荒漠草原土壤酶与土壤养分的动态研究

研究了内蒙古荒漠草原不同利用强度单元内土壤养分以及5种酶活性,并对土壤酶活性与土壤养分含量之间的相关性进行了分析。结果表明,草原的利用强度直接影响着草地的土壤养分状况和酶活性,轻度利用有利于土壤中5种酶活性的增加,重度利用则导致土壤转化酶和蛋白酶活性显著降低。轻度利用增加了土壤中有机质、全氮和全磷的含量,重度利用则导致土壤有机质、全磷、全氮和全钾含量降低。脲酶和多酚氧化酶的活性在年季内变化幅度较大。相关性分析表明,蛋白酶与各养分之间的相关性最大。     

不同农田土壤酶活性与土壤养分相关关系研究

通过对不同农田土壤养分和酶活性相关关系的研究,探讨了土壤酶活性作为土壤肥力质量指标的可能性。研究结果表明,不同农田土壤养分含量和酶活性存在显著差异,土壤脲酶、磷酸酶和过氧化氢酶活性与有机质和大多数土壤养分呈显著线性相关,可以作为敏感的土壤生物学指标。但土壤转化酶和纤维素酶活性与土壤养分的变化没有明显的相关性。     

矿区复垦对土壤养分和酶活性以及微生物数量的影响

[目的]研究矿区复垦对土壤养分和酶活性以及微生物的影响,并揭示其时空演变规律。[方法]以安徽省庐江钒矿区碳质页岩风化物区域的复垦土壤为对象,采用野外调查和室内分析的方法,对矿区复垦下的土壤养分、酶活性及微生物数量展开调查。[结果]随着复垦年限的增加,土壤电导率、含水量和全盐含量均明显增加,土壤容重、pH值和总孔隙度则明显降低;随着复垦年限的增加,土壤全钾和有效钾含量均降低,有机质、全氮、碱解氮、微生物量碳和微生物量氮增加,而全磷和有效磷并没有明显的变化趋势,其中土壤微生物量的变化幅度最大,对复垦的响应最为敏感;随着复垦年限的增加,矿区土壤蔗糖酶、脱氢酶、脲酶、碱性磷酸酶活性和微生物数量均有所增加,但其增加幅度逐渐减小,细菌数量处于绝对优势地位,占到微生物总数的99.3%以上;随着土层深度的增加,土壤酶活性、微生物数量和土壤养分均呈降低趋势,表现出明显的"表聚性",同层相比,基本呈现出:60a40a20a5a规律,局部有所波动。[结论]矿区复垦能够改善土壤质量和土壤肥力;矿区复垦过程中通过影响土壤微生物活动和代谢进而影响土壤养分及酶活性,同时土壤微生物与养分和酶活性等地下生态指标之间在复垦过程中具有统一性。     

连作对花生土壤酶活性、养分含量和植株产量的影响

通过盆栽试验,设置4个不同连作年限处理,研究连作对花生栽培种桂花17和野生种A.correntina土壤酶活性、养分含量和植株干物质产量影响的差异。结果表明:与对照相比,两个花生品种不同连作年限土壤有效养分含量和植株干物质产量均降低,A.correntina相比桂花17下降幅度小。桂花17各连作年限处理土壤的脲酶、转化酶、酸性磷酸酶活性随连作年限的增加有下降的趋势,处理间变幅大。而A.correntina各生育期土壤的脲酶、转化酶、酸性磷酸酶活性总体表现无一致性上升或下降的规律,处理间变幅小。两个花生品种在不同的连作年限间的过氧化氢酶活性的变化无规律性。连作条件下,花生野生种A.correntina的土壤理化和生物学性状的变化幅度更小。     

农田土壤紧实度研究进展

从土壤紧实度的形成与消除、土壤紧实度对土壤理化性状、土壤碳氮截留及排放、农作物生长与产量的影响、土壤紧实度监测与环境成本核算等主要方面综述了国际前沿研究进展;提出土壤紧实度与秸秆残差还田、化肥利用、土壤养分循环、土壤微生物、作物生长及产量、土壤耕作、水土流失、土壤碳氮管理及农业面源污染等密切相关,旨在为国内开展该方面的研究提供参考依据。     

