Salinity induction of recycling Crassulacean acid metabolism and salt tolerance in plants of Talinum triangulare

Crassulacean acid metabolism (CAM) can be induced by salinity, thus conferring the plant higher water-use efficiency. Talinum triangulare does not frequently encounter salt in its natural habitat but is cultivated in soils that may become salinized. Here we examined whether plants of T. triangulare...

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Bibliographic Details
Published in:Annals of botany 2018-06, Vol.121 (7), p.1333-1342
Main Authors: Montero, Estefanía, Francisco, Ana Marta, Montes, Enrique, Herrera, Ana
Format: Article
Language:English
Subjects:
biomass
carbon
carbon dioxide
Crassulacean acid metabolism
gas exchange
greenhouses
habitats
mineral content
Original
osmotic pressure
Plant Leaves - metabolism
Plant Transpiration
Portulacaceae - metabolism
potassium
protons
saline soils
salinity
Salt Tolerance
Salt-Tolerant Plants - metabolism
sodium
stable isotopes
stems
stomata
Talinum fruticosum
Water - metabolism
water use efficiency
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Summary:Crassulacean acid metabolism (CAM) can be induced by salinity, thus conferring the plant higher water-use efficiency. Talinum triangulare does not frequently encounter salt in its natural habitat but is cultivated in soils that may become salinized. Here we examined whether plants of T. triangulare can grow in saline soils and show salt-induced CAM. Leaf gas exchange, carbon isotopic ratio (δ13C), nocturnal acid accumulation (ΔH+), water relations, photosynthetic pigment and mineral contents, leaf anatomy and growth were determined in greenhouse in plants irrigated with 0, 150, 300 and 400 mm NaCl. Salinity reduced gas exchange and induced CAM, ΔH+ reaching 50.2 μmol H+ g-1 fresh mass under 300 mm NaCl. No nocturnal CO2 uptake, but compensation, was observed. Values of δ13C were lowest under 0 and 400 mm NaCl, and highest under 150 and 300 mm. The difference in osmotic potential (ψs) between control and treated plants averaged 0.45 MPa for the three [NaCl] values, the decrease in ψs being accounted for by up to 63 % by Na+ and K+. Pigment contents were unaffected by treatment, suggesting lack of damage to the photosynthetic machinery. Changes in stomatal index with unchanged stomatal density in newly expanded leaves suggested inhibited differentiation of epidermal cells into stomata. Whole-leaf and parenchymata thickness increased under 150 and 300 mm NaCl. Only plants irrigated with 400 mm NaCl showed reductions in biomass (stems, 41 %; reproductive structures, 78 %). The K/Na molar ratio decreased with [NaCl] from 2.0 to 0.4. The operation of CAM in the recycling mode was evidenced by increased ΔH+ with no nocturnal CO2 uptake. Talinum triangulare can be classified as a halo-tolerant species based on its low K/Na molar ratio under salinity and the relatively small reduction in growth only at the highest [NaCl].
ISSN:0305-7364
1095-8290
1095-8290
DOI:10.1093/aob/mcy030