Carbon and nitrogen stocks in physical fractions of a subtropical Acrisol as influenced by long-term no-till cropping systems and N fertilisation

The long-term soil management effects on C and N stocks of soil physical fractions are still poorly understood for South American subtropical soils. This study aimed (i) to evaluate the influence of cereal- and legume-based cropping systems and N fertilisation on C and N stocks of the sand-, silt- and clay-size fractions of a no-tilled subtropical Acrisol in southern Brazil, (ii) to compute the Carbon Management Index (CMI) for those cropping systems using physical fractionation data, and (iii) to investigate the possible existence of finite capacity of those soil physical fractions to store C and N. Soil samples of a long-term experiment were collected from the 0–2.5 and 2.5–7.5 cm layers of three no-till cropping systems [fallow bare soil, oat/maize (O/M) and pigeon pea+maize (P+M)] under two N fertilisation levels (0 and 180 kg N ha^–1). However, for fallow bare soil, only the non-fertilised sub-plot was sampled. An adjacent native grassland soil was sampled as a reference. The C and N stocks of the three soil physical fractions were higher in the legume-based cropping system (P+M) than in O/M and bare soil, because of the higher residue input in the former. The P+M cropping system restored the C and N stocks in sand- and silt-size fractions to the same levels found in grassland soil. Higher C and N stocks in all physical fractions were also obtained with N fertilisation. The C and N stocks and the C:N ratio were most affected by cropping systems in the sand- and least in the clay-size fraction. Particulate organic matter was found in the silt-size fraction, showing this fraction is not only constituted by mineral-associated organic mater, as commonly believed. Taking grassland soil as reference (CMI = 100), the CMI ranged from 46, in O/M no N, to 517, in P+M with N, pointing to a better soil management in the latter. The clay-size fraction tended to show a finite capacity to store C and N (48.8 g C kg^–1 and 4.9 g N kg^–1 of clay), which was not verified in sand- and silt-size fractions. The adoption of no-tillage and legume-based cropping systems with high residue input are adequate soil management strategies to improve soil quality and make the agricultural production systems more sustainable in subtropical regions.     

玉米种植制度对红壤磷素形态及其有效性的影响

以攀西地区抛荒地、玉米连作、西葫芦-玉米轮作、豌豆-玉米轮作下红壤耕层(0～20 cm)和亚耕层(20～40 cm)土壤为研究对象,探讨玉米种植制度对红壤磷素形态及其有效性的影响。结果表明: 耕层土壤全磷、有效磷含量和磷素活化系数均高于亚耕层,以豌豆-玉米轮作土壤最高。4种种植制度下红壤磷素均以有机磷为主,在耕层中占全磷的57.8%～81.1%,在亚耕层中占74.3%～85.5%。除豌豆-玉米轮作外,其余3种种植制度下土壤磷组分均以氢氧化钠提取态磷(NaOH-P)为主;而有效性较高的水溶性磷(H₂O-P)和碳酸氢钠提取态磷(NaHCO₃-P)含量较低,在耕层中仅占全磷的0.3%～2.1%、在亚耕层中仅占1.7%～10.0%;两层土壤的盐酸提取态磷(HCl-P)含量均以豌豆-玉米轮作最高,与其他3种种植制度差异显著。相关分析表明,两层土壤的有效磷、碳酸氢钠提取态有机磷(NaHCO₃-P_o)、氢氧化钠提取态有机磷(NaOH-P_o)、盐酸提取态无机磷(HCl-P_i)含量与土壤pH、阳离子交换量、铁氧化物、铝氧化物和土壤质地呈显著相关关系。说明攀西地区豌豆-玉米轮作是提高红壤磷素有效性的最优种植制度。     

Weed performance in crop rotations with and without leys and at different nitrogen levels

