These tools will no longer be maintained as of December 31, 2024. Archived website can be found here. PubMed4Hh GitHub repository can be found here. Contact NLM Customer Service if you have questions.
Pubmed for Handhelds
PUBMED FOR HANDHELDS
Search MEDLINE/PubMed
Title: [Effects of late sowing of two season crops on annual yield and resource use efficiency in rice-wheat double cropping system]. Author: Xi M, DU XB, Wu WG, Kong LC, Chen JH, Yue W, Xu YZ, Zhou YJ. Journal: Ying Yong Sheng Tai Xue Bao; 2020 Jan; 31(1):165-172. PubMed ID: 31957393. Abstract: The unreasonable resource allocation and lower resource use efficiency for rice-wheat double cropping system in Jianghuai region resulted from climate change severely limit the coordinated development of annually high yield and high efficiency crops. Optimizing seasonal resource allocation through sowing date adjustment is an important way to tap the annual high-yield potential and improve resource use efficiency. To quantify the effects of sowing date of rice and wheat on annual yield and resource allocation and utilization efficiency, field experiments were conducted in 2013-2015. Results showed that compared with the conventional rice-wheat cropping system (T2), the two seasons appropriate late-cast cropping system (T3) could coordinate resource allocation in the two seasons through the sowing date adjustment, and transfer the redundant radiation and heat resources in the wheat season to the rice. The distribution rate of accumulated temperature, radiation and rainfall resources for T3 were: rice season accounted for 60.5%, 46.5% and 56.7%, wheat season accounted for 36.3%, 50.0% and 40.9%, and the ratio between two seasons was 1.67, 0.94 and 1.39, respectively. Rice yield and its proportion of annual production were significantly increased. The wheat yield was significantly decreased, with the variation range being smaller than that of rice. The total annual yield was increased by 336.3 kg·hm-2 as compared with T2. The temperature, radiation and rainfall production efficiency for rice in T3 were increased by 9.8%, 5.6% and 8.3% in compared to T2, respectively. There was no significant difference in the climate resource utilization efficiency of wheat season. The annual resource production efficiency of T3 was increased by 4.8%, 3.1% and 6.0% over the T2, respectively. Earlier (T1) or latest sowing (T4) of two seasons cropping system was not appropriate for annual yield formation and resource utilization. In summary, improving resource utilization efficiency in rice season is the key way to increase annual grain yield potential in Jianghuai region. The results provided theoretical and practical bases for the excavation of yield potential of the regional annual cropping system and the adjustment of planting structure. 受气候变化影响,江淮地区稻麦两熟种植模式周年资源配置不合理、资源利用效率低,限制了该区域作物周年高产高效协同发展。通过播期调整优化两季资源配置是提高资源利用效率,挖掘周年产量潜力的重要途径。本研究于2013—2015年进行大田试验,设置不同稻麦播期组合,对其周年产量和资源配置与利用特征进行了比较。结果表明: 与常规种植模式(T2)相比,稻麦双季适期晚播模式(T3)通过播期调整协调了两季间资源配置,将小麦季冗余的温光水资源转移给高贡献率作物水稻,水稻季积温、辐射、降雨资源分别占60.5%、46.5%和56.7%,小麦季分别占36.3%、50.0%和40.9%,两季间比值为1.67、0.94和1.39;水稻产量显著提高,并提高了水稻在周年产量中的占比;小麦产量显著降低,但变幅小于水稻;周年总产量提高了336.3 kg·hm-2。水稻季温度生产效率、光能生产效率和降雨生产效率分别提高了9.8%、5.6%和8.3%,小麦季资源利用效率无显著差异,T3模式周年温、光、水生产效率分别提高了4.8%、3.1%和6.0%。稻麦双季早播模式(T1)或双季过晚模式(T4)均不利于周年产量形成和资源利用。综上所述,充分挖掘水稻季的光温水资源利用潜力是进一步提升江淮地区稻麦周年产量潜力的关键,研究结果可为区域粮食作物周年种植模式产量潜力的挖掘及种植结构调整提供依据。.[Abstract] [Full Text] [Related] [New Search]