磷酸盐氧同位素技术在土壤磷循环中的应用     

赵甜甜  田康  胡文友  黄标  赵永存 《土壤学报》2022,59(5):1204-1214

磷是土壤生态系统中的重要组成元素,开展土壤磷循环研究对提高磷肥利用效率和降低磷的生态环境风险具有重要意义。磷酸盐氧同位素技术已经被证明是一种示踪环境中磷生物地球化学行为的有效方法。本文系统综述了磷酸盐氧同位素技术的研究进展和未来发展方向。详细介绍了磷酸盐氧同位素的技术原理、样品处理和测定方法;阐述了无机磷和有机磷的氧同位素特征及时空分布特征;从评估土壤磷微生物利用状况和示踪土壤磷循环两个方面探讨了磷酸盐氧同位素技术在土壤磷循环研究中的应用前景,分析了磷来源、环境条件、生物活动和样品前处理过程对土壤磷酸盐氧同位素特征的影响,最后展望了该技术未来的研究方向。以期为磷酸盐氧同位素技术在土壤学和环境科学领域的发展和应用提供新的视角和科学指导。  相似文献   

紫色土可溶性有机碳的吸附-解吸特征     

李太魁  王小国  朱波 《农业环境保护》2012,(4):721-727

选择代表性的酸性、中性和石灰性紫色土为实验材料,采用平衡吸附和动力学吸附法研究了紫色土对可溶性有机碳（DOC）的吸附-解吸特征,分析了土壤理化性质与DOC吸附量之间的关系。结果表明,紫色土对DOC的吸附容量呈以下顺序：酸性紫色土〉中性紫色土〉石灰性紫色土。石灰性紫色土对DOC的解吸率明显高于酸性、中性紫色土,其迁移淋失问题值得重视。紫色土对DOC的吸附过程包括快速吸附和慢速吸附2个阶段,0~0.5 h内吸附速率最大,随后吸附速率逐渐减小,4~6 h内基本达到吸附平衡。土壤pH值、有机质、粘粒和活性铁铝氧化物含量是影响土壤DOC吸附量与解吸率的重要因素。通径分析表明,土壤理化性质对DOC吸附量的直接作用系数大小顺序为活性铝含量〉土壤pH值〉有机质,对DOC解吸率的直接作用系数大小顺序为活性铁含量〉粘粒〉有机质。多元线性回归模型能较好地预测土壤对DOC的吸附及解吸的变化。  相似文献   

施肥对喀斯特地区植草土壤活性有机碳组分和牧草固碳的影响   总被引：1，自引：0，他引：1  

林明月  邓少虹  苏以荣  刘坤平  李伏生 《植物营养与肥料学报》2012,18(5):1124-1132

通过盆栽试验,研究施肥对喀斯特地区植草土壤不同活性有机碳组分和牧草固碳的影响。试验处理包括CK（不施肥）、 N1 （N 150 mg/kg）、 N2 （N 250 mg/kg）、 N1P1 （P2O5100 mg/kg）、 N2P2 （P2O5150 mg/kg）、 N1P1K1 （K2O 70 mg/kg）、 N1P1K2 （K2O 105 mg/kg）和N2P2K1和N2P2K2。结果表明,与对照（不施肥）相比,施肥处理增加植草土壤有机碳、 微生物量碳和易氧化碳,有机碳日矿化量和累积矿化量以及牧草固碳量。其中N1P1K1处理土壤有机碳和易氧化碳最高,N1P1处理土壤微生物量碳最高,N2P2K1处理土壤可溶性碳最高,N2P2K2处理牧草地上部及根系固碳量、 有机碳日矿化量和累积矿化量均最高。综上,低量氮磷钾肥配施有利于土壤活性有机碳的积累,高量氮磷钾平衡配施牧草固碳效果最佳。  相似文献   

土壤优先流运动的活动流场模型分形特征参数计算   总被引：1，自引：3，他引：1  

盛丰  张仁铎  刘会海 《农业工程学报》2011,27(3):26-32

活动流场模型分形特征参数控制着优先流的产生和发展,因此准确获得活动流场模型分形特征参数值对提高模型的模拟预测精度具有重要意义。该研究采用染色示踪方法,将优先流流场从流动背景中显示出来,通过数字图像分析和采样分析获得优先流流场和流场内土壤含水率的分布模式,根据活动流场模型本构方程拟合活动流场模型分形特征参数值;针对3种常见的入渗后染色区内土壤含水率分布模式,分别提供了相应的活动流场模型分形特征参数的计算方法。研究结果显示,1）由于入渗后土壤水重分布的影响,活动流场区域和染色区域在整个入渗深度范围并不完全重合,因此仅可选择活动流场与染色区域相重合深度范围内受土壤初始含水率影响较小的数据来拟合活动流场模型分形特征参数值;2）土壤质地对入渗后染色区内土壤含水率的分布模式有显著影响,细质地土壤中入渗后染色区土壤含水率沿入渗方向逐渐减小,粗质地土壤中入渗后染色区土壤含水率沿入渗方向先增大后减小。  相似文献   

