Effects of Stockosorb and Luquasorb polymers on salt and drought tolerance of Populus popularis
Autor: | Yong Shi, Hua Zhang, Jie Shao, Xiaojiang Zheng, Huijuan Zhu, Yunxia Zhang, Jian Sun, Dazhai Zhou, Ruigang Wang, Niya Li, Jing Li, Aloys Hüttermann, Shurong Deng, Shaoliang Chen |
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Rok vydání: | 2010 |
Předmět: |
2. Zero hunger
0106 biological sciences Soil salinity Chemistry fungi Drought tolerance food and beverages 04 agricultural and veterinary sciences Horticulture Photosynthesis 01 natural sciences Salinity Cutting Agronomy Dry weight Soil water 040103 agronomy & agriculture 0401 agriculture forestry and fisheries 010606 plant biology & botany Transpiration |
Zdroj: | Scientia Horticulturae. 124:268-273 |
ISSN: | 0304-4238 |
DOI: | 10.1016/j.scienta.2009.12.031 |
Popis: | The effects of two types of hydrophilic polymers on drought and salt resistance of 1-year-old cuttings of Populus popularis 35–44 were investigated in this study. The polymers used in the experiments were Stockosorb 500 XL (Stockosorb) (a granular type, cross-linked poly potassium-co-(acrylic resin polymer)-co-polyacrylamide hydrogel) and Luquasorb ® product (a powder type of potassium polyacrylate), which were manufactured by Stockhausen GmbH Krefeld and BASF Corporation in Germany, respectively. Drought or salt stress significantly decreased leaf photosynthesis and transpiration, as well as plant water-consumption and dry weight. A significant reduction occurred in Drought + NaCl-stressed plants. Soils treated by 0.5% Stockosorb or Luquasorb markedly alleviated the inhibition of plant growth and leaf gas-exchange that were caused by drought and/or salt stress treatments, and the occurrence of stress-induced leaf injury was delayed for 31 and 51 days, respectively. Experimental results showed that hydrophilic polymers in root media assisted P. popularis plants to tolerate the drought and salt stresses, due to the following reasons: (1) roots took up the retained water from hydrophilic polymers when water was deficient in the soil (Stockosorb-treated plants exhibited a higher rate of water uptake); (2) under saline conditions, Stockosorb and Luquasorb held Na + and Cl − in the soil solution due to their high water-holding capacity, thus limiting an excessive accumulation of toxic ions in the plant organs; furthermore, the exchangeable K + that contained in Stockosorb and Luquasorb resulted in an improved K + /Na + homeostasis in salinized plants; (3) hydrophilic polymers aided the plants to tolerate an interactive impacts of drought and salt stresses, which was mainly accounted for their water- and salt-holding capacities. In comparison, the growth and survival enhancement effects of the hydrophilic polymers on Drought + NaCl-treated plants was more evident by Luquasorb application, because it supplied water to plants at a lower rate during soil drying, thus prolonging the duration of water supply and allowed roots to grow in an environment of lower salinity for a long period of salt and drought stresses. |
Databáze: | OpenAIRE |
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