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1.
【目的】研究膜下滴灌水稻不同水分处理对耗水特征和水分生产效率的影响。【方法】2017年设置5个灌溉定额,对比分析不同水分处理下水稻产量、各生育期耗水量。【结果】W5处理(灌溉定额910.00 mm)的水稻产量比其他处理分别增加21.95%~458.43%。膜下滴灌水稻全生育期5个水分处理的耗水强度分别为3.75~7.14 mm/d。随着灌水量减少叶面积衰减指数逐渐增大,叶片表现出早衰特征,株高受到灌水量抑制。W5处理与其他处理水分生产率相比分别提高7.61%~193.06%。生育阶段耗水强度变化规律为拔节孕穗期>抽穗扬花期>灌浆期>分蘖期>成熟期>苗期。【结论】水稻全生育期适宜灌溉定额910.00 mm,在拔节孕穗期、分蘖期2个关键需水期,满足水稻水分需求。 相似文献
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随着近年来我国经济的高速发展,各地生态环境污染和破坏形势日益严重,特别是涉及土壤环境的污染和破坏事件日益增加,需要对发生土壤污染的场地进行损害鉴定评估工作。根据生态环境部《生态环境损害鉴定评估技术指南总纲和关键环节第1部分:总纲》(GB/T39791.1-2020)等技术规范,规定了4种基线确定方法:即历史数据法、对照数据法、标准基准和专项研究等方法。通过相关案例,主要分析了土壤生态环境损害鉴定评估工作中对照数据法中基线值确定方法,为后续开展相关土壤环境损害鉴定评估工作提供一定的参考。 相似文献
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Nooshin Shahbazi Ken C. Flower J. Nikolaus Callow Ajmal Mian Michael B. Ashworth Hugh J. Beckie 《Weed Research》2021,61(1):25-34
Weeds and weed control are major production costs in global agriculture, with increasing challenges associated with herbicide‐based management because of concerns with chemical residue and herbicide resistance. Non‐chemical weed management may address these challenges but requires the ability to differentiate weeds from crops. Harvest is an ideal opportunity for the differentiation of weeds that grow taller than the crop, however, the ability to differentiate late‐season weeds from the crop is unknown. Weed mapping enables farmers to locate weed patches, evaluate the success of previous weed management strategies, and assist with planning for future herbicide applications. The aim of this study was to determine whether weed patches could be differentiated from the crop plants, based on height differences. Field surveys were carried out before crop harvest in 2018 and 2019, where a total of 86 and 105 weedy patches were manually assessed respectively. The results of this study demonstrated that across the 191 assessed weedy patches, in 97% of patches with Avena fatua (wild oat) plants, 86% with Raphanus raphanistrum (wild radish) plants and 92% with Sonchus oleraceus L. (sow thistles) plants it was possible to distinguish the weeds taller than the 95% of the crop plants. Future work should be dedicated to the assessment of the ability of remote sensing methods such as Light Detection and Ranging to detect and map late‐season weed species based on the results from this study on crop and weed height differences. 相似文献
4.
利用重庆市南川区马尾松解析木数据,选择合适的导向曲线方程,建立基于导向曲线的立地指数和立地形模型,并对立地形的适用性进行说明。根据散点图和三倍标准差对解析木数据进行了选择,排除了不符合要求的圆盘记录对。采用5种常用的经验生长方程对年龄-树高、胸径-树高进行拟合,根据决定系数R2,均方根误差RMES、 AIC、方程的参数变动系数以及拟合曲线对方程进行选择;根据选定的方程,求出其连续生长量方程和平均生长量方程,并采用matlab绘制出其曲线方程,根据连续生长量和平均生长量次相交后的下一个龄(径)阶,选择出基准年龄(胸径);利用标准差调整法进行编表,编表后采用成对T检验方法对立地指数表和立地形表进行验证。结果表明,立地指数和立地形的表达精度在95%水平下显著,平均总相对误差和相对总误差都<5%,而预估精度分别达到了99.18%和99.22%,说明所编立地指数表和立地形表精度较高,能够满足编表需要。根据导向曲线绘制生长量曲线方程的方法确定基准年龄和基准胸径的方法准确可行;由于龄阶和径阶的选择差异,导致立地指数级不同,同时影响了立地形与立地指数的编表质量;由于树木的生长特性,立地形在表示立地质量时,在林木的早期将会低于立地指数,在树木生长的中后期将会高于立地指数;立地形的适用性取决于胸径与树高的相关性,相关性越强,立地形就越准确,在选择合适的优势木的情况下,立地形可以取代立地指数来表示林地质量。 相似文献
5.
