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W2792059685 startingPage "1454" @default.
W2792059685 abstract "The current study was carried out to check the influence of the gradient saline (0, 50, 150, 200, 250 and 300 mM NaCl) on Astragalus gombiformis Pomel. plants grown in pots in greenhouse conditions. The results demonstrated that salt levels above 50 mM substantially reduced the biomass accumulation in both roots and especially in shoots. Similarly, higher salinity (100–300 mM NaCl) resulted significant decline in net photosynthetic (-66.2%), transpiration (-80%), stomatal conductance (-87.7%), intercellular CO2 concentration (-78.1%) and chlorophyll a and b contents (-45.7 and -51%, respectively). Also, leaf relative water content (RWC) was reduced significantly with salinity exceeding 100 mM NaCl, while the leaf water potential (ΨW) decreased significantly as salinity rises. Salt stress increases Na+, Na+/K+ and decreases K+ concentrations in all tissues of A. gombiformis. Compensatory, an accumulation of organic osmolytes such as soluble sugars in response to higher salinity (150–300 mM NaCl) was observed, while proline content increased drastically with progressive salinity. The present study reveals that GPX and GR were highly used to protect from NaCl-induced H2O2. APX might to participate efficiently in restriction of oxidative damages under higher salinity (50–150 mM). The leaf anatomy showed an increase in upper epidermal thickness at higher salt level (300 mM), whereas the total leaf thickness and the mesophyll parenchyma area decreased with salinity exceeding 100 mM NaCl. The distance between vascular bundle and the xylem vessel diameter were reduced only at 300 mM. The stomatal density decreased with enhanced stomata size at 200–300 mM NaCl. Based on these physiological, biochemical and anatomical responses to salinity we conclude that A. gombiformis is unable to maintain the ionic homeostasis and to managing ROS stress at high salinity and therefore can tolerate only mild to moderate salinity." @default.
W2792059685 created "2018-03-29" @default.
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W2792059685 date "2017-12-01" @default.
W2792059685 modified "2023-09-23" @default.
W2792059685 title "Effect of NaCl stress on physiological, antioxidant enzymes and anatomical responses of Astragalus gombiformis" @default.
W2792059685 cites W1507013459 @default.
W2792059685 cites W1512924937 @default.
W2792059685 cites W1604223598 @default.
W2792059685 cites W191793640 @default.
W2792059685 cites W1965437479 @default.
W2792059685 cites W1967788995 @default.
W2792059685 cites W1968834637 @default.
W2792059685 cites W1968881272 @default.
W2792059685 cites W1969407984 @default.
W2792059685 cites W1982434323 @default.
W2792059685 cites W1988872132 @default.
W2792059685 cites W1992539902 @default.
W2792059685 cites W1994573931 @default.
W2792059685 cites W2001187689 @default.
W2792059685 cites W2002894295 @default.
W2792059685 cites W2014610449 @default.
W2792059685 cites W2017857869 @default.
W2792059685 cites W2028823348 @default.
W2792059685 cites W2032116753 @default.
W2792059685 cites W2033545271 @default.
W2792059685 cites W2035326812 @default.
W2792059685 cites W2037193374 @default.
W2792059685 cites W2040165882 @default.
W2792059685 cites W2040879655 @default.
W2792059685 cites W2048591764 @default.
W2792059685 cites W2049203121 @default.
W2792059685 cites W2049299800 @default.
W2792059685 cites W2053791338 @default.
W2792059685 cites W2056294463 @default.
W2792059685 cites W2057433097 @default.
W2792059685 cites W2058191937 @default.
W2792059685 cites W2058550255 @default.
W2792059685 cites W2058952142 @default.
W2792059685 cites W2060287481 @default.
W2792059685 cites W2061539067 @default.
W2792059685 cites W2062904684 @default.
W2792059685 cites W2064774789 @default.
W2792059685 cites W2073391762 @default.
W2792059685 cites W2076636949 @default.
W2792059685 cites W2081879708 @default.
W2792059685 cites W2081954476 @default.
W2792059685 cites W2088579981 @default.
W2792059685 cites W2091360876 @default.
W2792059685 cites W2091504975 @default.
W2792059685 cites W2095305581 @default.
W2792059685 cites W2104192082 @default.
W2792059685 cites W2105751976 @default.
W2792059685 cites W2105874120 @default.
W2792059685 cites W2114624609 @default.
W2792059685 cites W2118720098 @default.
W2792059685 cites W2119995692 @default.
W2792059685 cites W2120499640 @default.
W2792059685 cites W2121089943 @default.
W2792059685 cites W2123875713 @default.
W2792059685 cites W2128741925 @default.
W2792059685 cites W2128888406 @default.
W2792059685 cites W2130940800 @default.
W2792059685 cites W2132066544 @default.
W2792059685 cites W2132864357 @default.
W2792059685 cites W2139328007 @default.
W2792059685 cites W2140511599 @default.
W2792059685 cites W2141785413 @default.
W2792059685 cites W2142907714 @default.
W2792059685 cites W2144626145 @default.
W2792059685 cites W2148717014 @default.
W2792059685 cites W2154140763 @default.
W2792059685 cites W2155744938 @default.
W2792059685 cites W2156475535 @default.
W2792059685 cites W2156784274 @default.
W2792059685 cites W2165629389 @default.
W2792059685 cites W2227922400 @default.
W2792059685 cites W227686583 @default.
W2792059685 cites W2309521850 @default.
W2792059685 cites W2316548511 @default.
W2792059685 cites W2343863564 @default.
W2792059685 cites W2589328346 @default.
W2792059685 cites W4256480000 @default.
W2792059685 cites W4293247451 @default.
W2792059685 cites W649285502 @default.
W2792059685 doi "https://doi.org/10.1515/biolog-2017-0169" @default.
W2792059685 hasPublicationYear "2017" @default.
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