Search research articles
Contact Us
Filters
Showing results (1-10 of 41) with videos related to
Page
of 5
Sort By:
Oecologia
|
March 18, 2017
High vapour pressure deficit exacerbates xylem cavitation and photoinhibition in shade-grown Piper auritum H.B. & K. during prolonged sunflecks : I. Dynamics of plant water relations
H R Schultz, Mark A Matthews
BMC Genomics
|
May 6, 2018
The Xylella fastidosa RTX operons: evidence for the evolution of protein mosaics through novel genetic exchanges
Gregory A Gambetta, Mark A Matthews, Michael Syvanen
American Journal of Botany
|
June 2, 2011
Wound-induced vascular occlusions in Vitis vinifera (Vitaceae): Tyloses in summer and gels in winter1
Qiang Sun, Thomas L Rost, Mark A Matthews
American Journal of Botany
|
June 7, 2011
Pruning-induced tylose development in stems of current-year shoots of Vitis vinifera (Vitaceae)
Qiang Sun, Thomas L Rost, Mark A Matthews
Planta
|
March 5, 2008
Fruit ripening in Vitis vinifera: apoplastic solute accumulation accounts for pre-veraison turgor loss in berries
Hiroshi Wada, Ken A Shackel, Mark A Matthews
Journal of Experimental Botany
|
April 24, 2009
Seasonal pattern of apoplastic solute accumulation and loss of cell turgor during ripening of Vitis vinifera fruit under field conditions
Hiroshi Wada, Mark A Matthews, Ken A Shackel
Journal of Experimental Botany
|
October 7, 2005
Functional xylem in the post-veraison grape berry
Bhaskar R Bondada, Mark A Matthews, Kenneth A Shackel
Functional Plant Biology : FPB
|
October 17, 2019
A continuum of stomatal responses to water deficits among 17 wine grape cultivars (Vitis vinifera)
Alexander D Levin, Larry E Williams, Mark A Matthews
Plant, Cell & Environment
|
November 8, 2006
Direct in situ measurement of cell turgor in grape (Vitis vinifera L.) berries during development and in response to plant water deficits
Tyler R Thomas, Mark A Matthews, Ken A Shackel
Annals of Botany
|
June 23, 2006
Xylem structure and connectivity in grapevine (Vitis vinifera) shoots provides a passive mechanism for the spread of bacteria in grape plants
David S Chatelet, Mark A Matthews, Thomas L Rost
Page
of 5
Search research articles
Search
Showing results (1-10 of 41) with videos related to
Sort By:
Page
of 5
Oecologia
|
March 18, 2017
High vapour pressure deficit exacerbates xylem cavitation and photoinhibition in shade-grown Piper auritum H.B. & K. during prolonged sunflecks : I. Dynamics of plant water relations
H R Schultz, Mark A Matthews
BMC Genomics
|
May 6, 2018
The Xylella fastidosa RTX operons: evidence for the evolution of protein mosaics through novel genetic exchanges
Gregory A Gambetta, Mark A Matthews, Michael Syvanen
American Journal of Botany
|
June 2, 2011
Wound-induced vascular occlusions in Vitis vinifera (Vitaceae): Tyloses in summer and gels in winter1
Qiang Sun, Thomas L Rost, Mark A Matthews
American Journal of Botany
|
June 7, 2011
Pruning-induced tylose development in stems of current-year shoots of Vitis vinifera (Vitaceae)
Qiang Sun, Thomas L Rost, Mark A Matthews
Planta
|
March 5, 2008
Fruit ripening in Vitis vinifera: apoplastic solute accumulation accounts for pre-veraison turgor loss in berries
Hiroshi Wada, Ken A Shackel, Mark A Matthews
Journal of Experimental Botany
|
April 24, 2009
Seasonal pattern of apoplastic solute accumulation and loss of cell turgor during ripening of Vitis vinifera fruit under field conditions
Hiroshi Wada, Mark A Matthews, Ken A Shackel
Journal of Experimental Botany
|
October 7, 2005
Functional xylem in the post-veraison grape berry
Bhaskar R Bondada, Mark A Matthews, Kenneth A Shackel
Functional Plant Biology : FPB
|
October 17, 2019
A continuum of stomatal responses to water deficits among 17 wine grape cultivars (Vitis vinifera)
Alexander D Levin, Larry E Williams, Mark A Matthews
Plant, Cell & Environment
|
November 8, 2006
Direct in situ measurement of cell turgor in grape (Vitis vinifera L.) berries during development and in response to plant water deficits
Tyler R Thomas, Mark A Matthews, Ken A Shackel
Annals of Botany
|
June 23, 2006
Xylem structure and connectivity in grapevine (Vitis vinifera) shoots provides a passive mechanism for the spread of bacteria in grape plants
David S Chatelet, Mark A Matthews, Thomas L Rost
Page
of 5