以水稻为主的种植系统对土壤有机质状况的影响

A long-term simulation experiment was carried out to study the effect of rice-based cropping system, green manure and ground-water level on soil organic matter. Soil organic matter content increased when upland soil was puddled and cropped under submerged conditions. Among all treatments, soil organic matter contents in the treatments of rice-rice-flooded fallow in winter (WF) were the highest, those in the treatments of rice-rice-astragalus (WG) came the second, and those in the treatments of rice-rice-rape (WR) were the lowest. At the same rate of green manure application, the degrees of organo-mineral complexing in soils of treatments WG and WR were higher than those of treatment WF. After 9-year rice cultivation, the state of combination of humus in heavy fraction varied with treatments. The relative content of loosely bonded humus decreased in the order of WR > WG > WF, and it correlated significantly with Se availability.     

铵、钾同时存在时, 土壤对铵的优先吸附

The water stability of aggregates in various size classes separated from 18 samples of red soils under different managements, and the mechanisms responsible for the formation of water-stable soil aggregates were studied. The results showed that the water stability of soil aggregates declined with increasing size, especially for the low organic matter soils. Organic matter plays a key role in the formation of water-stable soil aggregates. The larger the soil aggregate size, the greater the impact of organic matter on the water stability of soil aggregates. Removal of organic matter markedly disintegrated the large water-stable aggregates (> 2.0 mm) and increased the small ones (< 0.25-0.5mm) to some extent, whereas removal of free iron(aluminium) oxides considerably destroyed aggregates of all sizes, especially the < 0.25-0.5 mm classes. The contents of organic matter in water-stable aggregates increased with aggregate sizes. It is concluded from this study that small water-stable aggregates (< 0.25-0.5 mm) were chiefly cemented by Fe and Al oxides whilst the large ones (> 2.0 mm) were mainly glued up by organic matter. Both free oxides and organic matter contribute to the formation and water stability of aggregates in red soils.     

Effect of Organic Manure Application on Physical Properties andHumus Characteristics of Paddy Soil

Long-term field experiment was established in 1978 on a coastal paddy soil to determine the effect of application of pig manure, rice straw and chemical N fertilizer on the physical property and humus characteristics of soil. Results showed that the porosity, the microstructural coefficient, the reactivities of organic C and N, the OlogK value, the degree of oxidation stability, the contents of o-alkyl C and alkyl C, and the ratio of aliphatic C to aromatic C of humic acid from soils received organic manure increased; whereas, the ratio of<10μm to >10μm of microaggregates, the humification degree of humus, the degree of organo-mineral complexation, the number-average molecular weight, the C/H ratio, the contents of carboxyl and aromatic C of HAs in them decreased. These results indicated that the application of organic manure not only improved the physical property of the paddy soil but also made the HA more aliphatic in structure and younger in origin.     

Regionalization for rice yield estimation by remote sensing in Zhengjiang province

The role of organic matter in the formaiton and stability of soil aggregates in mulberry plantation in the Hang-Jia-Hu Plain,northern Zhejiang Province,was evaluated in this study,A positive correlation was found between water-stable aggregate contents and organic matter contents in the ulberry plantation soils,which supported the hypothesis that organic matter was the main eenting agent in formation of aggregates.A close correlation was also foud between statility ofaggregate ad organic matter contents.Regression analysis showed that total nitrogen content was also an idicator of water-stable aggregate content and stability.The aggregate size distribution indicated that the water-stable aggregats 1-0.25mm in diaeter with the decreast of aggregate sizes,and the aggregates 1-0.25mm in diameter had the maximum organic matter content.     

Effects of Organic Amendments on Soil Physical Attributes and Aggregate-Associated Phosphorus Under Long-Term Rice-Wheat Cropping

