土壤中木质素的研究进展

木质素是地球上最丰富的芳香族化合物,是土壤中非常稳定的有机组分,也是影响土壤有机碳循环的重要物质,因此,研究木质素在农田土壤中的积累对于土壤碳素的循环过程以及土壤有机碳的截获具有十分重要的意义。本文对土壤中木质素的分类和来源、测定及表征方法进行了综合介绍,并着重评述了木质素对于土壤有机碳循环的贡献、在土壤中的保持机制及影响木质素在土壤中降解和积累特性的因素,以期为我国开展土壤木质素的相关研究提供理论参考。     

Differential and successive effects of residue quality and soil mineral N on water-stable aggregation during crop residue decomposition

Residue quality has been shown to influence soil water-stable aggregation (WSA) during crop residue decomposition, but there is still little information about its interactive effect with soil mineral N availability. The aim of this study was to determine the effect of soil mineral N on WSA during the decomposition of two high-C/N crop residues (wheat straw with C/N = 125.6 and miscanthus straw with C/N = 311.3). The two crop residues were combined with three mineral N addition rates (0, 60, and 120 mg N kg⁻¹ dry soil). Respiration, soil mineral N content, and WSA (expressed as mean-weight diameter, MWD) were measured on several dates during a 56-d incubation. The effect of decomposing crop residues on WSA followed two phases. (i) Between 0 and 7 d, the increase in WSA was related to intrinsic residue quality with higher decomposability of the wheat straw resulting in higher WSA. (ii) Thereafter, and until the end of the experiment, mineral N addition rates had a predominant but negative influence on WSA. In this second phase, the average MWD of residue-treated soils was 0.92, 0.55, and 0.44 mm for the 0, 60 and 120 mg N kg⁻¹ dry soil addition rates, respectively. Mineral N addition which did result in higher crop residue decomposition did not lead to higher WSA. WSA during crop residue decomposition is therefore not simply positively related to the induced microbial activity, and changes in microbial community composition with differential effects on WSA must be involved. The impact of high-C/N crop residues inputs on WSA, initially assumed to be low, could actually be strong and long-lasting in situations with low soil mineral N content.     

黄土坡面细沟径流输沙对水动力学参数的响应

细沟径流输沙是细沟侵蚀产沙的重要过程,阐明细沟径流输沙与水动力学参数之间的关系可以有效地揭示细沟径流输沙的动力学机制,并为建立细沟侵蚀过程物理模型奠定基础。采用具有定流量人工放水的组合小区模拟降雨试验,研究黄土坡面细沟径流输沙对水动力学参数的响应关系。结果表明:1)一次降雨径流产生的细沟输沙模数对水动力学参数平均值响应关系大小顺序为平均水流断面单位能量(R=0.99)>平均水流功率(R=0.88)>平均水流切应力(R=0.82)>平均单位水流功率(R=0.76);2)降雨径流过程中,细沟输沙率对水动力学参数瞬时值响应关系为水流切应力(R=0.88)>水流功率(R=0.47),水流断面单位能量和单位水流功率的相关性较差,细沟输沙率对水流切应力的响应关系呈幂函数方程关系。     

Temporal shifts in diversity and quantity of nirS and nirK in a rice paddy field soil

Denitrification is an important part of the nitrogen cycle in the environment, and diverse bacteria, archaea, and fungi are known to have denitrifying ability. Rice paddy field soils have been known to have strong denitrifying activity, but the microbes responsible for denitrification in rice paddy field soils are not well known. Present study analyzed the diversity and quantity of the nitrite reductase genes (nirS and nirK) in a rice paddy field soil, sampled four times in one rice-growing season. Clone library analyses suggested that the denitrifier community composition varied over sampling time. Although many clones were distantly related to the known NirS or NirK, some clones were related to the NirS from Burkholderiales and Rhodocyclales bacteria, and some were related to the NirK from Rhizobiales bacteria. These denitrifiers may play an important role in denitrification in the rice paddy field soil. The quantitative PCR results showed that nirK was more abundant than nirS in all soil samples, but the nirK/nirS ratio decreased after water logging. These results suggest that both diversity and quantity changed over time in the rice paddy field soil, in response to the soil condition.     