水体太阳能供电增氧系统及其运行效果     

游国栋  杨世凤  李继生  侯勇  王秀清  南忠良  王昶 《农业工程学报》2012,28(13):191-198

为了快速改善水产养殖水体质量,该文分析了国内水体富营养化的现状和存在的问题,提出了以太阳能电池为动力,采用单片机设计了一套水体增氧系统,重点介绍了硬件组成、结构特点和软件实现方法,并应用在公园鱼池净化和鲤鱼养殖生产中。试验结果表明,该系统能够实时控制鱼池中的溶氧量、pH值,使多环境因子稳定在最佳值附近。为增强水体的自净能力,提高水产养殖水平提供了一种切实可行的技术措施。  相似文献   

主动型配电网日前调度策略研究     

窦震海  牛焕娜  高燕  杨明皓  杨仁刚 《农业工程学报》2014,30(11):126-133

相对于传统配电网,主动型配电网可以合理利用其双向调度功能,充分发挥分布式发电容量,在保护环境的同时还可以提高电力公司的效益。以电力公司效益最大为调度目标,针对主动型配电网调度问题,该文计及输电和高压配电网网损的影响,提出了一种配电网日前优化调度模型,通过该模型对微电网电源交互功率和分布式电源进行优化调度,同时确定最佳渗透率,不仅可以有效地削峰填谷,还可以根据最佳渗透率调整分布式电源的功率,使电力公司效益最大化。算例研究表明,电网中接在距离电源点较近的节点下的主动型配电网,通过该文提出的优化调度模型,得出渗透率为21.14%时,电力公司效益最高。该研究可为主动型配电网日前调度策略以及分布式电源最佳渗透率的制定提供参考。  相似文献   

微孔曝气流量与曝气管长度对水体增氧性能的影响   总被引：2，自引：2，他引：2  

程香菊  曾映雪  谢骏  龚望宝 《农业工程学报》2014,30(22):209-217

为了探究曝气流量与曝气管长度对增氧性能的影响,在不同曝气流量、不同曝气管长度条件下进行了室内水体底部微孔曝气增氧试验。分析了曝气流量与曝气管长度对氧体积传质系数、增氧量和氧利用率的影响。研究结果表明,当曝气流量为0.27~0.55 m3/s、曝气管长为0.9~1.5 m时,所对应的氧体积传质系数在0.63~1.1 h-1变化,增氧量在6.8~12.9 g/h变化,氧利用率在6.87%~9.28%变化,且在一定的曝气管长度下,氧体积传质系数、增氧量均与曝气流量成正比,而氧利用率则与其成反比关系;在一定的曝气流量下,曝气管长度对氧体积传质系数产生的影响表现为先高后低再高的趋势;氧体积传质系数与修正的饱和溶解氧浓度是否作为增氧量的主要影响因子取决于曝气管长度;曝气流量对氧利用率较曝气管长度更为敏感。研究还发现,微孔曝气系统中存在着最优曝气管长度,使得增氧性能最佳,并建立了最优曝气管长度与曝气流量、水深、输入压力、最优初始气泡直径的相关关系式,为低碳经济下微孔曝气系统的设计和运行提供了理论依据。  相似文献   

Dynamics of dissolved oxygen (DO) in ponded water of a paddy field     

Mohamed Ismail Mohammed Mowjood  Tatsuaki Kasubuchi 《Soil Science and Plant Nutrition》2013,59(3):405-413