Weed populations were studied from a 26-year-old field experiment in southern Sweden with three different 6-year crop rotations, each with four rates of nitrogen application. The rotations differed in that one had a two-year legume-grass ley, another had a two-year grass ley, and that the third had spring wheat followed by a repeatedly harrowed fallow. The leys and the fallow were followed by turnip rape, winter wheat, oats and barley which was undersown in the two ley rotations. Data on weed biomass, collected in one season, were subjected to multivariate analysis.
Winter turnip rape had the highest weed biomass. However, of the several weed species, only Matricaria perforata Merat was important in wheat (the crop following turnip rape in the rotation). The weed flora did not differ consistently between rotations. We conclude that none of the three rotations had developed any major weed problems under the past weed management regime (herbicides applied to cereal crops).
There was no consistent effect of nitrogen fertilisation on total weed biomass in any of the three rotations. However, when comparing the weed floras in winter wheat, turnip rape and oats, the unfertilised plots differed from the plots receiving nitrogen. In the two latter crops, the abundant, low-growing annual Stellaria media (L.) Vil. performed best in fertilised plots with dense stands. Equisetum arvense L., the most abundant perennial weed, was important only in unfertilised plots.     

黄土高原旱地长期种植作物对土壤微量元素形态和有效性的影响

在长期定位试验的基础上,用连续浸提方法对土壤微量元素进行形态分级,研究了长期种植作物条件下黄土高原旱地土壤中微量元素的形态组成及其在不同土壤组分间的分配特征,探讨了种植系统对土壤微量元素有效性的影响。土壤中有效态微量元素含量的剖面分布除与土壤中微量元素的全量有关外,还与不同的种植系统有关。各种植系统有效锌和有效铜含量均低于休闲土壤,有效锌以小麦连作和苜蓿连作降低最多,有效铜以小麦连作和粮豆轮作降低最多。小麦连作系统40 cm以上土层土壤有效锰含量和休闲土壤接近,40~100cm土层低于休闲土壤,苜蓿连作和粮豆轮作整个剖面土壤有效锰含量均有所增加。各种植系统40cm以上土层土壤有效铁含量均高于休闲土壤,40~100cm土层土壤有效铁分布趋势相同,其含量均随土层深度的增加而增加,并且小麦连作低于休闲土壤,粮豆轮作高于休闲土壤,苜蓿连作与休闲相近,这些结果表明长期种植作物可以显著改善土壤锰素营养和铁素营养状况。苜蓿连作和小麦连作使锌和铁从矿物态向有机结合态转化,增加了土壤有效锌和有效铁的储备,粮豆轮作系统各形态锌低于休闲土壤,并且土壤中锌的总贮量有所减少;各种植系统土壤氧化物结合态铁在耕层增加,在古耕层降低,这也表明种植作物可以活化深层土壤难溶态铁。长期种植作物使耕层土壤各形态铜含量降低,粮豆轮作和小麦连作系统古耕层土壤各形态铜含量较休闲土壤有所增加。3种种植系统碳酸盐结合态、氧化物结合态和有机结合态锰含量均有不同程度的下降,且耕层土壤交换态、碳酸盐结合态和有机结合态锰高于古耕层,氧化物结合态和矿物态锰含量低于古耕层。     

Effect of continuous cropping and fertilizer use on the organic nitrogen fractions in a typic ustochrept soil

Summary The influence of continuous cropping and soil test based fertilizer use on the organic nitrogen fractions in the plough layer has been studied in a Typic Ustochrept soil. Seven years of multiple cropping without manuring caused marked depletion in all the hydrolysable fractions except unidentified hydrolysable N namely, hexosamine (48.8%), hydrolysable ammonium (23.9%) and amino acid (7.3%) as compared to an adjacent fallow. Fertilizer nitrogen application maintained the levels of various forms of N as in the fallow plots and nitrogen in conjunction with phosphorus raised the status of amino acid N. Phosphate improved the contents of hydrolyzable ammonium and total hydrolyzable N whereas farmyard manure enhanced the latter only. The system of intensive cropping followed with appreciably high doses of fertilizers favoured greater immobilization of N in hydrolyzable ammonium and total hydrolyzable fractions. Original not seen     