不同施肥处理对土壤养分含量及土壤酶活性的影响

在田间试验条件下,通过对花生各生育期土壤养分含量与酶活性的研究,探讨了不同施肥处理对土壤养分含量及土壤酶活性的影响。结果表明:各生育期不同施肥处理土壤养分含量以控释掺混肥处理最高,在整个生育期内都能满足花生对养分的需求,普通复合肥在土壤中养分释放迅速,后期出现脱肥现象;土壤脲酶活性、酸性磷酸酶活性以控释掺混肥处理最高,纯控释肥处理其次,均明显高于普通复肥和对照处理,过氧化氢酶活性受肥料类型的影响较小,变化范围在2.68～6.26ml/g之间;3种土壤酶活性与速效P含量的相关性最好,其中脲酶活性与土壤速效P含量相关性达到极显著正相关,过氧化氢酶活性与速效P含量为极显著负相关,脲酶活性与碱解N含量存在显著正相关,磷酸酶活性与碱解N同样存在显著正相关,过氧化氢酶活性与速效K含量存在极显著负相关。这说明土壤酶活性与土壤养分含量呈密切的相关性,可将其作为评价土壤肥力的指标。     

不同处理采伐剩余物对营造杉木幼林土壤胞外酶活性的影响

土壤酶对森林生态系统生物化学过程有重要作用,能快速反映土壤环境(如养分含量和有效性)的变化。采伐剩余物是林地土壤养分的重要来源,其处理方式会对森林土壤的养分含量和有效性产生影响。为探讨采伐剩余物不同处理方式对杉木幼林土壤酶活性的影响,在福建省三明市格氏栲自然保护区40年生的杉木成熟林采伐迹地上对采伐剩余物进行不同处理(保留RR、火烧RB、去除R)并种植杉木幼林,通过采集0-10,10-20 cm土层土壤,对6种胞外酶活性进行研究。结果表明:(1)采伐剩余物处理4年后,相比保留处理,火烧和清除处理的土壤可溶性有机碳、可溶性有机氮、无机氮、硝态氮含量均显著下降。其中火烧处理下硝态氮下降幅度显著高于清除处理,2个土层下降幅度平均分别为88%和51%;(2)相比保留处理,火烧和清除处理土壤微生物生物量碳和微生物生物量磷含量以及6种土壤酶活性,即酸性磷酸酶、β-葡萄糖苷酶、纤维素水解酶、β-N-乙酰氨基葡萄糖苷酶、过氧化酶、酚氧化酶均明显更低,而且火烧处理两土层微生物生物量碳和微生物生物量磷含量显著低于清除处理;(3)冗余分析表明,0-10 cm土层土壤酶活性与微生物生物量磷、微生物生物量碳含量显著相关,而可溶性有机氮、硝态氮、微生物生物量碳是影响10-20 cm土层土壤酶活性变化的关键因子。保留采伐剩余物有利于提高土壤养分和酶活性,是土壤肥力维持和森林生产力提高的有效经营管理措施。     

不同种植模式对甘肃中部高寒区胡麻田土壤酶活性及土壤养分的影响

为了探究土壤酶活性和土壤养分平衡的作用对胡麻连作障碍的影响,以胡麻为主要试验材料,设置胡麻-小麦轮作(TR)、胡麻连作(TC)、胡麻/小麦间作(TI)、撂荒(TU)等4个处理,采用定位试验的方法,研究不同种植模式下土壤酶活性及其变化,以及土壤养分平衡状况。结果表明,TC显著降低0~20 cm耕层土壤过氧化氢酶、脲酶、碱性磷酸酶和蔗糖酶活性,整个生育期TC分别比TR降低8.73%、4.17%、1.22%和4.44%。在空间分布上,4种土壤酶活性随着土层加深均显著下降,40 cm和60 cm土层处理间差异不显著。土壤养分与酶活性的相关分析表明,连作对土壤养分与酶活性呈现显著的负相关,轮作与土壤养分及酶活性呈显著的正相关关系。轮作、间作等种植模式可在不同程度上缓解、消除连作障碍的影响。本研究结果为缓解和消除胡麻连作障碍提供理论依据和实践探索。     

长期施肥对黑土和暗棕壤土壤酶活性及土壤养分的影响

为阐明长期施肥对黑土和暗棕壤土壤酶活性的影响、土壤酶活性与土壤养分的关系,探讨土壤持续利用的培肥模式,采集了施用不同肥料28年后的黑土和暗棕壤,对黑土和暗棕壤土壤酶活性以及土壤养分因子进行了测定和分析。结果表明,与不施肥对照相比,各施肥处理均可显著增加黑土和暗棕壤有机质和氮磷钾养分含量,提高土壤脲酶、磷酸酶、转化酶、过氧化氢酶活性,其中以化肥配施有机肥效果最为明显。土壤酶活性与土壤养分之间有很好的相关性,土壤脲酶、磷酸酶、转化酶、过氧化氢酶活性与土壤有机质、全氮、全磷、碱解氮、速效磷含量呈显著相关,黑土对施肥比暗棕壤对施肥更敏感。对不同土壤长期化肥配施有机肥均可为作物生长创造良好的土壤环境。     

