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951.
于2018年4月?10月(春季4月、夏季7月、秋季9月)利用PS-TDP8树木茎流监测系统对库姆塔格沙漠东南部胡杨(Populus euphratica)的液流速率变化进行监测,采用相关分析及逐步回归法分析气象因子(太阳总辐射、空气温度、风速、空气相对湿度)对胡杨液流的影响。结果表明:胡杨茎干液流日变化趋势呈几字“宽峰型”;夏季液流的启动时间最早,液流启动在06:00,秋季液流启动时间最晚,不同季节夜间存在较高液流(10.994~26.035 cm·h?1);树干液流速率与太阳总辐射、空气温度、风速、饱和水气压差呈正相关关系,与空气湿度呈负相关关系;影响春季、秋季胡杨液流速率的主要气象因子是太阳总辐射和空气温度,夏季为太阳总辐射和空气相对湿度;不同季节胡杨液流速率与空气温度、空气相对湿度、风速、饱和水气压差的日变化响应呈顺时针环状,与太阳辐射响应呈逆时针环状;不同季节胡杨液流速率对气象因子的响应规律存在差异。这表明胡杨为了保持水分平衡应对水分亏缺的策略不同,在一定条件下(极端干旱)通过气孔调节降低水分损失。研究结果对于明确干旱沙漠环境中胡杨水分传输对环境因子的响应规律及更深入地认识胡杨适应干旱环境的水分利用策略具有重要意义。 相似文献
952.
内蒙古草原作为全球干旱、半干旱区的重要组成部分,是诸多研究关注的热点区域。家庭牧场作为内蒙古草原基本的生产和管理单元,探析其可持续发展有助于为实现区域可持续发展提供科学依据。本研究阐述了内蒙古草原家庭牧场的形成历程及定义;并分别侧重自然生态系统、社会经济系统、自然-经济-社会复合生态系统3个方面总结了其研究进展;最后分别在坚持草牧业发展理念、依托景观可持续性科学指导、加强3个界面耦合研究、扩展沙地草原、关注未来发展模式、重视技术支撑等6个方面就内蒙古草原家庭牧场进行了研究展望。希望本研究在为内蒙古草原可持续发展提供科学支撑的同时,亦能为全球干旱、半干旱草原区的可持续发展提供参考。 相似文献
953.
通过有效的检测,及时解决虫害或机械造成的损伤,从而减轻果品之间病虫害的传播,同时
还需要对残次品进行处一定理,以确保成本的有效降低,达到全面提高我国果品的品质,增加国际市
场的竞争力。基于此,本文主要讨论了果品分级技术的落实现状以及发展情况。 相似文献
954.
Xue YANG Junpeng LI Tingting ZHAO Lidong MO Jianli ZHANG Huiqin REN Nianxi ZHAO 《干旱区科学》2019,11(1):66-74
Intraspecific trait variation and heritability in different environmental conditions not only suggest a potential for an evolutionary response but also have important ecological consequences at the population, community, and ecosystem levels. However, the contribution of quantitative trait variation within a grassland species to evolutionary responses or ecological consequences is seldom documented. Leymus chinensis is an important dominant species in semi-arid grasslands of China, which has seriously suffered from drought and high temperature stresses in recent decades. In the present study, we measured variation and heritability of 10 quantitative traits, namely the number of tillers, maximum shoot height, number of rhizomes, maximum rhizome length, rhizome mass, aboveground mass, root mass, maximum net photosynthetic rate(Pmax), specific leaf area(SLA), and leaf length to leaf width ratio(LL/LW), for 10 genotypes of L. chinensis under one non-stress(Ck) condition and three environmental stress conditions(i.e., drought(Dr), high temperature(Ht), and both drought and high temperature(DrHt)). Result indicated that(1) the interaction of genotype and environmental condition(G×E) was significant for 6 traits but not significant for the other 4 traits as shown by two-way analysis of variance(ANOVA), suggesting that different selection forces were placed for different traits on the factors dominating phenotypic responses to different environmental conditions. Moreover, these significant G×E effects on traits indicated significantly different phenotypic adaptive responses among L. chinensis genotypes to different environmental conditions. Additionally, individuals could be grouped according to environmental condition rather than genotype as shown by canonical discriminant analysis, indicating that environmental condition played a more important role in affecting phenotypic variation than genotype;(2) by one-way ANOVA, significant differences among L. chinensis genotypes were found in all 10 traits under Ck and Dr conditions, in 8 traits under Dr Ht condition and only in 4 traits under Ht condition; and(3) all 10 traits showed relatively low or non-measurable broad-sense heritability(H_2) under stress conditions. However, the lowest H_2 value for most traits did not occur under DrHt condition, which supported the hypothesis of 'unfavorable conditions have unpredictable effects' rather than 'unfavorable conditions decrease heritability'. Results from our experiment might aid to improve predictions on the potential impacts of climate changes on L. chinensis and eventually species conservation and ecosystem restoration. 相似文献
955.