Soil factors affecting selenium concentration in wheat grain and the fate and speciation of Se fertilisers applied to soil

UK crops have a low selenium (Se) status, therefore Se fertilisation of wheat (Triticum aestivum L.) at 10 field sites was investigated and the effect on the content and speciation of Se in soils determined. Soil characterisation was carried out at each field site to determine the soil factors that may influence wheat grain Se concentrations in unfertilised plots. Soil samples were taken after harvest from each treatment to determine the fate and speciation of selenate fertiliser applied to soil. Wheat grain Se concentrations could be predicted from soil Se concentration and soil extractable sulphur (S) using the following regression model: Grain Se?=?a?+?b(total soil Se)?+?c(extractable soil Se) - d(extractable soil S), with 86 % of the variance being accounted for, suggesting that these properties control Se concentrations in grain from unfertilised plots. Extractable soil Se concentrations were low (2.4 – 12.4 µg kg^?1) and predominantly consisted of selenite (up to 70 % of extractable Se) and soluble organic forms, whereas selenate was below the detection limit. Little of the added Se, in either liquid or granular form was left in the soil after crop harvest. Se fertilisation up to 20 g ha^?1 did not lead to a significant Se accumulation in the soil, suggesting losses of Se unutilised by the crop.     

Copper deficiency inPinus radiata planted in a podzol in Victoria,Australia

Summary Copper deficiency inPinus radiata in Gippsland, Victoria was found to be associated with acid, organic-rich sandy podzols. A trial designed to find a Cu supplement for P and NPK fertilisation on these soils showed significant growth in stem-length following Cu-solution treatment in the nursery, and Cu fertiliser applied in the field up to at least 13.5 kg Cu ha^–1.The Steenbjerg effect was evident in foliar concentrations of nutrients following fertilisation; this makes diagnosis from foliar analysis difficult. Foliar CuN ratios proved a more sensitive indicator of Cu fertiliser treatment than either Cu or N alone.Two phases of seasonal drainage and podzol development were identified in the experiment. Trees growing on the better-drained, more acid soil with a high content of organic matter responded better to Cu fertiliser.     

Effect of long‐term mineral fertilisation on soil microbial abundance,community structure and diversity in a Typic Hapludoll under intensive farming systems

Fertiliser application can not only influence plant communities, but also the soil microbial community dynamics, and consequently soil quality. Specifically, mineral fertilisation can directly or indirectly affect soil chemical properties, microbial abundance and, the structure and diversity of soil microbial communities. We investigated the impact of six different mineral fertiliser regimes in a maize/soybean rotation system: control (CK, without fertilisation), PS (application of phosphorus plus sulphur), NS (application of nitrogen plus S), NP (application of N plus P), NPS (application of N, P plus S) and NPSm (application of N, P, S plus micronutrients). Soil samples were collected at the physiological maturity stage of maize and soybean in March of 2013 and 2014, respectively. Overall, mineral fertilisation resulted in significantly decreased soil pH and increased total organic carbon compared with the control (CK). The analysis of terminal restriction fragment length polymorphism (T‐RFLP) revealed that mineral fertilisers caused a shift in the composition of both bacterial and fungal communities. In 2013, the highest value of Shannon diversity of bacterial terminal restriction fragments (TRFs) was found in control soils. In 2014, NPSm treated soils showed the lowest values of diversity for both bacterial and fungal TRFs. In both crop growing seasons, the analysis of phospholipid fatty acid (PLFA) detected the lowest value of total microbial biomass under CK. As PLFA analysis can be used to evaluate total microbial community, this result suggests that fertilisation increased total microbial biomass. When the bacterial and fungal abundance were examined using real time polymerase chain reaction, the results revealed that mineral fertilisation led to decreased bacterial abundance (16S rRNA), while fungal abundance (18S rRNA) was found to be increased in both crop growing seasons. Our results show that mineral fertiliser application has a significant impact on soil properties, bacterial and fungal abundance and microbial diversity. However, further studies are needed to better understand the mechanisms involved in the changes to microbial communities as a consequence of mineral fertilisation.     

