“双杂”间作稻在开发冬水田中的效果

四川省中稻→冬水田近2000万亩,集中分布于盆地丘陵区,资源丰富。为发挥它的增产潜力,将中稻改为“双杂”间作稻,增产极显著。其中威优49间汕优63,双行间作,早稻科距8cm、窄行15cm、宽行49cm 中嵌插2行晚稻的小区,亩产728.0～776.9kg,比同田毗邻的汕优63中稻增产31.4%～45.0%,增加纯收入56.46元,为丘陵区中稻→冬水田的合理利用开辟了一条很好的途径。     

Numerical experiments for the impacts of temperature and precipitation variation on the growth and development of winter wheat

The growth process of winter wheat was simulated by CERES-wheat model assuming the daily temperature increase -1, 0,1, 2℃ and daily precipitation increase -20, -10, -5, 0, 5, 10, and 20 percent, respectively. The case study site is Zhenjiang City of Jiangsu Province in the east China. Simulation results show that the impacts of temperature variation on winter wheat is stronger than that of precipitation. Climate warming would speed development rate and shorten phonological period. In general, the adverse effect of climate change on grain yield is greater than that of its beneficial effect, especially when the climate becoming cooler and dryer. The increase of temperature and decrease of precipitation would reduce the plant extractablc soil water content.     

室外钢结构冬季防腐方案

一般防腐涂料施工温度在5 ℃以上,冬季防腐施工气温低至-10 ℃,在制定防腐方案、选择防腐涂料时,通过检测、比较防腐涂料的低温施工性和防腐性能,保证防腐涂料能满足冬季施工的要求.在施工组织中,对防腐涂料进行了性能检验和现场附着力试验,对除锈要求、干膜厚度、表面质量、施工条件进行了严格控制,使整个工程的防腐质量达到要求.     

Differences of cadmium absorption and accumulation in selected vegetable crops

ＩｎｔｒｏｄｕｃｔｉｏｎＣａｄｍｉｕｍｉｓｐｒｉｎｃｉｐａｌｌｙｄｉｓｐｅｒｓｅｄｉｎｎａｔｕｒａｌａｎｄａｇｒｉｃｕｌｔｕｒａｌｅｎｖｉｒｏｎｍｅｎｔｓｔｈｒｏｕｇｈｖａｒｉｏｕｓａｇｒｉｃｕｌｔｕｒａｌ,ｍｉｎｉｎｇａｎｄｉｎｄｕｓｔｒｉａｌａｃｔｉｖｉｔｉｅｓａｓｗｅｌｌａｓｒｅｓｕｌｔｉｎｇｆｒｏｍｔｈｅｅｘｈａｕｓｔｇａｓｅｓｏｆａｕｔｏｍｏｂｉｌｅｓ(Ｄａｓ,1 997) .Ｔｈｉｓｔｒａｃｅｍｅｔａｌｉｓｔｈｅｐｏｌｌｕｔａｎｔａｎｄｐｏｔｅｎｔｉａｌｔｏｘｉｎｔｈａｔｈａｓｕｎｋｎｏｗｎｆ…     

华北平原冬小麦-夏玉米轮作体系氮肥的氨挥发

 利用可多点原位测定氨挥发的风洞系统,监测了华北平原2002～2004年冬小麦-夏玉米轮作体系传统和优化氮肥管理下的氨挥发损失.结果表明,氨挥发主要发生在施肥后2～3周内,以施肥后连续采样15d的氨挥发累积量作为总排放量,相同施氮量下生长季夏玉米的氨挥发大于冬小麦.优化处理的氨挥发平均损失率(35.9%)显著高于传统处理(20.9%),但从氨挥发绝对量上看,传统处理为125.1kgN/hm²,优化处理为42.3kgN/hm²,降幅达66.2%.施肥和灌水方式显著影响氨挥发,撒施碳铵后翻耕的氨挥发损失为10.1%,追肥撒施的氨挥发损失平均为24.6%;撒施尿素后立即灌水,氨挥发损失为19.7%,5h后灌水氨挥发损失为34.0%,增加了72.6%.     

