SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380990060> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4380990060 endingPage "100034" @default.
W4380990060 startingPage "100034" @default.
W4380990060 abstract "Drought is considered as a significant stress that hampers growth, development as well as productivity of wheat crop around the globe. The present investigation was performed to determine the changes induced by drought on morpho-physiology, antioxidative system, metabolism and yield parameters in wheat crop. The study also focussed on evaluating the effect of zinc-chitosan-salicylic acid (ZCS) nanoparticles in alleviating physiological and biochemical alterations and overcoming yield losses caused by drought. Drought was provided during the vegetative stage on four different varieties (two drought tolerant viz. C-306 and PBW-644 and two drought susceptible viz. HUW-322 and HUW-843) by withholding irrigation and maintaining moisture capacity of soil at 40%. ZCS nanoparticles were foliar sprayed on wheat at concentrations of 100, 200 and 400 mg L−1. Application of ZCS nanoparticles at 100 mg L−1 significantly (p < 0.05) enhanced relative water content (RWC), alleviated levels of antioxidative enzymes like superoxide dismutase, ascorbate peroxidase, glutathione reductase and guaiacol peroxidase and metabolites like proline, ascorbate, malondialdehyde and flavanoid in wheat leaves subjected to drought. Drought recovery was noteworthy in tolerant as well as sensitive varieties. Water stress reduced grain yield / plant by nearly 45% in tolerant varieties and nearly 50% in sensitive varieties. Spray of the nanoparticles on wheat foliage incremented the yield to 63% and 41% in tolerant varieties and 50% and 46% in sensitive varieties. This study suggests an outstanding role of ZCS nanoparticles at a concentration of 100 mg L−1 in mitigation of ill effects of drought. These nanoparticles have the ability to improve osmotic status of plant, enhance synthesis of osmoprotectants, activate ROS scavenging enzymes for maintaining membrane integrity and cellular protection and promote yield increment during drought stress. This implicates its role in ensuring food security and sustainable agriculture with reduction in environmental pollution due to limited use of fertilizers." @default.
W4380990060 created "2023-06-17" @default.
W4380990060 creator A5001278328 @default.
W4380990060 creator A5008417924 @default.
W4380990060 creator A5015398989 @default.
W4380990060 creator A5036974445 @default.
W4380990060 creator A5048629330 @default.
W4380990060 creator A5065758936 @default.
W4380990060 creator A5070007696 @default.
W4380990060 date "2023-05-01" @default.
W4380990060 modified "2023-10-16" @default.
W4380990060 title "Morpho-physiological and biochemical responses in wheat foliar sprayed with zinc-chitosan-salicylic acid nanoparticles during drought stress" @default.
W4380990060 cites W1573518848 @default.
W4380990060 cites W1944729816 @default.
W4380990060 cites W1970355880 @default.
W4380990060 cites W1975220728 @default.
W4380990060 cites W1984709254 @default.
W4380990060 cites W1992191851 @default.
W4380990060 cites W1992865668 @default.
W4380990060 cites W1995821044 @default.
W4380990060 cites W1998305436 @default.
W4380990060 cites W2000184771 @default.
W4380990060 cites W2019738548 @default.
W4380990060 cites W2020285904 @default.
W4380990060 cites W2028823348 @default.
W4380990060 cites W2047795851 @default.
W4380990060 cites W2063912164 @default.
W4380990060 cites W2093445433 @default.
W4380990060 cites W2094356655 @default.
W4380990060 cites W2104181937 @default.
W4380990060 cites W2107581071 @default.
W4380990060 cites W2111175831 @default.
W4380990060 cites W2112825024 @default.
W4380990060 cites W2135572188 @default.
W4380990060 cites W2140199266 @default.
W4380990060 cites W2144231457 @default.
W4380990060 cites W2196187108 @default.
W4380990060 cites W2254746452 @default.
W4380990060 cites W2337563599 @default.
W4380990060 cites W2469993736 @default.
W4380990060 cites W2490945423 @default.
W4380990060 cites W2526869670 @default.
W4380990060 cites W2553298812 @default.
W4380990060 cites W2576124787 @default.
W4380990060 cites W2580353295 @default.
W4380990060 cites W2590999430 @default.
W4380990060 cites W2591904409 @default.
W4380990060 cites W2807017632 @default.
W4380990060 cites W2898870070 @default.
W4380990060 cites W2908888786 @default.
W4380990060 cites W2936861353 @default.
W4380990060 cites W2944653512 @default.
W4380990060 cites W2948886398 @default.
W4380990060 cites W2953682402 @default.
W4380990060 cites W2954330215 @default.
W4380990060 cites W2956502322 @default.
W4380990060 cites W2974005891 @default.
W4380990060 cites W3002935020 @default.
W4380990060 cites W3005255083 @default.
W4380990060 cites W3007561972 @default.
W4380990060 cites W3016489035 @default.
W4380990060 cites W3033413873 @default.
W4380990060 cites W3039879439 @default.
W4380990060 cites W3043062735 @default.
W4380990060 cites W3092060083 @default.
W4380990060 cites W3094731216 @default.
W4380990060 cites W3107169009 @default.
W4380990060 cites W3121019327 @default.
W4380990060 cites W3121212617 @default.
W4380990060 cites W3128955536 @default.
W4380990060 cites W3133237067 @default.
W4380990060 cites W3135335717 @default.
W4380990060 cites W3136889721 @default.
W4380990060 cites W3136994511 @default.
W4380990060 cites W3139343904 @default.
W4380990060 cites W3164001990 @default.
W4380990060 cites W3166782968 @default.
W4380990060 cites W3170677180 @default.
W4380990060 cites W3180202499 @default.
W4380990060 cites W4200258557 @default.
W4380990060 cites W4205970934 @default.
W4380990060 cites W4206391649 @default.
W4380990060 cites W4211237464 @default.
W4380990060 cites W4252910548 @default.
W4380990060 cites W4320879607 @default.
W4380990060 cites W51104243 @default.
W4380990060 doi "https://doi.org/10.1016/j.plana.2023.100034" @default.
W4380990060 hasPublicationYear "2023" @default.
W4380990060 type Work @default.
W4380990060 citedByCount "3" @default.
W4380990060 countsByYear W43809900602023 @default.
W4380990060 crossrefType "journal-article" @default.
W4380990060 hasAuthorship W4380990060A5001278328 @default.
W4380990060 hasAuthorship W4380990060A5008417924 @default.
W4380990060 hasAuthorship W4380990060A5015398989 @default.
W4380990060 hasAuthorship W4380990060A5036974445 @default.
W4380990060 hasAuthorship W4380990060A5048629330 @default.
W4380990060 hasAuthorship W4380990060A5065758936 @default.