黄淮海平原地区夏玉米农田土壤呼吸的动态研究

本文通过对黄淮海平原地区玉米生长季土壤呼吸的测定表明:该地区土壤呼吸日变化呈现单峰曲线;土壤呼吸季节变化大体呈现随温度变化的趋势,最大值出现在8月10日左右;土壤呼吸受5cm地温的影响最大,达到极显著水平。施有机肥对土壤呼吸影响较大,氮磷配施也增加了土壤呼吸量,免耕比耕翻有较少的土壤呼吸量。运用DNDC模型模拟土壤呼吸变化趋势和土壤呼吸变化通量均与田间实测的比较接近,可以用来模拟分析黄淮海平原地区农业土壤碳氮的循环。     

Tillage effects on microbial biomass and nutrient distribution in soils under rain-fed corn production in central-western Mexico

Quantifying how tillage systems affect soil microbial biomass and nutrient cycling by manipulating crop residue placement is important for understanding how production systems can be managed to sustain long-term soil productivity. Our objective was to characterize soil microbial biomass, potential N mineralization and nutrient distribution in soils (Vertisols, Andisols, and Alfisols) under rain-fed corn (Zea mays L.) production from four mid-term (6 years) tillage experiments located in central-western, Mexico. Treatments were three tillage systems: conventional tillage (CT), minimum tillage (MT) and no tillage (NT). Soil was collected at four locations (Casas Blancas, Morelia, Apatzingán and Tepatitlán) before corn planting, at depths of 0–50, 50–100 and 100–150 mm. Conservation tillage treatments (MT and NT) significantly increased crop residue accumulation on the soil surface. Soil organic C, microbial biomass C and N, potential N mineralization, total N, and extractable P were highest in the surface layer of NT and decreased with depth. Soil organic C, microbial biomass C and N, total N and extractable P of plowed soil were generally more evenly distributed throughout the 0–150 mm depth. Potential N mineralization was closely associated with organic C and microbial biomass. Higher levels of soil organic C, microbial biomass C and N, potential N mineralization, total N, and extractable P were directly related to surface accumulation of crop residues promoted by conservation tillage management. Quality and productivity of soils could be maintained or improved with the use of conservation tillage.     

Wetting rate and sodicity effects on interrill erosion from semi-arid Israeli soils

Interrill erosion depends on soil detachment and sediment transport, which are affected by seal formation and runoff. The objective of this study was to investigate the effect of wetting rate (WR) on runoff and soil erosion in semi-arid Israeli soils varying in clay content and exchangeable sodium percentage (ESP). Six soils, ranging in clay content between 90 and 680 g kg⁻¹ and ESP between 0.9 and 20, were packed in 0.2 m×0.4 m trays, wetted at 3 WRs (2, 8, or 64 mm h⁻¹), and thereafter exposed to 60 mm of distilled water rain in a laboratory rainfall simulator. Under non-sodic conditions (ESP<2), highest runoff and erosion were obtained from loam (220 g kg⁻¹ clay and 350 g kg⁻¹ silt) which was ascribed to its high susceptibility to seal formation, runoff and detachability. Runoff and erosion increased with an increase in ESP and WR. The effect of WR on runoff and erosion was negligible in loamy sand and generally increased with an increase in clay content. In clay soils (>600 g kg⁻¹ clay), WR played a greater role in determining runoff and erosion compared with raindrop impact. A linear type dependence existed between erosion and runoff for soils with ESP<5 or when slow WR was used. For high ESP soils, or when medium or fast WR were used, an exponential type relation described better the dependence of erosion on runoff. It is suggested that for sodic soils or for conditions favoring aggregate slaking, runoff level and its velocity were high enough to initiate rill erosion that supplemented raindrop detachment in markedly increasing erosion.     

用田间实测法研究我国亚热带土壤的可蚀性K值

本文在自然降雨条件下用全裸地小区田间实测了我国亚热带七种有代表性的不同类型土壤可蚀性Ｋ值。结果表明这七种不同类型土壤间的Ｋ值差别很大，其中紫色和红砂岩发育的耕种普通红壤的Ｋ值最大，分别达到０．４４４和０．４３８，最小的是第四纪红色粘土发育的红色土，其值只人０．１０４，还不到紫色土Ｋ值的１／４。我们变用国际上十分流行的诺谟图方法估算了这七种不同类型土壤的可蚀性Ｋ值，其中有二类土壤用这种方法所估算的Ｋ     

