Engineering, Environmental
; Environmental Sciences
; Water Resources
WOS研究方向:
Engineering
; Environmental Sciences & Ecology
; Water Resources
英文摘要:
In this work, we irrigated myrtle plants with reclaimed waters (RWs) for 90 days with drainage. The treatments consisted of a control (0.8 dS m(-1)) and two RWs: RW1 (2.0 dS m(-1)) and RW2 (5.0 dS m(-1)). In general, nutrients were accumulated in a greater proportion in shoots than in roots and increased in the RW treatments, with the exception of potassium and phosphorus. This behaviour produced a progressive decrease in the root water potential, which hindered the mobility of water to the leaves. This in turn caused a drop in leaf water potential and gas exchange parameters, especially in the RW2 treatment. The intrinsic water-use efficiency (WUEi, P-n/g(s)) did not show differences in any treatment. The RW2 treatment provoked a loss of biomass in the leaves but not in the stems and roots, resulting in more compact plants. Considering these results together, it is feasible to use RWs for plant irrigation, despite their high electrical conductivity. RWs are thus a viable alternative to scarce conventional water resources in a future scenario of climate change.
1.Univ Catolica, San Antonio Murcia, Campus Jeronimos 135, Guadalupe 30107, Spain 2.CSIC, CEBAS, Grp Fruit Tree Biotechnol, 25 Campus Espinardo, E-30100 Murcia, Spain 3.CSIC, CEBAS, Grp Irrigat, 25 Campus Espinardo, E-30100 Murcia, Spain 4.Inst Tecnol Agr Castilla & Leon ITACYL, Unidad Cult Lenosos & Horticolas, Ctra Burgos Km 119, Valladolid 47071, Spain
Recommended Citation:
Ramon Acosta-Motos, Jose,Fernanda Ortuno, Maria,Alvarez, Sara,et al. The use of reclaimed water is a viable and safe strategy for the irrigation of myrtle plants in a scenario of climate change[J]. WATER SCIENCE AND TECHNOLOGY-WATER SUPPLY,2019-01-01,19(6):1741-1747