The quantification of phosphorus(P) in bulk soil and P distribution in different size fractions of water-stable aggregates(WSAs)are important for assessing potential P loss through runoff. We evaluated available and total P distribution within WSAs of a sitty clay to clay soil in a long-term fertility experiment of a rice-wheat cropping system in India. Surface soil samples were collected from seven plots amended with NPK fertilizers in combination with or without organic amendments, farmyard manure(FYM), green manure(GM), and paddy straw(PS). The plot with no NPK fertilizers or organic amendments was set as a control. The soil samples were separated by wet sieving into four soil aggregate size fractions: large macroaggregates( 2.0 mm), small macroaggregates(0.25–2.0 mm), fine microaggregates(0.05–0.25 mm), and a silt + clay-sized fraction( 0.05 mm). Structural indices were higher in the soil receiving organic amendments than in the soil receiving inorganic fertilizer alone. Organically amended soil had a higher proportion of stable macroaggregates than the control and the soil receiving inorganic fertilizer alone, which were rich in microaggregates. Total and available P contents within WSAs were inversely related to the aggregate size, irrespective of treatment. The distribution of available and total P in the soil aggregate size fraction was as follows: silt + clay-size fraction small macroaggregates fine microaggregates large macroaggregates. Within a size class, aggregate-associated available and total P contents in the organically amended soil were in the following order: FYM PS ≥ GM. The available P content of the microaggregates( 0.25 mm) was 8-to 10-times higher than that of the macroaggregates( 0.25 mm), and the total P content of the microaggregates was 4-to 5-times higher than that of the macroaggregates. Cultivation without organic amendments resulted in more microaggregates that could be checked by the application of organic amendments such as FYM and GM, which increased the proportion of water-stable macroaggregates by consolidating microaggregates into macroaggregates.     

Composition and Characteristics of Organo—Mineral Complexes of Red Soils in South China

The objective of the present study is to reveal the composition and characteristics of organo-mineral complexes in red soils (red soil,lateritic red soil and latosol) of south China in terms of chemical dissolution and fractional peptization methos.In the combined humus,most of the extractable humus could dissolve in 0.1 M NaOH extractant and belonged to active humus (H1),and there was only a small amount of humus which could be further dissolved in 0.1 M Na4P2O7 extractant at pH 13 and was stably combined humus (H2).The H1/H2 ratio ranged from 3.3 to 33.8 in red soils,and the proportions of both H1 and total extractable organic carbon (H1 H2) in total soil organic carbon and the ratios of H1 to H2 and H1 to (H1 H2) were all higher in lateritic red soil and latosol than in red soil.The differences of combined humus composition in various red soils were directly related to the content of Fe and Al oxides.In organo-mineral complexes,the ratio of Na-dispersed fraction (G1) to Na-ground-dispersed fraction (G2) was generally smaller than 1 for red soils,but there was a higher G1/G2 ratio in red soil than in lateritic red soil and latosol.G1 fraction had a higher content of fulvic acid (FA),but G2 fraction had a higher content of humic acid (HA).The ratios of H1 to H2 and HA to FA were higher in G2 than in G1.The differences in the composition and activity of humus between G1 and G2 fractions were related to the content of free Fe and Al oxides.The quantities of complex Fe and Al,the Fe/C and Al/C atomic ratios were higher in G2 than in G1,and the ratio of Al/C was much higher than that of Fe/C.It may be deduced that aluminum plays a more important role than iron in the formation process of organo-mineral complexes in red soils.     

Dicyandiamide sorption-desorption behavoir on soils and peat humus

The sorption-desorption behavior of dicyandiamide (DCD) is an important chemical process that affects DCD fate and mobility in soils. Therefore, this study quantified DCD sorption-desorption on a phaeozem (Mollisol), a burozem (Alfisol), a soil with organic matter-removed and peat humus using the batch-equilibration procedure, and identified soil properties that influenced DCD sorption. The sorption on peat humus was higher than that on the phaeozem and the burozem, with much lower sorption observed on the soil with organic matter-removed, indicating that soil organic matter was the main carrier of DCD sorption. Due to its amphipathic property the DCD molecule sorption on the phaeozem and the burozem decreased as pH increased from about 2 to 5, but a further increase in pH led to a rise in DCD sorption.The DCD desorption hysteretic effect for peat humus was greater than that for the phaeozem and the burozem using 0.01 mol L^-1 CaCl2 as the background electrolyte, suggesting that the hydrophobic domains of organic matter may play an important role in DCD sorption.     

