Improvement of Water Use Efficiency in Winter Wheat byBreeding Lines with Low Rate of Water Loss of Excised-Leaves

A study was conducted with the objective of improvement of water use efficiency (WUE) and yield of winter wheat for Lowland Dryland Farming systems through a breeding approach. Various genotypes were screened in 1988 for rate of water loss of excised leaves (RWL) , followed by inter-crossing of diverse parents in 1993. Analysis of the relationship between RWL and yield components and plant traits demonstrated significant differences in RWL among genotypes. Under most circumstances, RWL was correlated negatively with yield and grain weight, and positively with plant height. The results demonstrated a basis for simultaneous selection for high yield and low RWL. It was found that genotypic rank varied with the duration of water loss. Correlation between RWL and yield was reduced by extended water loss duration. Analysis of the genetic variation and segregation of RWL of progenies and the effect of simultaneous screening for RWL and agronomic traits showed that good lines with improved yield and water use performance could be obtained.

Policy on Water Loss Control in China

The Chinese government has raised great attention on water resources and environment over the past several years. In dealing with the issues of water pollution, water management, and the imbalance of water resources, China’s state council released “Water Pollution Prevention and Control Action Plan” in 2015. This policy has become a guideline to promote water sustainability in the long run. Since then, a number of regulatory policies were released to increase the focus on water conservation. Among those actions, water loss control associated with distribution systems is regarded as a key solution to improve water supply efficiency. This paper provided a comprehensive introduction to the framework of water loss control policy in China.

Characteristics of Water Absorption and the Loss of Dust-Sticking Agent

The development of NCZ-1 dust-sticking agent was first intreduced in china. The speed of water absorption of dust-stick-ing agent was measured and studied on mining site and in laboratory, and then the law of water absorption of dust-sticking agent was analyzed. In addition, the mathematical model of the loss rate of dust-sticking agent was established by the application of fluid mechanics theory, and the method of determining the sprinkle parameters of dust-sticking agent was obtained. Through practical verifi-cation, it is found that the error of this mathematical model is less than 10%. So it can be used in the field.

基于物联网农业灌溉系统的参数检测方法研究

为提升农业灌溉系统检测环节准确性及整体作业效率为目标,基于物联网灌溉及参数检测方法应用展开设计。以当前灌溉作业机理及通信结构布局为出发点,通过建立合理正确的参数检测架构,选定高效适应的参数检测方法,实现整体灌溉系统功能优化。进行灌溉系统作业监测试验,结果表明:参数数据通信监测准确率及系统执行效率分别提升至93.70%与95.89%,系统丢包率相对降低至0.79%,平均节水效率相对提升了6.39%。基于物联网平台进行参数检测的有效性与适应性改进,较好地满足了智能灌溉的发展趋势,其方法研究理念对于灌溉系统及类似农机培育系统开发应用具有参考价值。

The stoichiometric approach in determining total evaporative water loss and the relationship between evaporative and non-evaporative heat loss in two resting bird species: passerine and non-passerine

Background: Evaporation is of significant ecological interest.Evaporation from an animal always results in a decrease in the temperature of the surface from which the evaporation occurs.Therefore,evaporation is a one-way transfer which causes heat loss from the organism.Biological evaporation always involves the loss of water which is a vital resource for nearly all biochemical processes.Evaporation is loss of heat via loss of body mass.Methods: The simultaneous determination of energy expenditure and loss of body mass in resting birds allows us to estimate evaporative heat loss.This method includes direct measurements of the energetic equivalent of the loss of body mass as the ratio between heat production,determined by the rate of oxygen consumption and the loss of body mass at various ambient temperatures.Results: The data indicate that evaporation was minimal at lower critical temperature and that the rate of evaporation increased at lower or higher temperatures.Obtained results indicate that passerine and non-passerine species have the ability to change their non-evaporative heat conductance the same number of times(approximately fourfold),and that their abilities in this respect are similar.Conclusions: The novelty of the study resides in the stoichiometric approach to determination of total evaporative water loss.The analysis shows that determinations by stoichiometric approach of total evaporative water loss yielded the values,which fit into the confidence intervals of all equations from literatures.The basal metabolic rate and nonevaporative thermal conductance are fundamental parameters of energetics and determine the level of physiological organization of an endothermic animal.

