养殖场粪污堆存中3种氨挥发测定技术比较研究

养殖场粪污堆放存储中的氨挥发损失是粪肥N素养分损失的重要环节。采取控氨措施能够降低粪污堆存过程中的氨排放、保存粪肥养分。从现有的可用于测定粪污堆存过程氨挥发的技术中筛选出简单易行且可靠的技术手段可为我国养殖场氨排放测定技术标准的完善提供重要依据。本研究采用通气法(VCT)、间歇式密闭室抽气法(DCT)和被动采样法(PST)同步测定牛粪堆存过程中未经处理、表面覆盖(醋糟、CZ)及施用外源添加剂(磷酸二氢钾+氯化镁、TJ)的氨挥发特征及排放通量。结果表明:(1)试验期间VCT、PST测定的氨挥发总量均低于DCT测定结果。VCT法下CK、CZ和TJ处理的氨挥发量仅为DCT法测定值的20.46%、10.09%和11.17%,而PST法下CK、CZ和TJ处理的氨挥发量为DCT法测定值的64.38%、68.64%和61.67%;(2)采用VCT、DCT、PST 3种方法测定两类减排措施的减排效果一致,覆盖醋糟(CZ)及施用外源添加剂(TJ)均可起到抑制氨挥发的作用,CZ的减排率为35.83%～70.33%,TJ的减排率为35.89%～65.01%;(3)利用PST法测定所得的氨排放量及减排率与基准方法 DCT测定结果基本一致,表明PST法可作为检验农业源氨减排措施效果的测定技术,但仍需进行更多的田间验证,为后续推广提供数据支撑。     

转MsLEA4-4基因拟南芥株系的耐盐性分析

为了深入研究紫花苜蓿（Medicago sativa）MsLEA4-4基因的抗逆性，本试验对前期获得的转MsLEA4-4基因的拟南芥（Arabidopsis thaliana）株系进行不同浓度盐胁迫处理，以验证MsLEA4-4基因在拟南芥植株体内的耐盐性。试验结果表明：盐胁迫后转基因株系的发芽率达到55%，比对照植株（Control plant，CK）高81%；转基因株系的鲜重、叶绿素含量均高于CK（P<0.05）；盐胁迫后转基因株系的存活率比CK提高75.0%~81.3%；盐胁迫明显抑制根系生长，但转基因植株的侧根数量比CK多4~5根（P<0.05）；盐胁迫后转基因株系体内的可溶性糖含量（P<0.05）和超氧化物歧化酶（P<0.01），过氧化氢酶（P<0.01），过氧化物酶（P<0.05）活性均高于CK，脯氨酸（P<0.01）和丙二醛（P<0.05）含量均低于CK。综上可得，MsLEA4-4基因参与了拟南芥体内的耐盐性调控，提高了转基因拟南芥对盐胁迫的耐受性。本研究为进一步探索MsLEA4-4在转基因紫花苜蓿盐胁迫中的功能及培育耐盐性紫花苜蓿品种提供依据。     

中国制造业劳动力成本上升的正负效应分析

作为物质“形象”的第一层面被人们所感知的“物象”是不依赖于人之意识的客观存在。基于对传统村落人文物象的实证研究，认为其能够体现系统的传统造物文化思想，将其概括为“规则、参照、功能与技术、核心”四个层面，并从中揭示了“天、地、人、物”之间的关系，进一步阐释了造物文化思想对传统村落人文物象具有的现代启示。     

小白菜自交不亲和性相关基因的分子标记开发

以自交亲和系WS-199和自交不亲和系WS-85为亲本杂交获得的F_2分离群体为供试材料,采用BSA法结合SNP芯片技术,筛选出与自交不亲和性相关的SNP标记,并将SNP差异位点序列信息与白菜基因组序列进行比对分析,并进一步开发SSR标记,共获得了与自交不亲和性相关的SSR分子标记BrA1-2、BrA1-3和BrA1-14,为分子标记辅助自交不亲和性杂交种生产提供技术支持。     

氨基酸液体肥料替代氮肥对辣椒生长、产量及品质的影响

【目的】氮肥减施条件下,筛选出适合辣椒生长的氨基酸液体肥料比例,提高辣椒的产量及品质。【方法】以辉腾8号为材料,共设6个处理,以常规施肥为对照,减施氮肥10%、20%、30%、40%、50%,配施氨基酸液体肥料,测定辣椒的生长指标、产量及品质指标,分析氨基酸液体肥料替代化肥对辣椒生长、产量及品质的影响。【结果】各处理对辣椒的生长、产量及品质都有影响。T4处理可以提高辣椒的产量,其中,单果重、单株果实数、单株产量、小区产量分别比CK提高0.17%、28.98%、10.11%、24.64%。同时,T4处理可以改善辣椒的品质,果形指数、可溶性蛋白、可溶性糖、VC比CK提高12.62%、10.92%、3.63%、30.44%,硝酸盐含量比CK降低22.61%。【结论】氨基酸液体肥料可以替代部分氮肥且T4处理(减施氮肥40%,配施28 kg/667m²的氨基酸液体肥料)进行基施和追施,可使辣椒的产量和品质达到最好。     