The transfer of heat and dissolved oxygen (DO) through water is important to understand the phenomenon of ponded water in a paddy soil. The heat from solar radiation is absorbed at the soil surface and transferred into the ponded water by convection. This study clarified the dynamics of DO, as well as the role of convection in water in DO transfer in the ponded water of a paddy field. DO concentration in the ponded water of a paddy field was measured in situ in the daytime and during the night. The results were confirmed in lab-scale model experiments. The DO concentration and temperature profiles in the ponded water of a lab-scale paddy field model were investigated under convective and non-convective conditions using solar radiation and infrared radiation, respectively. Under the ponded condition, solar radiation was absorbed at the soil surface whereas infrared radiation was absorbed at the water surface and thereby convective and non-convective conditions were generated, respectively. The diurnal variation in DO concentration was closely related to the intensity of solar radiation. Oxygen generation by micro-algae and its subsequent circulation by convection resulted in uniform DO concentration profiles, with super-saturated values in the ponded water in the daytime. Eventually oxygen was released to the atmosphere by deaeration until DO in water was depleted to the saturated level. During the night the oxygen moved from the atmosphere into the water surface by reaeration which depends on the oxygen deficit related to saturation. The oxygen deficit is caused by the respiration of microorganisms. The oxygen, that moved from the atmosphere to the water surface, was transferred to the soil surface by convection in the water layer. Thus convection plays an important role in the DO transfer in the ponded water of a paddy field. The DO dynamics is correlated with biological processes in the ponded paddy soil.  相似文献   

Role of active aluminum in the formation of water-stable macroaggregates     

Saiyed Md. Ibrahim  Yoshiaki Inoue  Haruo Shindo 《Soil Science and Plant Nutrition》2013,59(4):685-689

Soil structure is determined by the arrangement of particles in soil and the particles of sand, silt, and clay bind together into aggregates of various sizes by organic and inorganic materials. Structural stability which is the ability of the aggregates and pores to remain intact when subjected to stress, markedly affects crop production and soil erosion (Tisdall 1996). Since water, either directly as rainfall or as surface runoff is the main agent of aggregate breakdown, in the analyzes of stable soil aggregation, the term water-stable aggregation is generally used (Lynch and Bragg 1985). Water-stable aggregates have been divided into micro aggregates < 0.25 mm dia.) and macro aggregates (> 0.25 mm dia.) (Edwards and Bremner 1967; Tisdall and Oades 1982). Microaggregates show a relatively high stability against physical disruption (Edwards and Bremner 1967). On the other hand, macro aggregates are sensitive to soil management (Tisdall and Oades 1982).

There are many reports on the relationships between the aggregate stability and the soil physicochemical properties. For example, significant correlations were found between the aggregate stability and the amounts of organic C (Tisdall and Oades 1982), total N, and carbohydrates or the CEC (Chaney and Swift 1984). However, most of these studies were conducted in non-volcanic ash soils. Volcanic ash soils are widely distributed in Japan and are very important soils for crop production. The objective of this study was, therefore, to obtain more information on the relationship between the degree of macro aggregation and the soil physicochemical properties in non-volcanic and volcanic ash soils.  相似文献   

种植翻压紫云英配施化肥对稻田土壤活性有机碳氮的影响   总被引：24，自引：0，他引：24  

刘春增  常单娜  李本银  曹卫东  吕玉虎  潘兹亮 《土壤学报》2017,54(3):656-668

依托长期种植紫云英定位试验,以不施肥(CK)为对照,研究化肥(100%F)、紫云英配施100%、80%、60%和40%化肥(G+100%F、G+80%F、G+60%F、G+40%F)以及紫云英(G)对土壤活性有机碳氮、水稻产量、氮肥利用率及其他土壤养分的影响。结果表明,与对照不施肥相比,单施化肥对土壤水溶性有机碳(WSOC)的影响很小,土壤水溶性有机氮(WSON)和微生物生物量碳氮(SMBC、SMBN)含量分别增加了20.61%、10.49%和2.20%;单施紫云英处理土壤WSOC、WSON、SMBC和SMBN含量分别增加了25.52%、36.30%、19.16%和10.37%;紫云英配施化肥增加了土壤WSOC、WSON、SMBC和SMBN的含量,增幅分别为12.99%~22.80%、26.66%~56.61%、19.01%~29.56%和16.08%~32.90%。施肥提高了土壤活性有机碳氮占土壤有机碳(SOC)、全氮(TN)的比例,紫云英配施化肥和单施紫云英效果优于单施化肥。土壤活性有机碳氮与水稻产量、SOC、TN和铵态氮(NH_4~+-N)呈显著或极显著正相关。施肥增加水稻产量,G+80%F最高(10026kg hm~(-2))。与100%F相比,化肥减施20%~40%水稻不减产,同时氮肥农学效率和氮肥偏生产力提高,增幅分别为11.64%~149.65%和2.66%~149.92%,土壤SOC、TN和NH_4~+-N含量增加,土壤有效磷和速效钾降低。综合考虑水稻产量、氮肥利用率和土壤肥力,紫云英翻压22500 kg hm~(-2)、磷钾肥常规用量、氮肥减施20%时最优。  相似文献