Predicting the decline in daily maximum transpiration rate of two pine stands during drought based on constant minimum leaf water potential and plant hydraulic conductance

Tree Physiology

Volumn 28, Issue 2, 2008, Pages 265-276

  Duursma, R A ^a   Kolari, P ^a   Peramaki M ^a   Nikinmaa, E ^a   Hari, P ^a   Delzon, S ^b   Loustau, D ^b   Ilvesniemi, H ^c   Pumpanen, J ^a   Makela A ^a  

^a UNIVERSITY OF HELSINKI   (Finland)

^b BORDEAUX SCIENCES AGRO   (France)

^c FINNISH FOREST RESEARCH INSTITUTE   (Finland)

Author keywords

Pinus pinaster; Pinus sylvestris; Plant soil interactions; Water stress; Water uptake

Indexed keywords

CONIFEROUS TREE; DIURNAL VARIATION; DROUGHT STRESS; ECOLOGICAL MODELING; HYDRAULIC CONDUCTIVITY; MODEL TEST; SAP FLOW; SENSITIVITY ANALYSIS; SOIL WATER; SOIL-VEGETATION INTERACTION; TRANSPIRATION; WATER STRESS; WATER UPTAKE; XYLEM;

PINUS PINASTER; PINUS SYLVESTRIS;

RAIN; WATER;

ARTICLE; BIOLOGICAL MODEL; DISASTER; EVAPOTRANSPIRATION; PHYSIOLOGY; PINE; PLANT LEAF; SOIL;

MODELS, BIOLOGICAL; NATURAL DISASTERS; PINUS; PLANT LEAVES; PLANT TRANSPIRATION; RAIN; SOIL; WATER;

EID: 40649102451     PISSN: 0829318X     EISSN: None     Source Type: Journal    
DOI: 10.1093/treephys/28.2.265     Document Type: Article

References (86)