夏休闲期复种油菜对旱地土壤水分和小麦产量的影响

以冬小麦收获后高留茬休闲地为对照,连续4年在陇东黄土旱塬设6个油菜播种期,研究了休闲期作物覆盖对土壤水分及后作冬小麦产量与水分利用效率的影响.结果表明：不同播种期夏休闲期土壤贮水量差异显著(P＜0.05),其中8月5日播种油菜的土壤蓄水效率为58.5%,产量和水分利用效率较对照提高7.5%和5.9%.平均而言,夏休闲期复种油菜后作小麦干旱年份增产16.1%,平水年份增产6.8%.夏休闲期复种油菜是西北旱地小麦抗旱增产的有益途径.     

苜蓿和小麦长期连作对土壤酶活性及养分的影响

在长武长期轮作与施肥定位试验的基础上,对黄土高原沟壑区苜蓿和小麦连作27年后的黄盖黏黑垆土土壤酶活性及土壤养分进行了测定,探讨苜蓿和小麦长期连作对土壤酶活性及肥力的影响.结果表明： 苜蓿和小麦连作施肥都能提高土壤酶活性;同一作物不同施肥措施的土壤蔗糖酶、脲酶、磷酸酶活性差异不显著,但相同施肥条件下,苜蓿连作比小麦连作的土壤蔗糖酶、脲酶、磷酸酶活性高;不同作物种类及施肥措施的土壤过氧化氢酶活性差异不明显;氮磷肥和有机肥配施(NPM)的土壤脲酶、磷酸酶和过氧化氢酶活性较高,而蔗糖酶活性较低;苜蓿连作比小麦连作更有利于土壤有机质、全氮及速效氮的积累,氮磷肥和有机肥配施有利于培肥土壤.
     

Comparison of Soil Respiration in Typical Conventional and New Alternative Cereal Cropping Systems on the North China Plain

We monitored soil respiration (Rs), soil temperature (T) and volumetric water content (VWC%) over four years in one typical conventional and four alternative cropping systems to understand Rs in different cropping systems with their respective management practices and environmental conditions. The control was conventional double-cropping system (winter wheat and summer maize in one year - Con.W/M). Four alternative cropping systems were designed with optimum water and N management, i.e. optimized winter wheat and summer maize (Opt.W/M), three harvests every two years (first year, winter wheat and summer maize or soybean; second year, fallow then spring maize - W/M-M and W/S-M), and single spring maize per year (M). Our results show that Rs responded mainly to the seasonal variation in T but was also greatly affected by straw return, root growth and soil moisture changes under different cropping systems. The mean seasonal CO₂ emissions in Con.W/M were 16.8 and 15.1 Mg CO₂ ha⁻¹ for summer maize and winter wheat, respectively, without straw return. They increased significantly by 26 and 35% in Opt.W/M, respectively, with straw return. Under the new alternative cropping systems with straw return, W/M-M showed similar Rs to Opt.W/M, but total CO₂ emissions of W/S-M decreased sharply relative to Opt.W/M when soybean was planted to replace summer maize. Total CO₂ emissions expressed as the complete rotation cycles of W/S-M, Con.W/M and M treatments were not significantly different. Seasonal CO₂ emissions were significantly correlated with the sum of carbon inputs of straw return from the previous season and the aboveground biomass in the current season, which explained 60% of seasonal CO₂ emissions. T and VWC% explained up to 65% of Rs using the exponential-power and double exponential models, and the impacts of tillage and straw return must therefore be considered for accurate modeling of Rs in this geographical region.     

种植模式和施肥对黄土旱塬农田土壤团聚体及其碳分布的影响

本研究以长武黄土高原农业生态试验站33年长期定位试验处理为研究对象,选取撂荒(R)、小麦连作(CK/W)、小麦玉米轮作(L),小麦连作选取单施氮肥(N)、单施磷肥(P)、施氮磷肥(NP)、单施有机肥(M)、氮肥配施有机肥(NM)、磷肥配施有机肥(PM)、氮磷肥配施有机肥(NPM)共10种不同种植模式和施肥田间处理,运用...     