黄土丘陵区生物结皮对土壤磷素有效性及碱性磷酸酶活性的影响

黄土丘陵区生物结皮广泛发育,可影响土壤磷素有效性。目前鲜见生物结皮对土壤磷素有效性的研究报道。本文以该区不同年限退耕地的生物结皮为研究对象,通过野外调查和室内分析,研究了生物结皮对土壤全磷、有效磷及碱性磷酸酶活性的影响。结果表明,1）生物结皮的形成可显著提高结皮层土壤全磷含量,而下层(010 cm)全磷含量差异不显著; 2）生物结皮的形成可显著提高结皮层土壤有效磷含量,研究区生物结皮层土壤有效磷含量为3.27~5.87 mg/kg,占到同层土壤全磷含量的0.57%~0.95%,生物结皮层磷酸酶活性高于下层(010 cm) 381倍; 3）生物结皮对土壤磷素有效性及碱性磷酸酶活性的影响与生物结皮发育阶段有关; 4）生物结皮主要通过提高结皮层土壤碱性磷酸酶活性和有机质含量,降低土壤pH,进而提高了土壤磷素有效性。本文研究结果表明,生物结皮的形成有助于提高黄土丘陵区退耕地土壤磷素有效性。     

纳米Fe^0／Fe_3O_4复合体系对溶液中PCB77的降解研究

研究了纳米Fe^0与纳米Fe_3O_4。单一与复合体系对溶液中PCB77的降解动力学,以及影响降解效率的不同因素。结果表明,投加纳米Fe^0对PCB77有显著的降解效果,反应240min后PCB77残留率为8．94％;投加纳米Feo同时配以不同比例的纳米Fe_3O_4。能明显影响PCB77的降解速率,纳米Fe^0／Fe_3O_4投加比例为1：0．1、1：0．2和1：1时,PCB77的残留率分别为6．46％、10．23％和38．20％。溶液pH对纳米FFe^0／Fe_3O_4复合体系降解PCB77具有较大的影响,当溶液pH为6．8时,纳米Fe^0／Fe_3O_4复合体系降解PCB77的效果最好。纳米Fe^0／Fe_3O_4复合体系对PCB77的降解是一个还原脱氯的过程,随着PCB77残留率的减小,氯离子浓度不断增大,同时反应体系中氧化还原电位不断降低。研究结果将为环境中残留PCBs提供一种高效去除方法,并为PCBs污染水体和土壤的修复提供理论依据。     

坡耕地保护性耕作冬小麦增产机理的研究

利用长期定位试验在豫西旱区坡耕地上对不同保护性耕作下冬小麦主要生育期的土壤温度、土壤养分、水分动态、干物质积累和小麦产量进行研究。结果表明:深松和免耕覆盖土壤含水量较高,深松与免耕覆盖技术能够提高土壤肥力,越冬期保护性耕作5 cm地温较低,而0~30 cm地温相差不大。深松覆盖在灌浆期土壤日均地温较低,有利于防御干热风对小麦的危害。小麦中后期深松覆盖和免耕干物质积累量较多,能延缓小麦植株衰老。     

土壤中磺胺类抗生素的检测方法优化及残留、降解研究

优化了磺胺甲基嘧啶(SM1)、磺胺二甲嘧啶(SM2)、磺胺对甲氧嘧啶(SMT)、磺胺甲噁唑(SMZ)4种磺胺类抗生素的高效液相色谱(H PLC)检测方法,分析了广州市养殖场周边土壤中磺胺类抗生素的残留特征,并进行了2种磺胺类抗生素的土壤降解试验。结果表明,4种磺胺类抗生素分别在0.10~10μg ml-1范围内线性良好,相关系数R>0.99。确定了最佳提取液为甲醇:含EDTA的Mcllvain缓冲液=1∶1(V/V),4种磺胺类药物的检测限与回收率分别为2.9~4.7μg kg-1、83.6%～90.1%。广州市18个规模化养殖场周边土壤中磺胺类抗生素污染以SM2为主,含量为1.75μgkg-1,其它3种均未被检出。土壤中磺胺类抗生素的含量总体呈随培养时间而不断下降的趋势,SMZ的降解速率大于SM2。     

