#TansleyReview : Molecular membrane separation โ plants inspire new technologies
๐ ow.ly/zYqq50N73L0
#TansleyReview : Linking resource- and disturbance-based models to explain treeโgrass coexistence in savannas
Ricardo M. Holdo and Jesse B. Nippert
๐ ow.ly/ekCs50MV8K1
#TansleyReview : Development and #evolution of the #Asteraceae capitulum
Teng Zhang | ๅผ ่
พ ๐ฆ and @elomaapaula
๐ ow.ly/hbT250QJp4e
#TansleyReview : Plasmodesmata and intercellular molecular traffic control
Estee E. Tee and Christine Faulkner
๐ ow.ly/Apgu50S8BLT
#LatestIssue Wiley Plant Science John Innes Centre
Deepening our understanding of plant water transport is crucial to deciphering their resilience to environmental stress factors such as:
#drought ๐
#fire ๐ฅ
#diseases ๐ชฒ
๐ฐ+ details in our #TansleyReview in New Phytologist
๐
nph.onlinelibrary.wiley.com/doi/10.1111/npโฆ
#PlantEcophys #PlantSci
#TansleyReview The #mycorrhizal symbiosis: research frontiers in genomics, ecology, and agricultural application
Martin & van der Heijden
Francis M. Martin van der Heijden Lab
๐ ow.ly/t9V950QwO2B
#TansleyReview Development and evolution of the Asteraceae capitulum
Zhang & Elomaa Paula Elomaa ๐ซ๐ฎ๐บ๐ฆ Teng Zhang | ๅผ ่
พ ๐ฆ
๐ ow.ly/z5Uf50QCyEL
#TansleyReview : Plant hydraulics at the heart of plant, crops and ecosystem functions in the face of climate change
Josรฉ M. Torres-Ruiz et al.
๐ ow.ly/9LOY50QpQqO
Wiley Plant Science
#TansleyReview : Plant chromosome engineering โ past, present and future
Holger Puchta and Andreas Houben
๐ ow.ly/1vjI50QkHPU
Wiley Plant Science
#TansleyReview : Linking the key physiological functions of essential #micronutrients to their deficiency symptoms in plants
Grmay H. Lilay et al.
๐ ow.ly/8ali50Re3Ju
#TansleyReview Impact of changing #climate on #bryophyte contributions to terrestrial water, carbon, and nitrogen cycles
Slate et al.
๐ ow.ly/xStP50RnVOw
#TansleyReview : Tree water uptake patterns across the globe
Christoph Bachofen, et al.
๐ ow.ly/WYk150Rzua4
#LatestIssue Wiley Plant Science @wileyecolevol
#TansleyReview : Impact of changing climate on #bryophyte contributions to terrestrial water, carbon, and #nitrogen cycles
Mandy L. Slate, et al.
๐ ow.ly/UVGR50RK5qL
#LatestIssue @wileyecolevol
Microbe-dependent and independent #nitrogen and #phosphate acquisition and regulation in plants
#TansleyReview by Boyu Zhao, Xianqing Jia, Nan Yu, Jeremy D. Murray, Keke Yi, and Ertao Wang
๐ ow.ly/12ZR50RnStP
#MycorrhizalResearchNow
#TansleyReview : Functional traits of #fossil #plants
Jennifer C. McElwain, et al.
๐ ow.ly/oUc150QXVcu
Jennifer McElwain TERRAFORM School of Natural Sciences, Trinity College Dublin Katie O'Dea Kamila Kwasniewska Richard Nair Baylor University Jonathan Wilson UC Davis Yvonne Buckley Prof. Claire M Belcher Sandra Noguรฉ Wiley Plant Science
#TansleyReview : Symbiont plasticity as a driver of plant success
Zobel et al. Plant Ecology UT Plant Evolutionary Ecology lab
๐ ow.ly/6r2H50QxPsg
#TansleyReview Linking the key physiological functions of essential micronutrients to their deficiency symptoms in plants
Lilay et al. Grmay H. Lilay
๐ ow.ly/o1gJ50QKKsH
The #mycorrhizal #symbiosis : research frontiers in #genomics , #ecology , and agricultural application
#TansleyReview by Francis M. Martin and van der Heijden Lab
๐ ow.ly/5mog50RnSnn
#MycorrhizalResearchNow @wileyecolevol Wiley Plant Science
#TansleyReview Chloroplast ion homeostasis โ what do we know and where should we go?
๐ow.ly/Y2k150QZGmc
by Kunz et al
KunzLabLMU TRR175 Universitรคt Mรผnchen Jan de Vries Molecular Photosynthesis Lab