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921.
922.
Conservation tillage has proved to be an effective option to reduce erosion and particulate phosphorus (PP) losses from fields to watercourses. However, it usually leads to the higher losses of P in dissolved reactive (DRP) form if P accumulates into the uppermost soil layer.In this study we investigated the influence of CaCO3-rich boardmill sludge (BMS, applied 7 years ago) on soil properties and percolate quality with soil samples as well as undisturbed soil columns taken from a long-term conservation-tilled clay field experiment. A short-term laboratory experiment was undertaken to evaluate whether newly added BMS (FS) can be used to improve the quality of percolate waters by reducing turbidity, PP and DRP.The hypothesis was that BMS reduces the risk of dissolved reactive phosphorus (DRP) leaching from conservation-tilled soil. BMS served as a liming agent and counteracted the no-till-induced acidification and accumulation of DRP in the surface soil layer. Surface soil pH was on average 0.3 units higher and soil Ca 500 mg kg−1 higher in the BMS-treated plots than in the plots without BMS. The ability of BMS to enhance the availability of P for plants may prevent the surface accumulation of P in NT cultivation. At the same time, BMS-induced increase in Ca and EC of the surface soil suppress the diffuse double layer by reducing P desorption and leaching risk.In the laboratory experiment, FS reduced percolate turbidity by 80% and PP and DRP concentrations by 62% and 50%, respectively. FS probably improved stability of soil aggregates in the laboratory experiment, obviously through enhanced microbial activity. The covering effect and infiltration of water through the 0–5 cm soil layer seemed to be crucial factors in reducing P losses.BMS proved to be a promising material for the applications to the conservation-tilled fields. The effect of BMS on microbes and immobilization of nutrients, should, however, be studied further in fields under a wider diversity of conditions. 相似文献
923.
《Land Degradation \u0026amp; Development》2017,28(4):1363-1375
Overgrazing contributes to rangeland degradation altering plant community composition, erosion and biodiversity. Little unanimity in the literature exists on the effects of livestock grazing on soil carbon and biodiversity, in part, due to uncontrolled grazing pressure from native and feral animals. Paired paddock contrasts at three, long‐term (>8 years) study locations in the southern Australian rangelands were used to examine the effects of managing grazing intensity through the use of exclusion fencing and rotational grazing on soil organic carbon (SOC), soil nitrogen (TN), ground cover and biodiversity (flora and invertebrates). Grazing management had no effect on SOC or TN on grey soils (Vertisols), but for red soils (Lixisols), significantly higher levels of SOC were found for both the 0 to 5 and 5 to 10‐cm soil depths (0·3% and 0·27% respectively) and associated with increased TN. We found strong and consistent relationships among SOC and higher perennial (p < 0·001), higher litter (p < 0·05) cover and close proximity to trees (p < 0·05). Managing grazing intensity resulted in significantly higher perennial ground cover (p < 0·001) on Vertisols (8·9 to 11%) and Lixisols (12·5 to 15%) and higher plant diversity (both native and exotic) but negatively impacted invertebrate diversity, indicating trade‐offs between production and resources. We provide evidence that the effects of grazing management on SOC are mediated by ground cover and increased organic matter supply and/or reduced soil carbon redistribution (erosion), which indicates that the management of grazing intensity may provide a tool to avoid soil carbon loss in rangelands. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
924.
925.
926.
阐述了计算土壤水入渗情况下θ方程和h方程的适用条件及其优缺点,讨论了用h方程计算饱和非饱和土壤水入渗时的收敛问题。在计算过程中,当h<-hp时,可令h=0,即认为土壤已经饱和。这种处理方法,既满足计算精度,又加快了收敛速度。论文还通过一个实例说明hp如何确定。 相似文献
927.