四川盆地西部漂洗土壤区水体铁元素的分布特征

铁是水质监测的重要指标。为了弄清四川盆地西部漂洗土壤区不同水环境中铁的形态和含量、浅层潜水的季节动态及其形成原因,为该区土、水资源合理利用提供一定参考,于不同时期在四川省名山县漂洗土壤区采集潜水、池塘水、稻田和茶园沟渠地表水、土壤孔隙水及相应的土壤样品,分析了其铁的形态和含量及相应的理化性质。结果表明,从潜水和土壤孔隙水来看,潜水总铁和亚铁含量（分别为0.30、0.08mg·L^-1）均为最低,稻田孔隙水总铁和亚铁含量（分别为2.92、1.13mg·L^-1）均为最高,茶园孔隙水总铁和亚铁含量（3a生以下茶园分别为1.25、0.92mg·L^-1,6a生以上茶园分别为2.66、0.65mg·L^-1）居中;就稻田和茶园的土壤孔隙水与沟渠地表水比较而言,孔隙水总铁和亚铁含量总体上高于沟渠地表水相应的总铁和亚铁含量;潜水总铁和亚铁含量分别变动在0~0.86mg·L^-1和0~0.36mg·L^-1之间,其季节动态在不同区域间存在一定差异,与其所处地形部位及地表径流条件、离居民房屋和畜禽圈舍远近、土壤pH、有机质和铁元素的形态和含量、土地利用方式及作物种植年限、天气状况及水井自身氧化还原电位等条件有关。     

Film fully-mulched ridge-furrow cropping affects soil biochemical properties and maize nutrient uptake in a rainfed semi-arid environment

Abstract

This study evaluated the effects of plastic mulched ridge-furrow cropping on soil biochemical properties and maize (Zea mays L.) nutrient uptake in a semi-arid environment. Three treatments were evaluated from 2008 to 2010: no mulch (narrow ridges with crop seeded next to ridges), half mulch (as per no mulch, except narrow ridges were mulched), and full mulch (alternate narrow and wide ridges, all mulched with maize seeded in furrows). Compared to the no mulch treatment, full mulch increased maize grain yield by 50% in 2008 and 25% in 2010, but reduced yield by 21% in 2009 after low precipitation in early growth. Half mulch had a similar grain yield to no mulch in the three cropping years, suggesting half mulch is not an effective pattern for maize cropping in the area. Mulch treatments increased aboveground nitrogen (N) uptake by 21?34% and phosphorus (P) uptake by 21?42% in 2008, and by 16?32% and 14?29%, respectively, in 2010; but in 2009 mulching did not affect N uptake and decreased P uptake. Soil microbial biomass and activities of urease, β-glucosidase and phosphatase at the 0?15 cm depth were generally higher during vegetative growth but lower during reproductive growth under mulch treatments than no mulch. Mulching treatments increased carbon (C) loss of buried maize residues (marginally by 5?9%), and decreased light soil organic C (15?27%) and carbohydrate C (12?23%) concentrations and mineralizable C and N (8?36%) at harvest in the 0?20 cm depth compared with no mulch, indicating that mulching promotes mineralization and nutrient release in soil during cropping seasons. As a result of these biological changes, mineral N concentration under mulch was markedly increased after sowing in upper soil layers compared with no mulch. Therefore, our results suggest that mulched cropping stimulated soil microbial activity and N availability, and thus contributed to increasing maize grain yield and nutrient uptake compared with no mulch.