长期有机无机肥配施条件下的旱地红壤水分特征分析

以长期有机无机肥配施条件下的旱地红壤为研究对象,采用压力膜法测定土壤水吸力在1~1500 k Pa条件下的旱地红壤含水量变化,绘制出完整的土壤水分特征曲线;运用van Genuchten模型对实验数据进行拟合并计算出旱地红壤中不同类型水分的含量,借助相关分析探讨了土壤团聚结构、土壤有机质、铁铝氧化物与黏粒等土壤理化性质与旱地红壤中各类型水分常数间的相关关系。结果表明:长期配施有机肥的旱地红壤水分含量均随着土壤水吸力(0~1500 k Pa)的增加呈现出"快速下降-缓慢下降-基本平稳"的变化趋势;配施有机肥虽然可显著提高旱地红壤中的饱和含水量,但同时也使旱地红壤中的多余水显著提高,且可显著降低全有效水占饱和含水量的比例。相关分析表明,旱地红壤游离氧化铝、有机质分别与正常生育有效水、速效水及全有效水呈显著正、负相关关系。这一结果意味着旱地红壤中游离氧化铝含量越高、有机质含量越低,越利于旱地红壤中有效水量的提高,但背离了"有机质增加可以提高土壤供水能力"的这一通识。因此,有必要明确并区分铁铝(氢)氧化物与有机质在红壤团聚结构的形成及土壤保水功效调控过程中的作用与机制,进而为旱地红壤水分的有效调控提供科学的依据。     

氮肥对水稻不同生长期土壤不同深度氮素渗漏的影响

为了探明太湖地区氮肥施用对水稻不同生长期稻田土壤氮素渗漏的影响,利用渗漏管进行了原位监测。结果表明：①土壤各层(20 ~ 40、40 ~ 60、60 ~ 80和80 ~ 120 cm)渗漏液中铵态氮(NH4+-N)的平均浓度在水稻分蘖期较高,而硝态氮(-N)和全氮(TN-N)的平均浓度则在苗期相对较高。渗漏液中NH4+-N和TN-N浓度随土壤深度增加基本呈降低趋势。②以土壤80 ~ 120 cm深处渗漏量为进入地下水的氮素渗漏量,发现TN-N渗漏量占施肥量的比例为1.69% ~ 2.04%。分蘖期的NH4+-N渗漏量相对较多,而苗期-N和TN-N相对较多,总TN-N渗漏量中NH4+-N和-N基本无差异。③氮肥用量增加降了氮肥利用效率,加剧了土壤各层氮素渗漏风险。当施氮量由N 200增至270 kg/hm2时,氮肥表观利用率下降7.14%,下渗至地下水中的TN-N增加12.3%。     

滇西陇川县耕地土壤环境质量分析评价

为揭示滇西地区土壤环境质量状况,以陇川县为例,参照《绿色食品产地环境技术条件》,对耕地土壤pH值、有机质、全氮、速效磷、速效钾营养元素含量及重金属元素铅、镉、汞、砷、铬、铜总量进行测定分析。采用标准对比法、单因子污染指数法和Nemero综合污染指数法,对其土壤环境质量进行了评价。结果表明,研究区土壤pH值介于3.49~7.45之间,均值为5.05,土壤偏酸;各营养元素平均值中有机质、全氮、速效磷含量为优良,速效钾含量为中等,有机质、全氮、速效磷、速效钾含量分别有64.17%、59.34%、75.33%、71.66%的耕地面积达到生产绿色食品土壤肥力要求,分别有35.83%、40.66%、24.67%、28.34%的面积土壤肥力不足;采用单因子污染指数法对土壤重金属评价,砷、铬、铜处于清洁状态;有20.27%、2.03%、4.73%的样本铅、镉、汞单因子污染指数大于1,所代表的面积受到铅、镉、汞轻度污染,镉有1.35%样本单因子污染指数大于2,所代表的面积受到镉中度污染;综合污染指数评价,4.79%样本达到轻度污染。     

不同土地利用方式下土壤温度与土壤水分对黑土N2O排放的影响

采用静态箱一气象色谱法,对黑土区3种不同土地利用方式（草地、裸地和农田）下土壤氧化亚氮（N：O）的排放特征及其与土壤温度和土壤水分的关系进行研究。结果显示：试验监测期间（2011年5月27日-9月30日）,不同土地利用方式下,土壤N：0累积排放量分别为草地52．08mgN·m^-2裸地64．43mgN·m^-2农田70．16mgN·m^-2,农田土壤N：O累积排放量比草地和裸地分别高出35％和9％,草地、裸地和农田的N2O平均排放通量分别为16．56、20．36、21．44μgN·m^-2·h^-1。草地和裸地中,土壤N2O排放通量与土壤温度和土壤水分（充水孔隙度,WFPS）相关性均不显著,但在农田中,土壤N20排放通量与土壤温度（5cm和10cm）和土壤水分（5cm）均呈显著正相关（P〈0．05）。另外,土壤N2O累积排放量与土壤硝态氮和矿质氮含量均呈正相关关系。研究表明,黑土草地开垦可促进土壤N2O的排放,且不同土地利用方式下土壤N2O排放的主要影响因子不同。     

