Gretchen North
Gretchen North
Professor of Biology, Occidental College
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Plasma membrane aquaporins play a significant role during recovery from water deficit
P Martre, R Morillon, F Barrieu, GB North, PS Nobel, MJ Chrispeels
Plant physiology 130 (4), 2101-2110, 2002
3682002
Changes in hydraulic conductivity and anatomy caused by drying and rewetting roots of Agave deserti (Agavaceae)
GB North, PS Nobel
American Journal of Botany 78 (7), 906-915, 1991
2601991
Plant compartment and biogeography affect microbiome composition in cultivated and native Agave species
D Coleman‐Derr, D Desgarennes, C Fonseca‐Garcia, S Gross, ...
New Phytologist 209 (2), 798-811, 2016
2492016
Drought‐induced changes in hydraulic conductivity and structure in roots of Ferocactus acanthodes and Opuntia ficus‐indica
GB North, PS Nobel
New Phytologist 120 (1), 9-19, 1992
1451992
Hydraulic conductance and mercury-sensitive water transport for roots of Opuntia acanthocarpa in relation to soil drying and rewetting
P Martre, GB North, PS Nobel
Plant Physiology 126 (1), 352-362, 2001
1162001
Aquaporins account for variations in hydraulic conductance for metabolically active root regions of Agave deserti in wet, dry, and rewetted soil
GB North, P Martre, PS Nobel
Plant, Cell & Environment 27 (2), 219-228, 2004
1002004
Hydraulic conductivity of concentric root tissues of Agave deserti Engelm. under wet and drying conditions
GB North, PS Nobel
New Phytologist 130 (1), 47-57, 1995
961995
Radial Hydraulic Conductivity of Individual Root Tissues ofOpuntia ficus-indica (L.) Miller as Soil Moisture Varies
GB NORTH, PS NOBEL
Annals of Botany 77 (2), 133-142, 1996
931996
Heterogeneity in water availability alters cellular development and hydraulic conductivity along roots of a desert succulent
GB North, PS Nobel
Annals of Botany 85 (2), 247-255, 2000
902000
Root–soil contact for the desert succulent Agave deserti in wet and drying soil
GB North, PS Nobel
The New Phytologist 135 (1), 21-29, 1997
791997
Water influx characteristics and hydraulic conductivity for roots of Agave deserti Engelm.
PS NOBEL, PJ SCHULTE, GB NORTH
Journal of Experimental Botany 41 (4), 409-415, 1990
741990
Root growth, developmental changes in the apex, and hydraulic conductivity for Opuntia ficus-indica during drought
JG Dubrovsky, GB North, PS Nobel
The New Phytologist 138 (1), 75-82, 1998
731998
Drought-induced changes in soil contact and hydraulic conductivity for roots of Opuntia ficus-indica with and without rhizosheaths
GB North, PS Nobel
Plant and Soil 191 (2), 249-258, 1997
661997
Changes in root hydraulic conductivity for two tropical epiphytic cacti as soil moisture varies
GB North, PS Nobel
American Journal of Botany 81 (1), 46-53, 1994
561994
Temperature influences on leaf CO2exchange, cell viability and cultivation range forAgave tequilana
PS Nobel, M Castañeda, G North, E Pimienta-Barrios, A Ruiz
Journal of Arid Environments 39 (1), 1-9, 1998
541998
Xylem root and shoot hydraulics is linked to life history type in chaparral seedlings
RB Pratt, GB North, AL Jacobsen, FW Ewers, SD Davis
Functional ecology 24 (1), 70-81, 2010
532010
Water uptake and structural plasticity along roots of a desert succulent during prolonged drought
GB North, PS Nobel
Plant, Cell & Environment 21 (7), 705-713, 1998
481998
Water potentials for developing cladodes and fruits of a succulent plant, including xylem-versus-phloem implications for water movement
PS Nobel, JL Andrade, N Wang, GB North
Journal of Experimental Botany 45 (12), 1801-1807, 1994
481994
Cladode development for Opuntia ficus‐indica (Cactaceae) under current and doubled CO2 concentrations
GB North, TL Moore, PS Nobel
American Journal of Botany 82 (2), 159-166, 1995
431995
Connecting active to passive fluorescence with photosynthesis: A method for evaluating remote sensing measurements of Chl fluorescence
TS Magney, C Frankenberg, JB Fisher, Y Sun, GB North, TS Davis, ...
New Phytologist 215 (4), 1594-1608, 2017
382017
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Artículos 1–20