SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385735880> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W4385735880 endingPage "748" @default.
W4385735880 startingPage "739" @default.
W4385735880 abstract "Salt stress adversely affects the growth and physiological relations in most tree fruit species. Little is known about genetic variation for salt tolerance, and the physiological mechanisms underlying salt tolerance in sapota (Achras zapota), an underutilized fruit crop valued for its nutritive and medicinal properties. Here, we examined the effects of saline (ECiw 4, 8, 12, and 16 dS/m) and sodic (RSC 2.5 and 5.0meq/l) water treatments on plant growth, physiology, and ion homeostasis in the different genotypes of Sapota. Although saline and sodic treatments appreciably reduced the plant growth (i.e., by 20–50%) compared to salt-free plants, genotypes ‘CSRS-13’ and ‘CSRS-15’ performed better than others. Salt-induced reductions in leaf area were indicative of the ability of sapota to better acclimatize to prolonged salinity stress by regulating the biomass production. Saline and sodic irrigation treatments increased the leaf Na+ and decreased the leaf K+; albeit with clear-cut genotypic differences. We observed better ion homeostasis in genotype ‘CSRS-17’ under salinity stress, and better physiological adaptations in genotypes ‘CSRS-11’ and ‘CSRS-17’ under sodicity stress. Principal Component Analysis revealed strikingly different responses of sapota genotypes to ‘low’ and ‘high’ salinity/sodicity treatments. Strong cultivar-specific responses to salinity and sodicity stresses evinced the existence of genetic variation for salt tolerance in sapota. Overall, our findings demonstrated the feasibility of sapota cultivation in areas with moderate sodicity (RSC ∼2.5 meq/l), and moderate-to-high salinity (∼8.0 dS/m)." @default.
W4385735880 created "2023-08-11" @default.
W4385735880 creator A5000275226 @default.
W4385735880 creator A5012880735 @default.
W4385735880 creator A5016558252 @default.
W4385735880 creator A5052387905 @default.
W4385735880 creator A5077679177 @default.
W4385735880 date "2023-09-01" @default.
W4385735880 modified "2023-10-16" @default.
W4385735880 title "Salinity and sodicity stresses differentially influence growth and physiology in sapota (Achras zapota L.)" @default.
W4385735880 cites W1750583519 @default.
W4385735880 cites W1967731191 @default.
W4385735880 cites W1973168219 @default.
W4385735880 cites W1973478992 @default.
W4385735880 cites W1981395481 @default.
W4385735880 cites W1981689688 @default.
W4385735880 cites W1995452633 @default.
W4385735880 cites W1998882044 @default.
W4385735880 cites W2019322823 @default.
W4385735880 cites W2022867201 @default.
W4385735880 cites W2028132336 @default.
W4385735880 cites W2033751684 @default.
W4385735880 cites W2035684909 @default.
W4385735880 cites W2035962806 @default.
W4385735880 cites W2039391369 @default.
W4385735880 cites W2080587943 @default.
W4385735880 cites W2082771175 @default.
W4385735880 cites W2092260033 @default.
W4385735880 cites W2094632123 @default.
W4385735880 cites W2102962612 @default.
W4385735880 cites W2116027868 @default.
W4385735880 cites W2120563484 @default.
W4385735880 cites W2123515506 @default.
W4385735880 cites W2148116404 @default.
W4385735880 cites W2159351231 @default.
W4385735880 cites W2166058247 @default.
W4385735880 cites W2171398012 @default.
W4385735880 cites W2172175536 @default.
W4385735880 cites W2217057823 @default.
W4385735880 cites W2295287183 @default.
W4385735880 cites W2312537801 @default.
W4385735880 cites W2323439835 @default.
W4385735880 cites W2424790075 @default.
W4385735880 cites W2478592093 @default.
W4385735880 cites W2557634396 @default.
W4385735880 cites W2560843422 @default.
W4385735880 cites W2589247748 @default.
W4385735880 cites W2609359678 @default.
W4385735880 cites W2744683217 @default.
W4385735880 cites W2767572395 @default.
W4385735880 cites W2789518508 @default.
W4385735880 cites W2790238819 @default.
W4385735880 cites W2801699727 @default.
W4385735880 cites W2802775126 @default.
W4385735880 cites W2809576552 @default.
W4385735880 cites W2811129476 @default.
W4385735880 cites W2886556549 @default.
W4385735880 cites W2896635894 @default.
W4385735880 cites W2898607316 @default.
W4385735880 cites W2901649989 @default.
W4385735880 cites W2902209857 @default.
W4385735880 cites W2949006947 @default.
W4385735880 cites W2984950465 @default.
W4385735880 cites W3010798294 @default.
W4385735880 cites W3013625160 @default.
W4385735880 cites W3014353159 @default.
W4385735880 cites W3034276235 @default.
W4385735880 cites W3037090049 @default.
W4385735880 cites W3038131277 @default.
W4385735880 cites W3038283655 @default.
W4385735880 cites W3043601201 @default.
W4385735880 cites W3046907687 @default.
W4385735880 cites W3087365791 @default.
W4385735880 cites W3089434281 @default.
W4385735880 cites W3108049780 @default.
W4385735880 cites W3127564079 @default.
W4385735880 cites W3128771343 @default.
W4385735880 cites W3136988244 @default.
W4385735880 cites W3190855277 @default.
W4385735880 cites W3212489954 @default.
W4385735880 cites W4200490445 @default.
W4385735880 cites W4205306171 @default.
W4385735880 cites W4207048623 @default.
W4385735880 cites W4210771396 @default.
W4385735880 cites W4220835180 @default.
W4385735880 cites W4235940747 @default.
W4385735880 cites W4252133161 @default.
W4385735880 cites W4281766970 @default.
W4385735880 cites W4285596884 @default.
W4385735880 cites W4297398489 @default.
W4385735880 cites W4306402837 @default.
W4385735880 cites W4319161805 @default.
W4385735880 cites W4322772578 @default.
W4385735880 cites W4323275937 @default.
W4385735880 cites W4324095034 @default.
W4385735880 cites W4376135496 @default.
W4385735880 doi "https://doi.org/10.1016/j.sajb.2023.07.046" @default.
W4385735880 hasPublicationYear "2023" @default.