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不同土层测墒补灌对小麦旗叶光合特性和干物质积累与分配的影响 被引量:33

Photosynthesis Characteristics of Flag Leaf and Dry Matter Accumulation and Allocation in Winter Wheat under Supplemental Irrigation after Measuring Moisture Content in Different Soil Layers
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摘要 2011—2012和2012—2013年连续2个小麦生长季,在大田条件下,设置0~20 cm(D1)、0~40 cm(D2)、0~60 cm(D3)和0~140 cm(D4)4个土层测定土壤含水量,以各土层平均土壤相对含水量拔节期65%和开花期70%为目标相对含水量,全生育期不灌溉为对照处理(D0),研究依据不同土层的土壤含水量测墒补灌对小麦旗叶光合特性和干物质积累与分配的影响。结果表明:D2的开花期叶面积指数和单位土地面积上旗叶叶面积、开花后7 d和14 d的旗叶净光合速率和实际光化学效率均高于其他处理,而气孔限制值低于其他处理;D2的成熟期干物质积累量、开花后干物质向籽粒的分配量和开花后同化物分配对籽粒的贡献率亦高于其他处理。两年度D2的籽粒产量分别为9367.4 kg hm–2和9727.5 kg hm–2,均显著高于其他处理;同时,D2的水分利用效率高于D0、D3和D4处理,与D1处理无显著差异。因此,于小麦拔节期和开花期依据0~40 cm土层的土壤含水量测墒补灌是同步实现高产和高水分利用效率的有效措施。 This study aimed to propose a suitable soil layer depth used in determining the irrigation amount. A field experiment was conducted in the 2011-2012 and 2012-2013 wheat growing seasons to study the effects of supplemental irrigation based on the measurement of soil moisture contents on photosynthesis of flag leaf and dry matter accumulation and allocation. Four irriga- tion treatments were designed with target soil moisture of 65% at jointing and 70% at anthesis in 0-20 (D1), 0-40 (D2), 0-60 (D3), and 0-140 cm (D4) soil layers. Zero-irrigation (DO) was used as the control. D2 was superior to other treatments with higher values of leaf area index (LAI) and flag leaf area on one square meter land at anthesis, photosynthetic rate (Pn) and actual photochemical efficiency (ФPsii) at seven and fourteen days after anthesis; whereas, the stomatal limitation (Ls) of D2 was lower than those of other treatments. Compared with other treatments, D2 had larger dry matter accumulation at maturity, more dry matter allocated in grains, and higher contribution ratio of dry matter from vegetative organs to grain after anthesis. The grain yield in D2 was 9367.4 kg ha-1 in 2011-2012 growing season and 9727.5 kg ha-1 in 2012-2013 growing season, which were significantly higher than those in other treatments. The water use efficiency of D2 was significantly higher than those of D0, D3, and D4, but with out significant difference to that of D1. To obtain both high yield and high water use efficiency, we suggest the optimal soil layer for measuring moisture content is 0-40 cm, and supplementary water should be given at jointing and anthesis based on measured soil moisture.
出处 《作物学报》 CAS CSCD 北大核心 2014年第4期731-738,共8页 Acta Agronomica Sinica
基金 国家自然科学基金项目(31171498) 山东省自然科学基金项目(ZR2011CQ014)资助
关键词 小麦 测墒补灌 光合特性 干物质积累与分配 籽粒产量 Winter wheat Supplemental irrigation based on measurement of moisture content Photosynthesis characteris- tics Dry matter accumulation and allocation Grain yield
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