不同覆膜栽培方式下胡麻叶片叶绿素含量、失水速率及产量

[目的]干旱是制约宁南山区胡麻生长和生产的非生物胁迫因子之一。探索适宜宁南旱作农田覆膜栽培胡麻的有效栽培方式,可为解决胡麻栽培过程中的干旱问题及发展胡麻覆膜栽培提供实践和理论依据。[方法]于2021-2023年,以胡麻品种‘宁亚21号’为供试材料,在大田试验条件下,设平膜穴播(FHS)、垄膜沟播(RFS)和露地条播(CK)共3个处理,分析不同覆膜栽培方式对胡麻叶绿素含量、离体叶片失水速率及产量的影响。[结果]连续3年通过3种覆膜栽培的试验结果表明,在不同覆膜栽培条件下,同一年间胡麻叶片叶绿素含量均表现为FHS>RFS>CK,不同年份间不同覆膜栽培条件下的叶绿素含量不同;与CK相比,RFS和FHS的株高、鲜重和干重均高于CK;2021年和2023年的离体叶片失水速率表现为CK>RFS>FHS,而2022年的离体叶片失水速率表现为CK>FHS>RFS;产量均表现为FHS>RFS>CK,2021年FHS的增产幅度最大,其有效分枝数、有效结果数和单株产量均高于其它处理;有效结果数和单株产量均表现为FHS>RFS>CK。与CK相比,FHS和RFS均提高了胡麻叶片的叶绿素含量、产量、有效分枝数和有效结果数,降低了离体叶片的失水速率,且FHS优于RFS,在2021年FHS增产达到了185.7 kg·hm^(-2),且增产效果显著。相关性分析表明,离体叶片失水速率与叶绿素含量呈显著负相关,与产量呈极显著负相关;叶绿素含量与产量呈显著正相关。[结论]FHS不仅提高了胡麻叶片的叶绿素含量、产量、有效分枝数和有效结果数,还可以降低离体叶片的失水速率,增强胡麻的抗旱性,因此FHS种植方式是适合宁南旱作农田胡麻生产的有效栽培措施。

高温果汁真空冷却特性

为减小真空冷却中液体飞溅并研究不同条件对降温速率的影响,采用控制变量法,通过改变容器的形状、顶部材料与孔径大小、物料的相对装载量、不同初始温度和冷却终温等条件,测定果汁降温过程的质量和温度变化,根据测试结果计算出不同变量下的无效失水率和降温速率。研究表明,降温速率大且无效失水量小的最佳工艺条件为使用相对装载量23.3%、容器顶盖材料为刚性材料、孔径5 mm的长方形容器,由初始温度80℃降至冷却终温为25℃,此时的无效失水率最小,降温速率最快。

膨润土种类及黄原胶含量对减阻泥浆性能的影响

减阻触变泥浆在地下综合管廊顶管施工中具有支撑、填充、润滑等重要作用。本文对减阻触变泥浆中主要原材料—膨润土的种类及含量对泥浆性能的影响进行了实验研究。结果表明:减阻泥浆的漏斗粘度、失水量和析水率等性能指标随钠基、有机和钙基3种膨润土含量的变化规律基本相同。由钠基或有机膨润土配制的泥浆失水量性能优于钙基膨润土,但钙基膨润土在泥浆漏斗粘度性能上表现更好;由上述3种类型膨润土分别配制的泥浆析水率性能相当。另外,本文还研究了黄原胶含量对减阻泥浆性能的影响,实验结果表明添加黄原胶能显著降低减阻触变泥浆的失水量,并在一定程度上提高泥浆的漏斗粘度。

微波-压力联合复热冷链米饭及其品质的研究

为减缓米饭微波复热过程中的失水速率,减少失水干硬对米饭品质的影响,研究采用不同压力进行复热试验,对比复热米饭碘蓝值、色差值、硬度和还原糖含量的变化,以验证方法的有效性。结果表明,复热初期采用70 kPa,复热后期采用50 kPa的分段微波加压复热米饭的碘蓝值为0.178,硬度为3122.12 g,还原糖含量为3.636 mg/g。相比320 W常压复热,70/50 kPa分段式加压复热米饭热点与中心含水率差异由5.60%下降至1.93%,硬度差异由540.82 g下降至239.59 g。加压复热可以有效抑制米饭水分的蒸发,提升温度分布的均匀性。研究为米饭复热生产工业化提供依据。

桥梁混凝土防腐蚀方法及其评价

为提升桥梁混凝土的耐久性,文中在对桥梁混凝土防腐蚀方法介绍基础上,提出了三种防腐蚀处治方案,并对其防腐蚀效果进行评价。结果表明,聚合物砂浆防腐、硅烷浸渍及复合防腐三种防腐蚀方案均能实现防腐蚀功能;采用聚合物砂浆以及复合防腐方案进行处理的混凝土试件,在经过4 d浸水及100次快速冻融循环后,其渗水深度及质量损失率均明显小于硅烷浸渍组试件,表明这两种方案的防腐性能更优。