贵州山区不同海拔蔬菜种植区域内土壤养分和酶活性变化

探讨不同海拔蔬菜高效种植区域内对土壤养分和酶活性的影响,为蔬菜高效种植的土壤养分管理提供依据。对贵州省高、中、低不同海拔区域的蔬菜地土壤进行取样,分析测定了土壤有机质、氮磷钾养分和酶活性的变化。结果表明,连续3年蔬菜高效种植的土壤有机质、全量氮、磷、钾与农民传统种植无明显差异,蔬菜高效种植模式下土壤碱解氮、有效磷有明显积累;土壤磷酸酶活性有随海拔增高而增大趋势;蔬菜高效模式下的酸性磷酸酶活性大于单作或稻油轮作;土壤脲酶活性受种植模式的影响大于海拔;参考菜园土壤速效养分丰缺指标,低海拔区三都县应适当减少氮磷钾化肥用量,中海拔区福泉市和高海拔区大方县应适当增加磷、钾化肥用量。     

Soil and residue management effects on arable cropping conditions and nitrous oxide fluxes under controlled traffic in Scotland 1. Soil and crop responses

Soil compaction can affect crop growth and greenhouse gas emission and information is required of how both these aspects are affected by compaction intensity and weather. In this paper we describe treatments of compaction intensity and their effects on soil physical conditions and crop growth in loam to sandy loam cambisol soils. Soil conditions and crop performance were measured over three seasons in a field experiment on soil compacted by wheels on freshly ploughed seedbeds. Ploughing buried the chopped residues of the previous crop. After ploughing, traffic was controlled such that the experimental plots received wheel traffic only as treatments. The overall objective was to discover how the intensity and distribution of soil compaction just before sowing influenced crop performance, soil conditions and emissions of nitrous oxide. Compaction treatments were zero, light compaction by roller (up to 1 Mg m⁻¹) and heavy compaction by loaded tractor, (up to 4.2 Mg). The experiment was located at Boghall, near Edinburgh (860 mm average annual rainfall) for the first two seasons under spring and winter barley (Hordeum vulgare L.) and in a drier area at North Berwick (610 mm average annual rainfall) for the third season under winter oil-seed rape (Brassica napus L.). Heavy compaction in dry soil conditions had little effect on crop growth. However, in wet conditions heavy compaction reduced air porosity, air permeability and gas diffusivity, increased cone resistance and limited winter barley growth and grain yield. Heavy compaction in wet conditions reduced winter barley yields to 7.1 Mg ha⁻¹, in comparison to 8.8 Mg ha⁻¹ in the zero compaction treatment. The compaction status of the top 15 cm of soil seemed to be particularly important. Loosening of the top 10 cm of soil immediately after heavy compaction restored soil conditions for crop growth. However, zero seed bed compaction gave patchy and uneven crop emergence in dry conditions. Both zero and light compaction to a target depth of 10 cm gave similar crop productivity. Maintenance of a correct compaction level near the soil surface is particularly important for establishment and overwintering of barley and oil seed rape.     

Early Development and Nutrition of Cover Crop Species as Affected by Soil Compaction

Abstract

A good cover crop should have a vigorous early development and a high potential for nutrient uptake that can be made available to the next crop. In tropical areas with relatively dry winters drought tolerance is also very important. An experiment was conducted to evaluate the early development and nutrition of six species used as cover crops as affected by sub‐superficial compaction of the soil. The plants (oats, pigeon pea, pearl millet, black mucuna, grain sorghum, and blue lupin) were grown in pots filled with soil subjected to different subsurface compaction levels (bulk densities of 1.12, 1.16, and 1.60 mg m^?3) for 39 days. The pots had an internal diameter of 10 cm and were 33.5 cm deep. Grasses were more sensitive to soil compaction than leguminous plants during the initial development. Irrespective of compaction rates, pearl millet and grain sorghum were more efficient in recycling nutrients. These two species proved to be more appropriate as cover crops in tropical regions with dry winters, especially if planted shortly before spring.     