以生境保护优先的北京市第二道绿化隔离地区郊野公园选址方法 总被引:1,自引:1,他引:0
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为探明大湄公河次区域植被净初级生产力(NPP)时空变化特征,基于Google Earth Engine(GEE)云计算平台,利用MOD17A3HGF NPP时序数据,采用线性趋势分析方法,分析了2001—2019年大湄公河次区域植被NPP的时空变化特征。结果显示:(1)2001—2019年间大湄公河次区域植被NPP总体较高,植被NPP年均值整体上变化趋势不显著,变化波动较大,且与年均温度有显著的负相关性;(2)大湄公河次区域植被NPP年均值具有较明显的空间分异性规律,大体呈中部高,南、西南部略低的状态,与其主要河流流域有着重要的联系;(3)植被NPP变化趋势呈现基本不变、轻微改善的特征,改善区域主要位于中国云南省与广西,轻微退化区域主要位于老挝中部和缅甸北部;(4)GEE云平台解决了本地平台数据下载与存储不便等问题,整个大湄公河次区域植被NPP时空变化的数据处理在10 min内完成,GEE云平台在大范围、长时间尺度的研究中体现出了强大的优势。 相似文献
8.
Optimization of water and nitrogen management for surge-root irrigated apple trees in the Loess Plateau of China 下载免费PDF全文
The Loess Plateau is one of the main regions for growing apple trees in China, but a shortage of water resources and low utilization of nitrogen have restricted its agricultural development. A 2-year field experiment was conducted which included three levels of soil water content(SWC), 90–75%, 75–60%, and 60–45% of field capacity, and five levels of nitrogen application(N_(app)), 0.7, 0.6, 0.5, 0.4 and 0.3 kg/plant. The treatments were arranged in a strip-plot design with complete randomized blocks with three replications. For both years, the water and N_(app) had significant(P0.05) effects on leaf area index(LAI), yield, water use efficiency(WUE) and nitrogen partial factor productivity(NPFP) while the interaction effect of water and N_(app) on yield, WUE and NPFP was significant(P0.05) in 2018, and not in 2017. For the same SWC level, WUE first increased, then decreased as N_(app) increased, while NPFP tended to decrease, but the trend of LAI with different N_(app) was closely related to SWC. At the same N_(app), the LAI increased as SWC increased, while the WUE and NPFP first increased, then decreased, but the yield showed different trends as the SWC increased. The dualistic and quadric regression equations of water and N_(app) indicate that the yield, WUE and NPFP cannot reach the maximum at the same time. Considering the coupling effects of water and N_(app) on yield, WUE and NPFP in 2017 and 2018, the SWC level shall be controlled in 75–60% of field capacity and the N_(app) is 0.45 kg/plant, which can be as the suitable strategy of water and N_(app) management for the maximum comprehensive benefits of yield, WUE and NPFP for apple trees in the Loess Plateau and other regions with similar environments. 相似文献
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[Objective] The aim of this study was to obtain the flanking sequences of T-DNA in the transgenic cotton containing a GbVe1 over-expression cassette. [Method] The T-DNA insertion copy number in the transgenic GbVe1 cotton was analyzed by southern blot. Flanking sequences of the transgenic lines with putative single T-DNA insertion copy were obtained using high-efficiency Thermal asymmetric interlaced polymerase chain reaction (hiTAIL-PCR). The T-DNA insertion sites were further confirmed by PCR with specific primers. [Result] RB-flanking sequences (119-1 018 bp) and LB-flanking sequences (243-516 bp) were obtained from three transgenic lines with low copy number of T-DNA insertion. The AT content was more than 63% in these flanking sequences. A same single insertion site in the intron of Gohir.D01G157600.1 was found in the two transgenic lines 7/100826-152 and 12/100826-393, while two separated insertion sites, one also in the intron of Gohir.-D01G157600.1 and the other in the intergenic region of A12 chromosome, were found in the transgenic line 1/w-ch14. A deletion of 21 bp was found in the insertion site in the intron of Gohir.D01G157600.1. The T-DNA insertion in the intron of Gohir.D01G157600.1 was further confirmed by the specific PCR. [Conclusion] The flanking sequences of T-DNA in the transgenic GbVe1 cotton were obtained and the specific transformation event in the intron of Gohir.D01G157600.1 was further confirmed by PCR. 相似文献