climate-ready crops.

Exploring the role of #DNA damage response in #seed priming to uncover key players for #multi-stress tolerance

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

#PlantScience @jxbotany.bsky.social @sebiology.bsky.social @seedbarrett.bsky.social @seedpods.bsky.social @dnadazdin.bsky.social @seedscience.bsky.social

Breeding for multi‐stress resilience in crops: Myth or possibility? Climate change threatens millions of farmers worldwide by exposing crops to multiple concurrent or sequential environmental stresses such as drought, heat, waterlogging, and diseases. Although crops ...

#Breeding for #multi‐stress resilience in #crops: Myth or possibility?

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

#PlantScience #StressBiology @plantspeopleplanet.bsky.social @newphyt.bsky.social @tppajournal.bsky.social @plantbiomax.bsky.social @jplantgeneticbreed.bsky.social @ukrbbp.bsky.social

DNA methylation contributes to plant acclimation to naturally fluctuating light Plants in the natural environment experience continuous dynamic changes in light intensity. Here, we exposed Arabidopsis thaliana plants to naturally fluctuating light (FL) regimes alongside tradi...

#DNA #methylation contributes to plant #acclimation to naturally fluctuating #light

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

#PlantScience @newphyt.bsky.social @jcellsci.bsky.social @methylation-mark.bsky.social @mpi-ie.bsky.social @epigeneticspod.bsky.social @epigenetichulk.bsky.social