Changes in P forms and availability as influenced by management practices

Summary The objective of this study was to evaluate the changes in soil phosphorus (P) forms and potential availability that occurred in a grassland soil when it was cultivated and cropped to winter wheat (Triticum aestivum L.) in a crop-fallow rotation using three tillage systems: no-till, stubble mulch, and plow (bare fallow). The experiment was located in western Nebraska on a Duroc loam (fine silty, mixed, mesic Pachic Haplustolls). After 14 years, significant differences had developed in the form of soil P as determined by a sequential fractionation procedures between the original control (grass-sod) and the bare fallow treatments. Most of the differences were associated with increases in sand content caused by erosion, accompanied on the bare fallow plots by a mixing of sand from lower horizons throughout the surface 0–15 cm. Contribution R502 from the Saskatchewan Institute of Pedology, University of Saskatchewan, Saskatoon, SK, Canada S7N 0W0.     

长期双季稻绿肥轮作对水稻产量及稻田土壤有机质的影响

以中国农业科学院红壤实验站1982年布置的长期定位试验为研究对象,分析了长期双季稻绿肥轮作体系下水稻产量变化趋势、稻田土壤有机质变化特征及土壤活性有机质组成。结果表明,绿肥作物与双季稻轮作种植后,水稻产量显著高于冬闲对照,绿肥作物紫云英、油菜和黑麦草处理年平均水稻产量（1982-2008）分别为10.8 t?hm-2?a-1,10.2 t?hm-2?a-1和10.0 t?hm-2?a-1,较冬闲对照分别提高27.2%,20.5%和18.1%。试验前期（1982-1993）种植绿肥作物各处理之间水稻产量无显著差异,试验开展11年后（1994-2008）种植紫云英处理水稻产量显著高于油菜和黑麦草处理。长期双季稻绿肥轮作土壤有机质随年份显著增加,双季稻紫云英轮作土壤有机质积累速度最快,年增加0.31 g?kg-1,双季稻黑麦草次之,土壤有机质年增加0.28g?kg-1,双季稻油菜轮作土壤有机质年增加0.26g?kg-1。种植绿肥作物紫云英稻田土壤活性有机质显著高于其它处理。种植绿肥作物各处理土壤有机碳、全氮、土壤微生物量碳和土壤微生物量氮含量均显著高于冬闲对照。其中黑麦草和紫云英处理土壤微生物量碳含量及微生物熵显著高于油菜和冬闲对照处理。在湘南红壤丘陵双季稻区,种植绿肥作物对提高水稻产量、增加土壤有机质、提高土壤有机质活性具有重要意义,绿肥选择上以紫云英对水稻产量和稻田土壤培肥综合效果最好。     

Strategies to decrease nitrate leaching in the Brimstone Farm Experiment,Oxfordshire, UK, 1988–1993: the effects of winter cover crops and unfertilised grass leys

Nitrate losses in drainflow were measured over five years on eight hydrologically isolated field plots, pairs of which had the following cropping regimes: (a) a 3-yr unfertilised, ungrazed grass ley followed by winter and spring cereals, (b) mixed cropping including winter cover crops, spring cereals, winter cereals, winter fallow and spring beans, (c) a similar sequence to (b) but with a winter fallow replacing the cover crop in the first year and a winter cover crop replacing the fallow in the third year, and (d) continuous winter cereals (control plots). Less nitrate was lost in winter drainflow from winter cover crops than from the winter fallows, but over all five years less nitrate was leached from the continuous cereal plots than from those with mixed cropping. Most of the extra nitrate lost from the mixed cropping regimes probably resulted from mineralisation of the cover crop residues, which occurred at times when subsequent crops could not take advantage of the mineral nitrogen released. Crops grown after the grass ley and cover crops did not benefit from their residues, in terms of either grain yield or of total nitrogen uptake. We conclude that on heavy clay soils in UK a cropping regime of continuous winter cereals offers the best compromise between profitable crop production and minimised nitrate loss to surface waters.     