将含有裂解酶基因重组温控裂解质粒pBBR1MCS::PR-PL-E电转化至粗糙型布鲁菌M111中,构建重组布鲁菌M111(pBBRlMCS::PR-PL-E)。重组菌株在28℃培养,42℃诱导表达裂解酶E,从而制备布鲁菌菌壳。绘制布鲁菌生长曲线及裂解曲线,计算裂解率并用透射电镜观察布鲁菌菌壳的形态。结果显示,成功制备了布鲁菌菌壳,温控裂解质粒pBBRIMCS::PR-PL-E对布鲁菌的裂解率为100%。透射电镜观察可见细菌内容物部分流出,细菌表面出现不同程度的皱缩,细胞形态发生变化。结果表明,本试验成功制备了粗糙型布鲁菌菌壳,初步研究了其基本特性,为下-步开展布鲁菌菌壳疫苗的研究奠定了基础。 相似文献
956.
Habtamu Ayalew Joshua D. Anderson Tadele T. Kumssa Frank Maulana Xue‐Feng Ma 《Journal of Agronomy and Crop Science》2019,205(2):213-219
Oat (Avena sativa L.) is one of the most important forage crops in the Southern Great Plains of the United States. However, it is more sensitive to cold stress than other small grains. In this study, diverse oat germplasm was evaluated for winter survival across multiple years and locations in the region. Field screening started with an observation trial of 1,861 diverse genotypes in the 2012–2013 season and was followed by four seasons of replicated trials from 2013 to 2017. Selection of good winter survivors was started in 2014–2015 season. All trials were laid out in randomized complete blocks with replications of two in 2013–2014 and 2014–2015, four in 2015–2016, and three in 2016–2017. Winter survival was scored in a 1‐to‐9 scale. Data were analysed for each year and location separately. Additive main effects and multiplicative interaction (AMMI) analysis were carried out on combined data of 35 genotypes that were commonly grown in each year and location. Highly significant (p < 0.001) variations were observed among genotypes, environments and genotype‐by‐environment interaction (GEI). The first three interaction principal components (IPCs) were highly significant (p < 0.001), explaining 96% of GEI. Broad sense heritability ranged from 46% to 93%, while heritability for all environments combined was relatively low (24.6%). At the end of the two cycles (2014/2015‐to‐2016/2017) of selection, mean winter survival was improved by more than 38% per cycle compared with the base population mean. Genotypes CIav 4390, CIav 6909 and CIav 7618 showed significantly higher winter survival than the standard checks Okay and Dallas. Genotypes CIav 4390 showed 20% and 35% improvement over the standard checks Okay and Dallas, respectively. Winter survival improvement in oat will remain a difficult task because of high GEI and low heritability. The identified superior genotypes will be used as crossing parents to transfer cold tolerance genes to other elite lines. 相似文献
958.
959.
960.
Compact spinning technology is through the airflow force to get fiber strands to be compacted in the condensing zone. In this paper, it makes a deeper study on the morphological changes and movement process of fiber strands in the flow field of condensing zone. Based on the airflow data in the condensing zone, the geometrical model of single fiber is built, and then the trajectory of single fiber can be got. The difference of trajectory and compact effect of fiber strands is also analyzed in the condensing zone of straight, oblique and deformed suction slots. 相似文献