农村面源污染治理的“4R”理论与工程实践——案例分析

农村面源污染问题日益突出,是当前水污染控制与水环境改善的重点和难点。“十一五”期间,在国家水专项的支持下,以农村面源污染治理的“4R”理论（源头减量-过程阻断-养分再利用-生态修复）为指导,选择江苏省无锡市的直湖港小流域龙延村为综合示范区进行了技术的集成与工程化应用,取得了良好效果。本文以此为典型案例,详细介绍了综合示范区的污染现状、“4R”技术的集成应用与衔接配套、各项技术应用的污染控制效果以及区域环境改善效果,并对“4R”理论的核心内涵以及未来的发展进行了总结和讨论。     

转5-烯醇式丙酮酰莽草酸-3-磷酸合酶(EPSPS)基因抗草甘膦烟草和棉花的获得

以从抗草甘膦的荧光假单胞菌(Pseudomonas fluorescens)G2中克隆的、并按双子叶植物偏爱密码子改造的5-烯醇式丙酮酰莽草酸-3-磷酸合酶(EPSPS)基因aroAG2M为目的基因,用菊花Rubisco小亚基的启动子驱动,在基因的5'端加叶绿体定位信号肽,构建植物表达载体。用根癌农杆菌(Agrobacterium tumefaciens)介导的叶盘法转化烟草(Nicotiana tabacum)获得转基因植株,PCR检测表明,外源基因已整合到烟草基因组中。转基因和非转基因植株6～8叶龄苗的叶片涂抹不同浓度的草甘膦异丙胺盐,表明转基因植株可抗4‰浓度的草甘膦,而非转基因对照植株则在2‰草甘膦时即死亡。花粉管通道法转化棉花(Gossypium hirsutum),得到3株具有草甘膦抗性的转基因植株,PCR和Southern检测显示,外源基因已整合到棉花基因组中,田间喷洒草甘膦异丙胺盐水剂,表明T1代转基因植株具有草甘膦抗性。     

黄土高原半干旱地区土地利用变化对土壤养分、酶活性的影响研究

对黄土高原半干旱地区土地利用变化进行了土壤养分、酶活性及相关性研究。结果表明，过氧化氢酶活性可表征人工草地苜蓿地的速效磷、速效钾，撂荒地的有机质、全氮和碱解氮的正向转化状况，及沙棘林土壤速效磷负向转化进程，但不能用过氧化氢酶活性表征精细耕作的土壤肥力状况。多酚氧化酶活性可表征农田土壤有机质、全氮正向转化进程及菜园土和果园土有机质、全氮负向转化进程，不能表征自然土壤腐殖质转化状况。转化酶活性可表征农田、菜园土、果园、苜蓿地和撂荒地的碱解氮正向转化进程以及沙棘林碱解氮的负向转化进程，可全面表征撂荒地的速效磷负向转化进程及其它养分的正向转化进程。脲酶活性可表征果园地、菜园土的全氮、碱解氮和有机质的肥力水平。磷酸酶活性可表征果园土、农田和撂荒地的速效磷正向转化状况，不能表征其它土地利用类型的磷素转化状况。     

中国东南部红壤地区不同植被对土壤侵蚀和土壤养分的影响

The effect of different vegetation systems including bamboo plantation (BP), forest ecosystem (CF), citrus orchard (Ctr) and farmland (FL) on erosion and nutrients of red soil were investigated in hilly region of southeastern China to find effective control measures for soil erosion. The results showed that all the vegetation systems could significantly reduce soil erosion and nutrient losses compared to bare land (Br). The ability of different vegetation systems to conserve soil and water was in the order of Ctr > BP > CF > FL > Br. Vegetation could also improve soil fertility. The soil organic matter, total N and total P contents were much higher in all the vegetation systems than in bare land, especially for the top soils. Vegetation systems improved soil physical properties remarkably. Compared to the bare land, soil organic matter, TP, TK and available K, especially soil microbial biomass C, N and P, increased under all the vegetation covers. However, they were still much lower than expected, thus these biological measurements are still needed to be carried out continuously.     

低丘红壤南酸枣-花生复合系统物种间水肥光竞争的研究--Ⅰ.南酸枣与花生生育性状及产量研究

低丘红壤实施南酸枣与花生农林复合种植模式可促进南酸枣生长,花生单作产量及其复合经营总平均单产随土壤熟化而逐年提高,但复合种植花生生育性状在第2年后受南酸枣影响而发生变化,其产量和生物量呈递减趋势。     

红酵母RS1的高耐铝能力与增厚的细胞壁有关而不来自体外铝离子的螯合作用

Aluminum (Al) is very toxic to many living organisms, including plants, animals and microorganisms. However, despite many studies on Al tolerance in plants, little has been reported concerning these mechanisms in microorganisms. In this study, a red yeast, which could tolerate Al 3+ concentrations as high as 200 mmol L-1 , was isolated from acidic soils, identified as Rhodotorula sp. and designated as RS1. As the medium compositions can greatly affect the responses of microorganisms to Al, two culture mediums, glucose medium (GM) and lysogeny broth medium containing soil extract (S-LBM), were used. During growth of RS1, the pH of medium decreased in GM but increased in S-LBM. These changes in the pH of the media were not induced by Al addition. No or little secretion of organic acids was observed in RS1 growth media. Importantly, the thickness of the cell walls and the ratio of cell wall to biomass of RS1 significantly increased in GM with high Al 3+ concentrations. In the presence of 100 mmol Al L-1 , 78.0% of the total Al of whole cells was present in the thickened cell walls. The Al in cell walls was mostly bound to OH, amide and CO groups of polysaccharides. These results suggest that thickening of the cell wall in response to the high Al 3+ concentrations may play an important role in the high tolerance of RS1 to Al and that pH increase of the medium and chelation of Al ions are not involved in Al tolerance of this organism.