331份四川小麦品种(系)在甘肃陇南抗条锈性表现及利用价值

2014年-2017年度先后对331份四川省小麦生产品种(系)在温室进行苗期人工接种条锈菌混合菌鉴定和甘谷试验站大田成株期分别接种CYR32、CYR33、CYR34、G22-14、中4-1和混合菌鉴定,同时在甘谷试验站和汪川良种场两地进行自然诱发鉴定。结果发现:在人工接种条件下,苗期、成株期表现抗病的分别有‘XK201465’等36份和‘XK20132’等72份材料,分别占10.88%和21.75%;有‘XK62483’等11份材料全生育期表现抗病,占3.32%;两地三年自然诱发鉴定发现,仅有‘XK20132’等5份材料在两地均表现抗病,有‘川农17’等30份材料具有慢条锈性。对供鉴材料在甘肃陇南的利用前景进行了分析。     

激光在土地保护、农作物生长及害虫防治领域应用研究进展

由于激光具有功率高、相干性好、光谱线宽窄、光谱范围广等特点,其在土地保护、农作物生长及害虫防治等领域应用广泛.文章综合国内外激光技术在农业领域的应用情况,介绍了已经获得应用的激光诱导击穿光谱仪、激光测距仪、激光雷达系统、激光补光灯等设备在土壤检测、土地平整、激光诱变育种、植物补光和虫害防治等领域发挥的作用,对激光技术对农业领域的推动作用,特别是激光技术在吉林省农业应用方面的情况进行了展望.     

基于农作制分区的1985—2015年中国小麦生产时空变化

Comparing spatio-temporal variation characteristics of China’s wheat production, yield, sown area and yield-area-contribution in different farming zones in the past 30 years could help improving wheat planting layout and adjusting planting structure. Concentration index, rate of change, moving of gravity and resolution of yield-area-contribution were used to analyze spatio-temporal changes of China’s wheat production and yield-area-contribution based on county wheat production statistics including sown area, production and yield from 1985 to 2015. The wheat sown area decreased obviously in Northeast farming region, Northwest farming region and South farming region and increased rapidly in Huang-Huai-Hai farming region and Yangtze Plain farming region. In Huang-Huai-Hai farming region, the concentration indexes of Haihe Plain farming region, Huang-huai Plain farming region and Fenwei Basin farming region reached to 20.64%, 25.77%, and 21.65% respectively in 2015. Wheat production increased significantly by more than 48 milliontons in Huang-Huai-Hai farming region, and nearly 8 million tons Yangtze Plain farming region but decreased by more than 2.6 million tons in Northeast farming region. In Huang-Huai-Hai farming region, wheat production was concentrated in Haihe Plain farming region, Huang-huai Plain farming region and Yuxi Hill farming region. The average wheat yield continuously improved during the study period, Huang-Huai-Hai farming region and Northwest farming region had the yield increase up to 103.5 kg hm ^-2 and 92.9 kg hm ^-2 each year. Wheat yield in Yuxi Hill farming region, Fenwei Basin farming region and Haihe Plain farming region was relatively high in Huang-Huai-Hai farming region. The yield-reduced area was mainly caused by the decreasing of sown area, while the yield-area-contribution rate was different in yield-increased area. Yield-dominant counties were reduced, area-dominant counties were increased and yield-area-dominant counties were relatively steady. In production increased area, yield-dominant and yield-area-dominant counties were the main types in Huang-Huai-Hai Farming region, area-dominant and yield-area-dominant counties were the main types in Yangtze Plain farming region. Chinese wheat production was increasingly concentrated in Huang-Huai-Hai farming region which has high and rapid increase of wheat yield over the past three decades. Haihe Plain farming region, Huang-huai Plain farming region and Fenwei Basin farming region were the most concentrated areas in Huang-Huai-Hai farming region for wheat production during this period. Wheat yield and sown area jointly promoted the increase of wheat production in Huang-Huai-Hai farming region, wheat sown area was the crucial factor to increase wheat production in Yangtze Plain farming region, especially in the north of Jiangsu, Anhui province and greater part of Xinjiang.