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Titolo:
A MODEL FOR THE PARTITIONING OF PHOTOSYNTHETICALLY FIXED CARBON DURING THE C-3-CAM TRANSITION IN SEDUM-TELEPHIUM
Autore:
BORLAND AM;
Indirizzi:
UNIV NEWCASTLE UPON TYNE,DEPT AGR & ENVIRONM SCI,RIDLEY BLDG NEWCASTLE TYNE NE1 7RU TYNE & WEAR ENGLAND
Titolo Testata:
New phytologist
fascicolo: 3, volume: 134, anno: 1996,
pagine: 433 - 444
SICI:
0028-646X(1996)134:3<433:AMFTPO>2.0.ZU;2-L
Fonte:
ISI
Lingua:
ENG
Soggetto:
CRASSULACEAN ACID METABOLISM; PHOSPHOENOLPYRUVATE CARBOXYLASE; ISOTOPE DISCRIMINATION; GAS-EXCHANGE; MESEMBRYANTHEMUM-CRYSTALLINUM; BIOCHEMICAL FRACTIONS; LIGHT REGIME; WATER-STRESS; CAM; LEAVES;
Keywords:
SEDUM TELEPHIUM; CAM; CARBON PARTITIONING; CARBON-ISOTOPE DISCRIMINATION;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Science Citation Index Expanded
Citazioni:
34
Recensione:
Indirizzi per estratti:
Citazione:
A.M. Borland, "A MODEL FOR THE PARTITIONING OF PHOTOSYNTHETICALLY FIXED CARBON DURING THE C-3-CAM TRANSITION IN SEDUM-TELEPHIUM", New phytologist, 134(3), 1996, pp. 433-444

Abstract

Sedum telephium is a succulent plant in which CAM-cycling is rapidly induced or enhanced in response to drought stress. Diel measurements of leaf malate content and gas exchange demonstrate that as drought stress increased, daytime uptake of CO2 declined and less respiratory CO2was lost as night as a result of re-fixation by phosphoenolpyruvate carboxylase (PEPC) with subsequent accumulation of malate. The enhancement of CAM-cycling in response to drought stress under high and low photon flux density (PFD) results in up to fourfold increases in daily water use efficiency. Moreover, potential conservation of water resulting from CAM-cycling varied from 4 to 77%, of total daytime transpiration, depending on PFD and severity of drought. Measurements of instantaneous C-isotope discrimination demonstrated the activation of PEPC activity in vivo with a minimal direct contribution from C-4 carboxylation to net CO2 uptake during the day. The delta(13)C composition of carbohydrates and organic acids indicated that products of malate breakdown are preferentially directed towards starch during the day, which subsequently supplies phosphoenolpyruvate (PEP) for the dark reactions ofCAM. The data are summarized using a model which quantitatively describes the source of carbon in the leaf during the day (C-3 or C-4) and the partitioning of this carbon between the generation of substrate for CAM, production of respiratory CO2 or export. The resulting carbon budgets illustrate that the breakdown of starch at night increases up to twofold with severe drought stress, whilst the flux of carbon into starch during the day is maintained or even increased, largely at the expense of the soluble sugar pool. Overall, under high PFD the enhancement of CAM-cycling permits continued growth under conditions of severedrought, albeit at a reduced rate. However, under low PFD, the induction of CAM-cycling serves mainly as a maintenance mechanism whereby water is conserved and a positive carbon balance is preserved by recycling carbon skeletons at the expense of growth during periods of severe water shortage.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 25/09/20 alle ore 15:47:38