Responses of Wheat Yield,Macro- and Micro-Nutrients,and Heavy Metals in Soil and Wheat following the Application of Manure Compost on the North China Plain

The recycling of livestock manure in cropping systems is considered to enhance soil fertility and crop productivity. However, there have been no systematic long-term studies of the effects of manure application on soil and crop macro- and micro-nutrients, heavy metals, and crop yields in China, despite their great importance for sustainable crop production and food safety. Thus, we conducted field experiments in a typical cereal crop production area of the North China Plain to investigate the effects of compost manure application rates on wheat yield, as well as on the macro-/micro-nutrients and heavy metals contents of soil and wheat. We found that compost application increased the soil total N and the available K, Fe, Zn, and Mn concentrations, whereas the available P in soil was not affected, and the available Cu decreased. In general, compost application had no significant effects on the grain yield, biomass, and harvest index of winter wheat. However, during 2012 and 2013, the N concentration decreased by 9% and 18% in straw, and by 16% and 12% in grain, respectively. With compost application, the straw P concentration only increased in 2012 but the grain P generally increased, while the straw K concentration tended to decrease and the grain K concentration increased in 2013. Compost application generally increased the Fe and Zn concentrations in straw and grain, whereas the Cu and Mn concentrations decreased significantly compared with the control. The heavy metal concentrations increased at some compost application rates, but they were still within the safe range. The balances of the macro-and micro-nutrients indicated that the removal of nutrients by wheat was compensated for by the addition of compost, whereas the level of N decreased without the application of compost. The daily intake levels of micronutrients via the consumption of wheat grain were still lower than the recommended levels when sheep manure compost was applied, except for that of Mn.     

Changes in soil organic matter and phosphorus fractions under planted fallows and a crop rotation system on a Colombian volcanic-ash soil

Acquisition of soil and fertiliser phosphorus (P) by crops depends on soil and plant properties. Soil processes determining P availability to plants are P solubility/sorption, P transport, root/soil contact and mineralisation/immobilisation. Plants have evolved properties contributing to a more efficient use of plant-available soil P and to mobilise P from less available soil P fractions. Agronomic measures may affect P availability to crops through the modification of soil properties or through direct quantitative and qualitative crop impact on soil P dynamics. Among the agronomic measures, the application of organic matter such as green manure and crop residues to maintain or increase soil organic matter content and to enhance soil biological activity, and the incorporation into the cropping system of P-mobilising plant species are particularly beneficial.Our experimental activities have concentrated on the characterisation of the P mobilising capacity of different leguminous grain and cover crops, and their effect on P availability to less P-efficient cereals grown in mixed culture and in rotation. Fractionation of P in the rhizosphere soil revealed the capacity of some legumes to better use P from sparingly soluble soil P fractions than maize. Field experiments conducted on 2 sites in the Northern Guinea Savannah of Nigeria and accompanying green-house pot experiments revealed a positive rotational effect of P-efficient cover crops on maize growth and grain yield with and without the return of crop residues. This could unequivocally be attributed to a better P supply to maize, especially on strongly P-fixing soil. However, the residual effect was small compared to the application of water-soluble P fertiliser. This clearly indicates the need for a maintenance application of fertiliser P in addition to the agronomic measures for sustainable crop production.     