基片等离子处理对PTFE微波基板性能的影响

采用等离子处理对聚四氟乙烯(PTFE)基片进行表面处理,研究气体流量、放电功率、处理时间的变化对PTFE基片微观形貌和接触角的影响,进而研究对PTFE微波基板介质损耗、吸水率、剥离强度等综合性能的影响。实验结果表明,等离子体处理可以有效增加基片表面粗糙度,降低PTFE基片的接触角,提高其表面能,使覆铜箔层压板的铜箔与介质层之间结合强度提升,制备的PTFE微波基板的剥离强度可接近未处理之前剥离强度的3倍。

水泥稳定建筑垃圾再生集料基层路用性能研究

为研究水泥稳定建筑垃圾再生集料路面基层适宜的材料配合比,开展建筑垃圾再生集料基本技术性能试验,采用2种成型方式、4种水泥掺量、5种砖骨料掺配比例进行路用性能试验。结果表明:再生集料的压碎值随混凝土骨料含量的提高线性降低;振动压实法试件的无侧限抗压强度为重型击实法的1.5倍以上;再生集料基层的无侧限抗压强度和劈裂强度随水泥掺量的提高线性增长,随砖骨料含量的提高线性下降;水泥掺量和砖骨料含量对无侧限抗压强度影响较大、对劈裂强度影响相对较小,但水泥掺量的影响相对砖骨料更显著;随砖骨料含量的增加,再生集料基层的失水率增加,但其干缩系数降低,抗冻性能降低,骨架密实型结构的抗冻性能优于悬浮密实型结构。

基于水土保持率目标导向的温州市林地水土流失防治优化策略研究

水土保持率为新时期生态保护与高质量发展的一项约束性指标,林地是温州市主要用地类型,其水土流失优化治理是提升未来一段时间内温州市水土保持率的关键。参照水利部的水土保持率目标确定方法,基于GIS/RS研究温州市林地水土流失空间分布状况。结果表明:温州市现状林地水土流失中,可完全治理水土流失面积为197.03 km^(2);不可完全治理水土流失面积为919.87 km^(2)。根据坡度、植被覆盖度等因素量化林地水土流失防治目标,结合林地建设优化温州市林地水土流失防治策略。

油田掺水系统能耗分析及评价指标建立

为提高掺水系统的用能质量和用能水平,根据流程走向,分析掺水系统的能耗现状和成因,建立了以能量损失率为评价指标的评价方法,推导出压能损失率和热能损失率的计算方法,并基于熵权法和综合影响因子对多参数影响下掺水泵和加热炉的用能水平进行了分析。结果表明:压能损失率与掺水压力呈正比,与掺水泵机组和电动机的综合效率呈反比;热能损失率与加热炉出口温度、热效率及加热炉进出口温差相关;掺水泵机组效率、加热炉热效率分别对掺水泵和加热炉的用能评价影响最大,评价结果与现场实际情况相符。采用多种措施整改后,单个掺水系统每天可节约电费96~280元,燃料气费60~264元。研究结果可为地面集输系统的节能降耗提供实际参考。

Evaluation of Tomato Genetic Resources for Response to Water Deficit

Water deficit strongly affects plant yield and quality. However, plants can minimize drought injury by adaptation mechanisms that have evolved to escape harmful conditions. The response to water deprivation is a complex trait controlled by several genes. In order to gain a deeper understanding of drought response mechanisms in tomato, a collection of 27 genotypes was studied under different water deficit conditions. Since developmental stages might be differently influenced by drought, analyses were carried out on young plantlets during fruit setting. The only genotype that showed good performances both as water retention and fruit production was the ecotype Siccagno. All the genotypes were analyzed at molecular level with the aim of detecting structural polymorphisms in selected stress-responsive genes. In addition, the expression level of a number of these genes was measured in the genotypes more tolerant to water deficit. Many polymorphisms were detected in six stress-responsive genes, and some could imply significant modifications in the protein structure. Furthermore, the expression analysis by RT-qPCR of three stress-responsive genes allowed arguing that a higher level of expression of the gene erd15 might be related to the better response to water deficit exhibited by Siccagno. Similarly, the lower expression of eight genes in the same genotype analysed through a microarray experiment confirmed the involvement of these stress-related genes in the tomato response to drought. Further investigations are required for a better comprehension of the mechanisms underlying response to water deficit in tomato by exploiting the genetic resource identified as more tolerant. The use of new technologies able to globally analyze structural polymorphism and expression level of genes will succeed to identify crucial genes involved in stress response in the ecotype Siccagno grown under different water regimes.