为探究水分和氮肥增效剂对夏玉米生长及水肥利用的综合影响,通过设置40 mm(W1)和60 mm(W2)两个灌水水平下不施氮肥(N0)、施用氮肥(U)、氮肥+硝化抑制剂(U+DCD)、氮肥+脲酶抑制剂(U+NBPT)、氮肥+双效抑制剂(U+N+D)5种氮肥施用措施,开展夏玉米田间试验。结果表明:相较于施用氮肥处理,氮肥配施增效剂可以显著提高夏玉米产量、成熟期地上生物量、净收益、水分利用效率和氮肥偏生产力,增幅分别为5.92%~13.82%、5.85%~18.07%、11.12%~24.30%、12.35%~41.83%和5.93%~13.80%,其中氮肥配施双效抑制剂效果较优;氮肥配施脲酶抑制剂和双效抑制剂可以降低夏玉米农田土壤氨挥发累积量和成熟期土壤硝态氮残留量,前者效果最优。相比于W1,W2水平下氮肥配施双效抑制剂处理玉米产量、成熟期地上生物量、净收益、水分利用效率和氮肥偏生产力分别提高10.54%、15.51%、19.40%、20.31%和27.36%;氮肥配施脲酶抑制剂处理农田土壤氨挥发累积量和硝态氮残留量分别降低11.33%和48.46%。综合考虑夏玉米施肥灌水方案的经济效益、环境效益、水肥利用效率和玉米植株生长,构建模糊综合评价体系,得到最优处理为灌水量60 mm下氮肥配施双效抑制剂。 相似文献
928.
油田集输管道有机涂层的防腐性能评价 总被引:1,自引:0,他引:1
通过传统挂片试验,利用交流阻抗测试技术对油田集输管道3种有机涂层H87、HT515、EP67玻璃鳞片的防腐性能进行了现场监测及试验室评价。电化学测试结果表明,涂层的防护性能随试验时间的延长而降低;在试验介质及工艺条件下(相同试验时间内),玻璃鳞片的防腐性能最好,H87次之,HT515最差。 相似文献
929.
Abstract. Restoration of landfill sites to a vegetated after-use is severely compromised if soil-forming materials (SFMs) have to be used as substitute growing media for the restoration cap, owing partly to their poorly-developed structure. The effects of crushed brick material (brick), composted green-waste organic matter (OM) and potassium chloride salt (KCl) in a clay SFM were assessed at the Brogborough Landfill Site (Shank Group plc) in the county of Bedfordshire, UK. Soil structure was characterized three times in a two-year experimental period through measuring drainage water release and aggregate stability and size distribution. Crushed brick and composted OM at 100 t ha−1 improved the ability of the clay to release water by drainage. In addition, the composted OM was associated with an increase in the size of stable aggregates, whereas the brick amendment reduced the overall aggregate stability. The KCl amendment had no consistent effect. Some beneficial structural improvements were thus associated with the brick and OM amendments, although these were rarely significant at the 5% level and the effects declined over time in the absence of vegetation and re-application. Nevertheless, incorporation of crushed brick and organic amendments may offer a potential structure-improving option in clay SFMs prior to vegetation establishment. 相似文献
930.
生草对关中地区有机猕猴桃园土壤养分及细菌群落的影响 总被引:1,自引:0,他引:1
为探究不同生草模式对关中地区有机猕猴桃园土壤养分及细菌群落的影响,试验设置多年生黑麦草+毛苕子(Mode 1)、多年生黑麦草+草木樨(Mode 2)、多年生黑麦草+白三叶(Mode 3)及鼠茅草(Mode 4),以自然生草处理为对照(CK),观察草种生长特性、研究生草对果园耕层(0~20 cm)土壤养分影响,采用高通量测序法分析细菌群落结构。结果表明:鼠茅草越冬率最高,样地杂草株数最少。人工生草较自然生草有机质提高了6.46%~38.63%,以多年生黑麦草+毛苕子效果更为明显,且该处理提高土壤脲酶、蔗糖酶和碱性磷酸酶活性最为显著,分别为3.37、44.17和3.46 mg·d-1·g-1。同时,与自然生草相比,多年生黑麦草+毛苕子、多年生黑麦草+草木樨和多年生黑麦草+白三叶提高了土壤细菌群落的丰富度和多样性,多年生黑麦草+毛苕子存在最多差异显著的细菌分支。综上,关中地区有机猕猴桃园种植多年生黑麦草+毛苕子在一定程度上有助于提高土壤有机质及养分含量,改善土壤微生态环境。 相似文献