Contribution of winter fluxes to the annual CH4, CO2 and N2O emissions from freshwater marshes in the Sanjiang Plain

Introduction C arbon dioxide, m ethane and nitrous oxide play im portant roles in the radiation balance of the earth contributing to the greenhouse effect (Rodhe, 1990). N 2O also takes part in the destruction of stratospheric ozone (W ang, 1999). N atura…     

应用ARID CROP模型对中国黄淮海地区冬小麦气候生产力的数值模拟研究

应用ＡＲＩＤＣＲＯＰ模型对黄淮海地区冬小麦气候生产力进行了数值模拟研究，给出了该地区冬小麦气候生产力Ｙｑ分布图，继而研究了水分保持最适状况时的光温生产力Ｙｗ分布状况，在此基础上给出了水分增产力Ｑ（Ｑ＝（Ｙｗ－Ｙｑ）／Ｙｑ）分布图。研究表明，黄淮海地区冬小麦气候生产力变幅在３７５０～９７５０ｋｇ／ｈｍ２之间，总的趋势北低南高，黑龙港地区出现了一个３７５０ｋｇ／ｈｍ２的低值区。水分是黄淮海北部地区冬小麦气候生产力的一个重要限制因子，当水分完全适宜时，南部淮河流域冬小麦气候生产力仅可提高５％～１０％，而黄淮海北部地区气候生产力则可提高７５％～１００％。用黄淮海地区冬小麦高产记录与生产力模拟值进行了对比分析，表明用ＡＲＩＤＣＲＯＰ模型对该地区冬小麦气候生产力进行研究是可行的，该研究为引黄灌溉提供了一定的理论依据。     

应用EPIC模型计算黄土塬区作物生产潜力的初步尝试

黄土高原地区土壤侵蚀强烈,土地现实生产力水平低,研究该地区作物生产潜力可以为有效提高作物产量及合理进行农业生产规划提供依据。论文介绍了EPIC(侵蚀-生产力影响计算模型)的特点、组成部分及应用步骤,对部分作物参数进行了修订。以黄土塬区冬小麦和春玉米为例,对EPIC模型的适用性进行了分析和验证,表明EPIC在黄土高原地区作物生产潜力模拟研究中具有较好的适用性。结果显示,冬小麦产量模拟值与实测值之间多年平均误差为7.78%;春玉米多年平均误差为9.60%。冬小麦水分胁迫天数多年平均为9.9天,最少为1.7天(1993年),最多为23.1天(1995年);春玉米水分胁迫天数多年平均为13.4天,最少为1.1天(1993年),最多为44.2天(1995年),与各年作物生育期降水情况基本一致。此模型经修正后在正常年份模拟值较为精确,在干旱年份对作物、土壤等参数的修正方法需要进一步探讨。     

浅层咸水灌溉对冬小麦和土壤安全性的研究

主要研究利用浅层地下咸水灌溉冬小麦及土壤的安全性。试验采取3因素多水平组合设计,利用2.5~6.0g·L-1不同矿化度咸水对冬小麦进行灌溉。试验结果表明:冬小麦产量与咸水矿化度呈负相关关系r=-0.8542、r=-0.8457,与咸水灌溉量呈正相关关系r=0.7487、r=0.7401。利用小于4.0g·L-1咸水灌溉对土壤具有一定的脱盐作用,咸水矿化度为6.0g·L-1时土壤中的盐分积累达到85.5%。矿化度5.0g·L-1以上的咸水不宜直接灌溉农田,需经淡水与咸水调配后,矿化度在4.0g·L-1以下方可灌溉农田。     

Winter Hydrology and NO3− Concentrations in a Forested Watershed: A Detailed Field Study in the Adirondack Mountains of New York1

Abstract: More than 85% of NO₃^? losses from watersheds in the northeastern United States are exported during winter months (October 1 to May 30). Interannual variability in NO₃^? loads to individual streams is closely related to interannual climatic variations, particularly during the winter. The objective of our study was to understand how climatic and hydrogeological factors influence NO₃^? dynamics in small watersheds during the winter. Physical parameters including snow depth, soil temperature, stream discharge, and water table elevation were monitored during the 2007‐2008 winter in two small catchments in the Adirondack Mountains, New York State. Snowpack persisted from mid‐December to mid‐April, insulating soils such that only two isolated instances of soil frost were observed during the study period. NO₃^? export during a mid‐winter rain‐on‐snowmelt event comprised between 8 and 16% of the total stream NO₃^? load for the four‐month winter study period. This can be compared with the NO₃^? exported during the final spring melt, which comprised between 38 and 45% of the total four‐month winter NO₃^? load. Our findings indicate that minor melt events were detectable with changes in soil temperature, streamflow, groundwater level, and snow depth. But, based on loading, these events were relatively minor contributors to winter NO₃^? loss. A warmer climate and fluctuating snowpack may result in more major mid‐winter melt events and greater NO₃^? export to surface waters.