农田土壤机械压实研究进展与展望

土壤机械压实是威胁全球农业可持续发展的重要因素之一。从农田土壤压实的检测、危害、缓解和预防四个方面系统介绍当前国内外土壤压实的最新研究进展与不足。指出检测方法的创新和突破是实现田间尺度下压实土壤空间分布检测的关键;压实土壤危害的研究多集中在耕层土壤,但忽视了深层土壤压实危害及其在应对气候变化中可发挥的生态服务功能;提倡采用轮作轮耕等合理田间管理措施缓解压实土壤;深层土壤压实具有存在时间久和恢复难度大的特征,因此重点应以预防为主,但当前对土壤压实预防重视不足且预防技术体系尚不成熟。鉴于我国农业机械化正处在快速发展期,采取有效预防措施是避免重蹈发达国家土壤压实退化的有效手段。     

覆盖作物根系对砂姜黑土压实的响应

轮作直根系的覆盖作物被认为是缓解土壤压实的有效手段,但不同覆盖作物对土壤压实的适应性在不同气候和土壤条件下存在较大差异。为筛选更适宜缓解砂姜黑土压实的覆盖作物品种(模式),在安徽典型砂姜黑土设置不压实(Non-compacted,NC)与压实(Compacted,C)处理,通过种植不同覆盖作物(休闲、苜蓿、油菜、萝卜+毛苕子混播),分析覆盖作物根系对压实土壤的响应。结果表明:与不压实处理相比,压实处理显著增加了0~30 cm土层土壤容重(8.65%);显著增加了0~27.5 cm和37.5~45 cm土层的穿透阻力;显著改变0~20 cm土层土壤收缩特征。同时,土壤压实大幅度降低了0~50 cm土层苜蓿、油菜、萝卜+毛苕子的根干重密度,增加了苜蓿、油菜、萝卜+毛苕子的根比表面积。压实处理下50~70 cm土层萝卜+毛苕子根干重密度、根体积密度和根长密度均大于苜蓿和油菜,表明萝卜+毛苕子混播种植模式下根系穿透压实土壤能力最强。压实处理下不同覆盖作物地上覆盖度和生物量均表现为由大到小依次为萝卜+毛苕子、油菜、苜蓿。与不压实处理相比,压实处理分别减少苜蓿、油菜、萝卜+毛苕子地上部分生物量的62.5%、67.6%、15.8%,地下部分生物量的61.4%、57.7%、47.8%。因此,萝卜+毛苕子种植模式下根系生长受压实影响最小,在压实土壤中适应性最好。     

Soil compaction: identification directly in the field

The compaction of soil alters its structure, increases its bulk density and decreases its porosity. These changes can be detected by careful and systematic visual and tactile examination directly in the field. These changes also reduce the permeability of soil to water and air and may alter the pattern of root growth. Further signs of compaction may be induced such as the creation of waterlogged zones or of dry zones caused by shallow rooting denying access to deeper reserves of water. Furthermore, there may be a reduction in nutrient uptake from dry soil. Under wet conditions anoxic pockets may form with associated biochemical changes, some of which are visible. Changes in mineral nitrogen may take place through denitrification and a reduction in nitrification. The criteria used to identify compaction in the field include patterns of crop growth, pale leaf colours, waterlogging on the surface or in subsurface layers above compaction, an increase in soil strength, changes to soil structure, soil colour and the distribution of roots and of soil moisture. Manifestation of soil compaction in crops is also dependent on the weather and is influenced by crop type and variety, and stage of growth. Many soil‐borne diseases are made worse by stress to the crop which might be induced by compaction caused by drier or wetter conditions in the root zone. Where, when and how to identify compaction in the field are discussed and the techniques used are described. Specific examples of the identification of compaction are given, covering a wide range of situations.     

土壤紧实度对伴矿景天生长及镉锌吸收性的影响研究

采集黏土、壤黏土和砂质壤土,分别设置无压实、低紧实度及高紧实度3种处理,通过盆栽试验研究了土壤紧实度对Cd、Zn超积累植物伴矿景天生长和Cd、Zn吸收性的影响。结果表明,与无压实处理比较,砂质壤土、壤黏土和黏土中伴矿景天地上部生物量在低紧实度下显著下降66.8%~83.5%、59.9%~60.4%和57.9%~71.4%;高紧实度处理却显著提高了伴矿景天的根系活力(142%~241%)。高紧实度处理显著降低了壤黏土上伴矿景天地上部Cd和Zn含量,但低紧实度对砂质壤土和黏土上伴矿景天地上部Cd和Zn含量无显著影响。与无压实处理比较,低紧实度显著降低了砂质壤土、壤黏土和黏土上伴矿景天的Cd吸取量,分别下降50.4%~73.8%、61.4%~74.9%和43.4%~63.3%,Zn吸取量下降48.7%~79.5%、73.6%~79.0%和46.1%~63.5%;土壤紧实度对壤黏土上伴矿景天的镉锌吸取效率影响最明显。     

