刈割利用对封育沙地土壤水分的影响

在腾格里沙漠南缘长期封育沙地区,通过一个生长季的定位观测,分析研究全刈割和刈割一半两种利用强度对封育沙地土壤水分生态的影响,结果表明：在天然植被围栏封育区和人工种植+围栏封育区,全刈割、半刈割处理下的土壤含水量与对照间均存在显著差异。植被对土壤水分的消耗量随着刈割利用强度的增加而减小,封育沙地0～80cm各层的土壤含水量总体上具有随刈割利用强度的增加而增大的变化趋势;在3-7月份沙地土壤水分逐步降低的过程中,全刈割处理、半刈割处理与对照间土壤水分含量的差异较大,而在7-9月份沙地土壤水分逐步回升的过程中,不同利用处理间土壤水分含量的差异则显著减小;不同利用强度下封育沙地土壤水分随深度增加均表现为先增加后降低的变化趋势,在0～30cm土壤层,离地表越近,土壤含水量越低,而在30～70cm土壤层,则表现为随深度增加而快速下降的趋势。不同强度的刈割处理与对照间各深度层的土壤含水量差异大多都表现为：全刈割处理﹥半刈割处理﹥不刈割处理。表明刈割利用对封育沙地土壤水分生态具有一定的调节改善作用。     

化学工程固沙在塔里木沙漠公路沙害防治中的适宜性

由于天然材料日益紧缺 ,研制适宜于流动性沙漠地区公路沙害防治的人工替代材料势在必行 .结合塔里木沙漠公路沙害环境 ,实验室优选出 L VA、LVP、WBS和 STB 4种抗性较好的固沙剂 ,对其理化性能、粘结体力学性能和抗风蚀性能等测试结果表明 :颗粒粒径 0.2μm～ 0.5μm,粘度 12 Pa·s～ 15Pa·s;10℃～70℃温度下无沉淀 ,不燃烧 ;实验抗压强度 1.0 MPa～12.1 MPa;10℃～-20℃低温下重量损失率 0%～ 1.8%;紫外光照射 300h强度损失率 0%～ 42%;在 5m·s^-1～253m·s^-1实验风速下 ,风蚀量 0g·(106cm²·h)^-1～4.0 g·(106cm²·h)^-1 ;现场试验固结层厚度 0.2 mm～0.5mm,强度高 .化学工程固沙技术适宜于塔里木沙漠公路沙害防治 .     

Effects of the new nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) on nitrate and potassium leaching in two soils

In this study, soil column was used to study the new nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) on nitrate (NO3--N) and potassium (K) leaching in the sandy loam soil and clay loam soil. The results showed that DMPP with ammonium sulphate nitrate (ASN) ((NH4)2SO4 and NH4NO3) or urea could reduce NO3--N leaching significantly, whereas ammonium (NH4 -N) leaching increased slightly. In case of total N (NO3--N NH4 -N), losses by leaching during the experimental period (40 d) were 37.93 mg (urea), 31.61 mg (urea DMPP), 108.10 mg (ASN), 60.70 mg (ASN DMPP) in the sandy loam soil, and 30.54 mg (urea), 21.05 mg (urea DMPP), 37.86 mg (ASN), 31. 09 mg (ASN DMPP) in the clay loam soil, respectively. DMPP-amended soil led to the maintenance of relatively high levels of NH4 -N and low levels of NO3--N in soil, and nitrification was slower. DMPP supplementation also resulted in potassium leached less, but the difference was not significant except the treatment ASN and ASN DMPP in the sandy loam soil. Above results indicate that DMPP is a good nitrification inhibitor, the efficiency of DMPP seems better in the sandy loam soil than in the clay loam soil and lasts longer.     

Imazaquin degradation and metabolism in a sandy loam soil amended with farm litters

Irnazaquin applied in legume crops has a long residual time in soil, which often impacts safety of the susceptible crops. To increase safety of imazaquin application, two composted litters, bovine manure （BM） and chicken manure （CM）, were used to determine their effects on imazaquin environmental behavior by incorporating each kind of manure into the tested sandy loam soil at 10% （w/w）. The degradation of imazaquin in BM- and CM-amended soil was about 2.4 and 1.5 times, respectively, faster than that in unamended soil. The half-lives of imazaquin in BM-amended soil varied between 6.7 and 15.4 d over the temperature range of 20 to 40℃, and the degradation rate constant （k） increased by a factor of about 1.5 for every 10℃ change. Higher mix ratio did not significantly increase the degradation, and the optimal active degradation of imazaquin was observed approximately at the mix ratio of 10：1 of soil to BM. The different moisture levels had negligible effect on imazaquin degradation. In both unamended and BM-amended treatments, two metabolites were observed at 5, 10 and 30 d after treatment. One metabolite at retention time （RT） of 8.4 rain was identified as 2-（4- hydroxyl-5-oxo-2-imidazolin-2-yl） quinoline acid, originating from the loss of isopropyl group and hydroxylation at the 4-position of imidazolinone ring. The other at RT of 12.9 rain was identified as quinoline-2,3-dicarboxylic anhydride, resulting from detachment of imidazolinone ring and the forming of dicarboxylic anhydride. This finding suggested that the addition of farm litters into soil might be a good management option since it can not only increase soil fertility but also contribute to increase safety of imazaquin application to the following susceptible crops.     