有机无机肥配施对旱地冬小麦产量和硝态氮残留淋失的影响

针对渭北旱塬氮肥施用不合理的问题,通过不同氮肥用量(0、75、150、225、300 kg N·hm^-2)与有机肥(30 t·hm^-2)配施,明确渭北旱塬麦田配施有机肥条件下合理的氮肥用量以及配施有机肥的减氮增产作用和对硝态氮残留淋失的影响.结果表明: 与单施化肥处理相比,有机无机肥配施可以在减少27.1%的氮肥用量情况下,提高14.7%的小麦籽粒产量,其中,施氮量150 kg·hm^-2配施有机肥处理的产量最高;有机无机肥配施可以促进小麦籽粒氮素吸收,氮肥利用率提高20.2%,尤其当氮肥用量为150 kg·hm^-2时,氮肥利用率达到最高值(42.0%);配施有机肥还能减少氮肥当季残留量和小麦生育期硝态氮向深层土壤淋溶,降低夏闲期淋失层硝态氮的淋失比例,当施氮量低于115 kg·hm^-2时,配施有机肥可以降低夏闲期硝态氮淋失量.基于本研究,推荐渭北旱塬在配施有机肥30 t·hm^-2的基础上,氮肥用量150 kg·hm^-2左右可实现小麦高产,提高氮肥利用率,防止氮肥过量残留.     

Effects of crop rotation and fertilization on catalase activity in a soil of the southeastern United States

Summary Catalase activity of a loamy sand under a 3-year crop rotation in the southeastern U.S.A. was monitored. Corn (Zea mays L.), cotton (Gossypium hirsutum L.), and soybean [Glycine max (L.) Merr.] were the summer crops in the rotation. Winter wheat (Triticum aestivum L.) was planted after corn, and soybean was followed by a winter fallow period. Cotton was followed by a mixture of common vetch (Vicia sativa L.) and crimson clover (Trifolium incarnatum Gibelli & Belli) which was eventually plow-incorporated as a green manure. Highest mean catalase activities were recorded in soil under the wheat, soybean, and winter legume crops; lowest activities were found in soil bearing corn and cotton, and during the winter fallow period. The fertilization regime influenced soil catalase activity independently of the crop. Soil deficient in any of the major elements showed low enzyme activity. Highest activity was found in soil fertilized with P and K, and with N supplied by a winter legume crop. Addition of supplementary mineral nitrogen to this regime reduced catalase activity. Elimination of the winter legume crop from an otherwise complete fertilization regime resulted in a drastic reduction in enzyme activity. In soil receiving a complete fertilization regime there was a close correlation between soil catalase and xylanase activities. A similar correlation between these two enzymes was not found in soil receiving incomplete fertilization.     

不同水旱复种轮作方式对稻田土壤有机碳及其组分的影响

通过连续2年的田间试验,研究不同水旱复种轮作方式对土壤有机碳及其组分的影响.结果表明: 稻田2年水旱复种轮作后的土壤总有机碳(TOC)呈现先升高后下降的趋势,易氧化有机碳(ROC)分蘖期最高、成熟期最低,土壤微生物生物量碳(SMBC)在分蘖期最高,可溶性有机碳(DOC)则在成熟期达到最高.土壤TOC的差异变化最大值和最小值分别出现在孕穗期和成熟期,ROC出现在返青期和孕穗期,DOC出现在成熟期和返青期,SMBC出现在分蘖期和返青期.“冬闲-早稻-晚稻→冬闲-早稻-晚稻”的土壤TOC、DOC变化幅度最大,“紫云英-早稻-晚稻→油菜-花生-晚稻”的土壤ROC变化幅度最大,“蔬菜-花生/玉米-晚稻→紫云英-早稻-晚稻”模式的SMBC变化幅度最大.“马铃薯-玉米/大豆-晚稻→蔬菜-花生/玉米-晚稻”在孕穗期的TOC含量较高;“紫云英-早稻-晚稻→油菜-花生-晚稻”能在晚稻生长的前期和中期积累较多的土壤ROC;“油菜-花生-晚稻→马铃薯-玉米/大豆-晚稻”在返青期和成熟期的土壤DOC含量较高,在孕穗期和抽穗期的SMBC较高.土壤各有机碳及其组分的大小关系为:TOC>ROC>SMBC>DOC.可见在当地土壤肥力条件下,水旱复种轮作方式能提高土壤有机碳及其组分的含量,有利于改善土壤质量,提高土壤肥力.