10 research outputs found
The extracellular matrix provides directional cues for neuronal migration during cerebellar development
Full text link
The newly identified migration inhibitory protein regulates the radial migration in the developing neocortex
No full textA novel assessment for Readiness Evaluation during Simulated Dismounted Operations: A reliability study
No full textPartial rootzone drying in sugarcane (Saccharum officinarum L.): effects on gas exchange, growth and water use efficiency
No full textAdsorptive Removal of Manganese Ions from Polluted Aqueous Media by Glauconite Clay-Functionalized Chitosan Nanocomposites
No full textTranscriptomic response is more sensitive to water deficit in shoots than roots of Vitis riparia (Michx.)
No full textResponse and recovery of grapevine to water deficit : from genes to physiology
No full textInternational audienceGrapevine is a crop of global economic importance which is often cultivated in dry Mediterranean climates. In the context of climatic change, periods of drought could increase and become more intense. Growers will face increasing pressure to increase irrigation efficiently and/or adopt new grapevine varieties with increased drought resistance and water use efficiency. Adapting viticulture to these challenges requires an improved understanding of how grapevines behave under drought to enable sustainable management strategies and develop new varieties and rootstocks. This chapter summarizes our current understanding of the changes in physiology, signaling, metabolism, and gene expression that mediate grapevineâs response and adaptation to drought