Effects of long-term amendment of organic manure and nitrogen fertilizer on nitrous oxide emission in a sandy loam soil

To understand the effects of long-term amendment of organic manure and N fertilizer on N2O emission in the North China Plain, a laboratory incubation at different temperatures and soil moistures were carried out using soils treated with organic manure （OM）, half organic manure plus half fertilizer N （HOM）, fertilizer NPK （NPK）, fertilizer NP （NP）, fertilizer NK （NK）, fertilizer PK （NK） and control （CK） since 1989. Cumulative N2O emission in OM soil during the 17 d incubation period was slightly higher than in NPK soil under optimum nitrification conditions （25℃ and 60% water-filled pore space, WFPS）, but more than twice under the optimum denitrification conditions （35℃ and 90% WFPS）. N2O produced by denitrification was 2.1-2.3 times greater than that by nitrification in OM and HOM soils, but only 1.5 times greater in NPK and NP soils. These results implied that the long-term amendment of organic manure could significantly increase the N2O emission via denitrification in OM soil as compared to NPK soil. This is quite different from field measurement between OM soil and NPK soil. Substantial inhibition of the formation of anaerobic environment for denitrification in field might result in no marked difference in N2O emission between OM and NPK soils. This is due in part to more rapid oxygen diffusion in coarse textured soils than consumption by aerobic microbes until WFPS was 75% and to low easily decomposed organic C of organic manure. This finding suggested that addition of organic manure in the tested sandy loam might be a good management option since it seldom caused a burst of N2O emission but sequestered atmospheric C and maintained efficiently applied N in soil.     

我国空气颗粒物中烃类物质的来源解析研究现状

综述了利用奇偶优势指标、最高峰碳数指标以及色谱峰型特征来判识正构烷烃的来源和利用浓度比值法、化合物的轮廓图特征法、多元统计方法和化学质量平衡法判识多环芳烃的来源,并指出这些方法特点。     

广东的滨海沙土资源

滨海沙土是广东沿海重要而急待改造利用的一种国土资源。分布广、面积大,风沙为害较甚。它集中分布在琼东北和西南部、陆丰至海丰、阳江至广州湾沿岸一带。主要因河流和地表径流携带的泥沙受潮浪、风力作用逐渐发育而成。按形成时间和特性,可分流动、半固定、固定和耕型沙土等亚类。并具有沙瘦的共同特性。改造利用主要措施是营林绿化。其次,是因地制宜地积极发展果蔬、热作等经济作物,改造沙荒草地,发展畜牧业,施肥改土,兴修水利和开发其旅游资源。     

控释尿素对黄河故道沙性潮土N2O排放的影响

建立田间原位试验,采用静态箱-气相色谱法,研究了常规尿素及其与硫包膜和聚氨酯包膜控释尿素配施(比例分别为30%∶70%、 50%∶50%和70%∶30%)对黄河故道沙性潮土玉米生长季氧化亚氮(N_2O)排放的影响.研究发现:常规尿素处理N_2O排放量(以N计,下同)为1.78 kg·hm~(-2),排放系数为0.38%;与之相比,配施30%、 50%和70%硫包膜尿素处理的N_2O排放量分别降低了1.12%、 22.5%和11.2%,排放系数下降2.63%～26.3%.相反,配施聚氨酯包膜尿素处理增加N_2O排放量0.02～0.41 kg·hm~(-2),其中70%聚氨酯包膜尿素处理增幅最大,达到23.0%.回归分析表明,各处理N_2O排放通量与10 cm处土温、土壤NH~+_4-N和NO~-_3-N含量呈极显著正相关(P0.01),而与土壤孔隙含水量和溶解性有机碳含量无显著关系.与常规尿素相比, 50%常规尿素+50%硫包膜控释尿素处理玉米产量略有增加,而30%常规尿素+70%硫包膜尿素处理稍微降低了玉米产量,但不显著(P0.05).因此,控释肥减缓土壤N_2O排放以及对作物产量的影响主要受控于包衣材料.     

石油污染对土壤水分特性的影响

陕北是石油工业的发祥地,在石油大规模开采运输过程中,不可避免会造成石油的泄露倾洒,从而对土壤和地下水造成一定程度的污染。为了探讨陕北地区石油污染对土壤水分特性的影响,以3种不同土质土壤(塿土、黄绵土和风沙土)为研究对象,开展了3种土壤在4个不同污染梯度(0.5%、1%、2%和4%)下的土壤润湿性试验和饱和导水率实验,同时以清洁土壤作为对照。结果表明:当土壤受石油污染时,会引起其润湿性发生变化,产生一定程度的斥水性,该变化在风沙土上表现尤为明显;石油污染使3种土壤的饱和导水率均随着污染浓度的增大而呈现下降趋势,饱和导水率虽有降低,但是对于同一土质的土壤来说,均在一个数量级内。