Artigo
Drought tolerance is associated with rooting depth and stomatal control of water use in clones of Coffea canephora
Autor
Pinheiro, Hugo A.
Matta, Fábio M. da
Chaves, Agnaldo R. M.
Loureiro, Marcelo E.
Institución
Resumen
Esta faltando um autor a ser cadastrado. Drought is a major environmental constraint affecting growth and production of Coffea canephora. Selection of C. canephora clones has been largely empirical as little is known about how clones respond physiologically to drought. Using clones previously shown to differ in drought tolerance, this study aimed to identify the extent of variation of water use and the mechanisms responsible, particularly those associated morphological traits. Clones (14 and 120, drought-tolerant; 46 and 109A, drought-sensitive, based on their abilities to yield
under drought) were grown in 120-L pots until they were 12-months old, when an irrigation and a drought treatment
were applied; plants were droughted until the pressure potential (y x ) before dawn (pre-dawn) reached À3Á0 MPa.
Throughout the drought period, y x and stomatal conductance (g s ) were measured. At the end of the experiment,
carbon isotope ratio and parameters from pressure–volume curves were estimated. Morphological traits were also
assessed. With irrigation, plant hydraulic conductance (K L ), midday y x and total biomass were
all greater in clones 109A and 120 than in the other clones. Root mass to leaf area ratio was larger in clone 109A than
in the others, whereas rooting depth was greater in drought-tolerant than in drought-sensitive clones. Predawn y x of
À3Á0 MPa was reached fastest by 109A, followed progressively by clones 46, 120 and 14. Decreases in g s with
declining y x , or increasing evaporative demand, were similar for clones 14, 46, and 120, but lower in 109A. Carbon
isotope ratio increased under drought; however, it was lower in 109A than in other clones. For all clones, y x , g s and
K L recovered rapidly following re-watering. Differences in root depth, K L and stomatal control of water use, but not osmotic or elastic adjustments, largely explained the differences in relative tolerance to drought stress of clones 14 and 120 compared with clones 46 and 109A.