绿洲灌区固定道耕作对土壤盐分动态的影响

解决节水灌溉与控制土壤次生盐渍化的矛盾,对干旱内陆绿洲灌区农田节水、防止土壤次生盐渍化和保证绿洲农业稳定持续发展具有重要意义。本研究以传统翻耕(CT)、垄作沟灌(FRB)、固定道保护性耕作(PRB)和固定道平作(ZT)4种耕作方式为研究对象,研究了固定道耕作模式下的土壤盐分特征。结果表明:与播前相比,收获后FRB处理0~20 cm、20~40 cm、40~60 cm和60~100 cm土层土壤含盐量分别提高83.3%、77.2%、47.6%和84.0%,PRB处理分别提高62.6%、46.3%、28.2%和103.6%。ZT和CT处理0~200 cm土壤含盐量呈"脱盐"和"聚盐"交替变化趋势,0~60 cm各土层土壤含盐量随灌水显著降低,而60~200 cm各土层土壤含盐量随灌水显著增加。0~20 cm、20~40 cm和40~60 cm土层是PRB和FRB处理土壤盐分的主要累积区,ZT和CT处理土壤含盐量随灌水最终积累在100~160 cm土层。从头水后至收获各个时期,PRB处理0~200 cm各土层土壤含盐量均高于FRB处理,且差异显著。ZT处理0~20 cm、20~40 cm、40~60 cm和60~100 cm土层土壤含盐量均显著高于CT处理。垄床不同位置土壤盐分运动水平方向上均呈"垄边向垄中"迁移特点,但PRB处理迁移能力强于FRB处理。垂直方向上,FRB处理在土壤60~80 cm处形成积盐峰,而PRB处理在土壤40~60 cm处形成积盐峰。随灌溉水分入渗再分布后FRB处理土壤盐分向垄沟中部和垄床表层迁移,PRB处理土壤盐分在垄床40~60 cm土层处形成一个积盐层。结果说明,垄作方式能显著增加土壤剖面盐分累积。随着垄作年限增加,盐分向垄床中部积累的能力和含量均增强,由此垄作种植应考虑适时漫灌以达到淋洗土壤盐分的目的。     

胶冻样芽孢杆菌与生物质炭复配及对番茄产量和品质的影响

以提高胶冻样芽孢杆菌在土壤中的存活率、减缓其衰亡速率,延长存活时间,提高其对土壤难溶性钾的解钾效率为目的,利用不同种类的秸秆生物质炭与胶冻样芽孢杆菌进行复配筛选。通过室内培养试验发现,中性小麦秸秆炭可作为胶冻样芽孢杆菌较理想的载体。当土壤培养35天后,土壤速效钾含量在施用炭基解钾菌肥条件下较空白提高了28.53%,较小麦秸秆炭和纯菌液处理分别提高了20.75%、13.41%。纯菌液处理土壤中胶冻样芽孢杆菌的菌落数从1.1×10~9个/g土降为9.0×10~5个/g土,而炭基解钾菌肥处理则为1.4×10~7个/g土。田间施用炭基解钾菌肥能够提高番茄植株和果实中的全钾含量;提高番茄产量和品质,显著提高番茄Vc含量,降低硝酸盐含量。因此,中性小麦秸秆炭与胶冻样芽孢杆菌的复配能够提高菌剂的存活率,有效促进土壤中矿物态钾的释放。     

广东省典型水土流失区高效生态农业措施效益研究--以五华县为例

五华县是广东省典型水土流失地区,建设高效生态农业是新时期水土保持工作的需要,本文研究分析了该县侵蚀山坡地和沙渍地的高效生态农业建设措施的效益,为进一步推广应用提供依据。     

农用化学品及废弃物对土壤环境与食物安全的影响

综述了农用化学品和废弃物(化肥、农药、酸沉降、污水污泥、畜禽粪便和“三废”等)利用现状及其对土壤环境污染与食物安全的影响。     

精准农业土壤采样栅格划分方法的研究

针对精准农业技术应用的日益普及,通过对一个地块土壤养分进行详细栅格采样分析,利用计算机插值的方法对土壤中各种营养元素和微量元素进行了分析。在采样栅格大小不同的条件下,随机选择5个采样点进行插值,分析了5个采样点在不同栅格采样条件下的插值结果。通过插值计算得到土壤中的全氮、速效氮和速效磷随着采样栅格的加大,插值点处的插值误差呈现出加大的趋势,但对于速效钾和其他的微量元素则呈现出与之不同的结论,采样点在田间的分布将直接影响计算机插值计算的分析结果     

设施栽培条件下土壤养分及有机质组成变化趋势的研究

以黄泛平原壤质潮土不同年限的设施栽培土壤为研究对象,探讨了设施栽培条件对土壤养分及土壤有机质组成的影响。结果表明,设施栽培土壤碱解氮、速效磷、速效钾、盐分含量均明显高于大田,其含量主要取决于施用化学肥料的种类和数量,随栽培年限的增加而增加;土壤有机质、腐殖酸、胡敏酸含量随种植年限有升高趋势;HA/FA与栽培年限显著相关,表示设施栽培条件下,土壤熟化程度随有机肥料的逐年施用而有所提高,但HA/FA变化幅度不大,这可能与设施栽培形成的高温高湿条件及施用有机肥料中难分解物质的含量有关。