Temporal and spatial evolution characteristics of sunshine duration over Qinghai-Tibet Plateau from 1961 to 2020北大核心CSCD

Based on observation data of daily sunshine duration from 1961 to 2020 at 175 meteorological observation stations over Qinghai-Tibet Plateau and its surrounding areas, spatial transformation analysis, climate trend analysis and M-K mutation test were used to analyze the temporal and spatial variation characteristics of the seasonal and annual sunshine duration in the region in the last 60 years. The results show that (1) annual average sunshine duration was 2 323 h, the maximum was 3 487 h in Gaer, Tibet, and the minimum was 771 h in Ya'an, Sichuan. The high-value areas were mostly located in western Tibet, northern Qinghai, western Gansu, and Xinjiang, and the low-value areas were mostly located in Nyingchi in Tibet, the mountainous area on the western edge of the Sichuan Basin, and northwestern Yunnan. The highest sunshine duration was recorded in winter (631 h), and the lowest was recorded in autumn (555 h) among the four seasons. (2) The average decrease in annual sunshine duration was 10.27 h/10 a. The largest rates of decrease were mainly in Gannan of Gansu and Ganzi of Sichuan, with the largest rate of decrease of 130 h/10 a. The areas with large rates of increase were mainly in Hotan area of Xinjiang, Liangshan of Sichuan and Lhasa of Tibet, with the largest increase of 61 h/10 a. Among the four seasons, spring exhibited an upward trend, and the remainder exhibited a downward trend. (3) Before 2017, the annual sunshine duration increased but declined after 2017. Spring sunshine duration had the largest number of mutation years, and the earliest mutation time was 1963. Winter had the fewest number of mutation years and the latest mutation time occurred in 2015. In summary, the annual and seasonal sunshine duration of Qinghai-Tibet Plateau vary greatly in space, but with the general characteristics of more sunshine in the northwest and less in the southeast, and sunshine hours were mainly decreasing, with 2017 as a mutation point of annual sunshine duration. Most areas of Qinghai-Tibet Plateau have great potential for photosynthetic production and are suitable for the development of light-loving plants and high-density planting. Shade-loving or shade-tolerant plants, including tea, are suitable for development in remote mountainous areas with low sunshine values in the western part of the basin, including Ya’an, Sichuan, and other areas, such as Medog, Tibet. © 2022 Science Press. All rights reserved.     

小麦和水稻对纳米硒的吸收和转运

通过水培试验,研究了不同粒径纳米硒(Se NPs)和不同p H条件对小麦(Triticum aestivum L.)及水稻(Oryza sativa L.)吸收、转运硒的影响.结果表明,小麦和水稻对不同粒径(50、100和150 nm) Se NPs的吸收规律不同. 24 h和72 h处理下,小麦根系对3种粒径Se NPs的吸收无显著差异,但其地上部中的硒含量(以干重计,下同)在50 nm Se NPs处理下达到最高,分别为(1. 89±0. 47)μg·g-1和(5. 18±1. 51)μg·g-1.硒在小麦体内的转运系数也在50 nm Se NPs处理24 h时显著高于其他粒径Se NPs处理2. 38倍(P 0. 05).对于水稻而言,50 nm Se NPs处理24 h时根系中的硒含量分别比100 nm和150 nm Se NPs处理增加了11. 18%和41. 81%,但在72 h时3种粒径Se NPs处理间根系对硒的吸收无显著差异.同时,硒在水稻中的地上部含量和转运系数也在50 nm Se NPs处理达到了最大值.另外,p H条件也会影响植物对硒的吸收和转运. Se NPs处理24h时,小麦根系在p H为6时对硒的吸收量最大,并高于亚硒酸盐处理89. 47%,但在p H为4时小麦对硒的转运能力最强.水稻在p H较低时(p H为3. 5和5. 5),对Se NPs的吸收量显著低于亚硒酸盐,且Se NPs在p H为3. 5时更易转运.以上结果表明水稻和小麦均可以吸收Se NPs,并且在p H较低的环境下Se NPs粒径越小越容易在植物体内转运.