有机质与黏粒含量对黑土压缩-回弹特性的影响

为探明有机质和黏粒对黑土压缩-回弹行为的影响,以典型黑土区耕作土壤为研究对象,通过人工添加腐植酸、人工分离-提取-添加黏粒、恒温恒湿培养的方法各配制3个梯度的重塑土。采用室内固结的方法,通过压缩系数、压缩指数及回弹指数的测定与分析,研究了2种含水量条件下黑土压缩与回弹对有机质和黏粒含量变化的响应行为。结果表明:(1)压缩指数均随有机质含量的增加而增大,且在高含水量时二者呈极显著正相关,有机质含量最高时压缩指数为0.246 3,但有机质含量对回弹无显著影响。(2)无论含水量高低,压缩指数均与黏粒含量呈极显著正相关,而回弹指数随着黏粒含量的增加逐渐降低,且在低含水量时二者呈显著负相关。(3)含水量不同,有机质与黏粒对黑土压缩-回弹特性的影响亦不同;黏粒对黑土压缩-回弹行为的影响更为显著。     

农田土壤压实过程及模型研究进展

农田土壤受到农业机械田间作业的影响发生压实板结,造成土壤孔隙率降低,容重和紧实度增大,限制水分入渗和根系生长,影响作物产量。随着我国农业机械化水平不断提高,土壤压实对农业可持续发展的影响引起了广泛的关注。本文通过文献调研,总结了土壤压实过程的国内外研究进展,对土壤压缩行为、压缩曲线与预固结压力的计算方法进行了梳理,综述了土壤压实机理和压实模型的发展历程和未来动向,可为推进农田土壤压实研究提供参考。     

水平贯入式土壤压实度测试系统及试验研究

针对土壤压实度检测的需求,本研究应用CFBLS-100型拉压传感器和基于PCMCIA总线的DAQP-12数据采集卡,在LabVIEW环境下设计了一套土壤压实度现场测试系统。该系统能够实时显示传感器输出电压及所对应的压力变化曲线,并将所采集到的数据存储到计算机中,完成对数据的分析。经标定试验证明:该测试系统所拟合的方程为线性,其相关系数较高,线性度较好,灵敏度较高,系统精度等级小于1级,工作时系统稳定可靠。由室内试验知,在不同水平分层处,土壤压实度与不同模拟压力间均表现出3次多项式的函数关系,显著性较强(α0.05)。且在不同模拟压力下,不同土壤水平分层处的土壤压实度和土壤容重表现出相似的特性,随着模拟压力的增加和土壤分层逐步加深,土壤压实度和土壤容重的增加趋势趋于一致。为研究作物地下组织与土壤之间的根土系统及合理耕层的构建提供理论基础,并为农业机械的研发具有一定的意义。     

Changes in the properties of a Vertisol and responses of wheat after compaction with harvester traffic

Soil compaction has been recognised as the greatest problem in terms of damage to Australia’s soil resource. Compaction by tractor and harvester tyres, related to trafficking of wet soil, is one source of the problem. In this paper an array of soil properties was measured before and immediately after the application of a known compaction force to a wet Vertisol. A local grain harvester was used on soil that was just trafficable; a common scenario at harvest. The primary aim was to determine the changes in various soil properties in order to provide a “benchmark” against which the effectiveness of future remedial treatments could be evaluated. A secondary aim was a comparison of the measurements’ efficiency to assess a soil’s structural degradation status. Also assessed was the subsequent effect of the applied compaction on wheat growth and yield in the following cropping season. Nine of the soil properties measured gave statistically significant differences as a result of the soil compaction. Differences were mostly restricted to the top 0.2 m of the soil. The greatest measured depth of effect was decreased soil porosity to 0.4 m measured from intact soil clods. There was 72% emergence of the wheat crop planted into the compact soil and 93% in the uncompact soil. Wheat yield, however, was not affected by the compaction. This may demonstrate that wheat, growing on a full profile of stored soil water as did the current crop, may be little affected by compaction. Also, wheat may have potential to facilitate rapid repair of the damage in a Vertisol such as the current soil by drying the topsoil between rainfall events so increasing shrinking and swelling cycles. If this is true, then sowing a suitable crop species in a Vertisol may be a better option than tillage for repairing compaction damage by agricultural traffic.