内养护剂和膨胀剂组合对混凝土收缩的影响

为在等抗压强度前提下调控混凝土的早期收缩开裂,以膨胀剂(HP-CSA)和由高吸水树脂(SAP)引入的内养护水占胶凝材料相同比例进行组合,设计了各自的内掺量均为0%、4.5%、6.0%、9.0%共4种混凝土配合比,研究了其对混凝土早期收缩的调控规律,并分析了混凝土收缩、力学强度、内部相对湿度和干燥失水率之间的关系.结果表明:混凝土早期收缩和内部相对湿度发展均呈2阶段规律;随“HP-CSA+SAP”组合掺量增加,其对混凝土早期收缩的调控作用逐渐增强,且在阶段I的调控作用更为显著,但28 d时仍不能根除混凝土的净干燥收缩;组合掺量对混凝土早期内部湿度发展的整体影响较小;混凝土28 d内的净干燥收缩与干燥失水率之间基本呈线性正相关.从调控收缩、强度保持和经济性等方面综合考虑,6.0%为最优调控组合掺量.

水土保持率:概念内涵、阈值确定及实践应用

[目的]确定全国及不同区域水土流失防治的适宜目标,帮助社会各界了解和应用水土保持率概念及相关研究成果,为促进新时代水土保持高质量发展提供有益参考。[方法]根据2019年水利部首次提出的“水土保持率”指标及其专项研究成果,阐述了水土保持率概念的内涵及其阈值确定方法。以30 m分辨率网格为空间单元,基于土壤侵蚀分类分级、土地利用、地形地貌、植被覆盖等多源地理空间数据,分析计算了全国及各省份水土保持率阈值,并解读了水土保持率系列目标在中国水土保持目标责任考核和落实中的应用。[结果]水土保持率概念的核心是表征符合自然规律并满足经济社会发展要求的水土流失防治适宜程度,远期应当包含减量、降级、增效等多维度的阈值体系,可综合评估区域水土流失防治现状及其所能达到的适宜程度。目前的水土保持率指标主要反映水土流失面积的减量适宜目标,已被用于美丽中国建设评估,并被作为中共中央办公厅、国务院办公厅《关于加强新时代水土保持工作的意见》中的核心指标。[结论]建议基于社会—生态系统范式,在全面考虑自然与社会领域综合因素影响,本地和溢出维度不同效应协同,生态和经济层面多重目标权衡的基础上,深入研究不同地区水土流失消长变化阈值及评估方法等问题。同时,围绕流域系统综合治理的有关要求,关注梯田、林草、淤地坝、坡耕地侵蚀沟等主要治理措施或重点治理对象的适宜规模与合理布局等重大问题。

不同小麦品种籽粒灌浆、脱水特性及其与产量和品质的关系

【目的】鉴选具有灌浆脱水快、丰产性好且籽粒品质优的小麦品种,避免迟播条件下小麦遭遇高温逼熟的危害。【方法】以全国5个生态区的11份小麦品种为材料,分析其灌浆脱水特性、籽粒产量和品质表现。【结果】最大灌浆速率和灌浆持续时间均与生理成熟期籽粒质量呈显著正相关关系,并能最终反应收获期籽粒产量。所有参试品种中济麦22产量最高,达6 195 kg·hm^(-2),其次云麦53为5 898 kg·hm^(-2);郑麦7698和绵麦367产量分别居第3和第4。济麦22灌浆脱水快,且灌浆高峰持续时间长,其籽粒品质符合长江中下游地区中、弱筋型小麦的选育需求,绵麦367的籽粒品质达优质弱筋标准。研究还发现,籽粒脱水阶段表现出籽粒质量不稳,其原因可能是存在小麦籽粒回浆所致。【结论】协调最大灌浆速率和灌浆持续时间有利于提高籽粒产量和脱水速率;生产上可通过调优栽培措施改善和提高中筋、弱筋型小麦品种籽粒品质,并结合籽粒品质检测和鉴选提高品质育种准确性。

水土保持率目标实现路径探讨

中共中央办公厅、国务院办公厅印发的《关于加强新时代水土保持工作的意见》,明确了新时代水土保持工作的重点任务,提出到2025年和2035年全国水土保持率分别达到73%和75%的目标,为新时代全国水土保持工作提供了根本遵循。为促进全国水土保持率目标实现和新时代水土保持高质量发展,阐释了水土保持率的内涵、定义及其阈值和阶段目标的特点与意义,并重点从管理运用、分解落地、分区防治、支撑保障等4个方面探讨了水土保持率目标的实现路径。

烤烟新品系LY1306烘烤前后叶片变化和失水率研究

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