用激光衍射法评价有机物和和碳酸盐对土壤团聚的作用

>Aggregation in many soils in semi-arid land is affected by their high carbonate contents.The presence of lithogenic and/or primary carbonates can also inffuence the role of soil organic matter(SOM) in aggregation.The role of carbonates and SOM in aggregation was evaluated by comparing the grain-size distribution in two carbonate-rich soils(15% and 30% carbonates) under conventional tillage after different disaggregating treatments.We also compared the effect of no-tillage and conventional tillage on the role of these two aggregating agents in the soil with 30% of carbonates.Soil samples were treated as four different ways:shaking with water(control),adding hydrochloric acid(HCl) to remove carbonates,adding hydrogen peroxide(H2O2) to remove organic matter,and consecutive removal of carbonates and organic matter(HCl + H2O2),and then analyzed by laser diffraction grain-sizing.The results showed that different contributions of carbonates and SOM to aggregate formation and stability depended not only on their natural proportion,but also on the soil type,as expressed by the major role of carbonates in aggregation in the 15% carbonate-rich soil,with a greater SOC-to-SIC(soil organic C to soil inorganic C) ratio than the 30% carbonate-rich soil.The increased organic matter stocks under no-tillage could moderate the role of carbonates in aggregation in a given soil,which meant that no-tillage could affect the organic and the inorganic C cycles in the soil.In conclusion,the relative role of carbonates and SOM in aggregation could alter the aggregates hierarchy in carbonate-rich soils.     

黑土开垦后水稳性团聚体与土壤养分的关系

Water-stable aggregates, which are an index for the evaluation of the structural properties of the soil, are affected by many factors. Zhaoguang Farm, Longzhen Farm, and Jiusan Farm were chosen as the representative study sites in the region of black soils, a typical soil resource in Northeast China. The variation in the content of 〉 0.25 mm water-stable aggregates and its relationship with the nutrients in black soil were investigated after different years of reclamation. The results showed that the 〉 0.25 mm water-stable aggregates were more in the surface than in the subsurface soil and they changed in the following order： Longzhen Farm 〉 Zhaoguang Farm 〉 Jiusan Farm. The water-stable aggregates decreased sharply at the initial stage of reclamation and then became stable gradually with time. They were significantly correlated with the contents of organic C, total N, total P, and CEC in black soil, with the correlation coefficients r being 0.76, 0.68, 0.61, and 0.81 （P 〈 0.01）, respectively; however, their relationships with available P, available K, and total K were unclear. These showed that organic matter was the cementation of soil water-stable aggregates. Increasing decompositions and decreasing inputs of organic matter after reclamation were responsible for the amount of reduction of the water-stable aggregates. Thus, to maintain good soil aggregate structure, attention should be paid to improvement of soil nutrient status, especially the supply of organic C and N.     

利用方式和土壤肥力对土壤团聚体和养分的影响

The size distribution of water-stable aggregates and the variability of organic C, N and P contents over aggregate size fractions were studied for orchard, upland, paddy, and grassland soils with high, medium, and low fertility levels. The results showed that > 5 mm aggregates in the cultivated upland and paddy soils were 44.0% and 32.0%, respectively, less than those in the un-tilled orchard soil. Organic C and soil N in different size aggregate fractions in orchard soil with high fertility were significantly higher than those of other land uses. However, the contents of soil P in different size aggregates were significantly greater in the paddy soil as compared to the other land uses. Soil organic C, N and P contents were higher in larger aggregates than those in smaller ones. The amount of water-stable aggregates was positively correlated to their contribution to soil organic C, N and P. For orchard and grassland soils, the > 5 mm aggregates made the greatest contribution to soil nutrients, while for upland soil, the 0.25-0.053 mm aggregates contributed the most to soil nutrients. Therefore, the land use with minimum disturbance was beneficial for the formation of a better soil structure. The dominant soil aggregates in different land use types determined the distribution of soil nutrients. Utilization efficiency of soil P could be improved by converting other land uses to the paddy soil.     

紫色水稻土有机无机复合与土粒团聚的关系

紫色水稻土的原土复合量（重组腐殖质）为中性土〉钙质土〉酸性土，同一土壤剖面中其含量是随土层深度下降；而有机无机复合度为钙质土〉中性、酸性土，在土壤剖面中是随土层深度增加。〈０．０１ｍｍ土粒团聚量和〈０．０１ｍｍ土粒团聚度为钙质土〉中性土〉酸性土。原土复合量和有机质含量，物理性粘粒含量、铁氧化物含量与〈０．０１ｍｍ土粒团聚量呈显著正相关；而有机无机复合度与有机质含量呈显著负相关，与腐殖质结合状态，物     

长期施用有机肥料对紫色水稻土有机无机复合性状的影响

连续九年施用有机肥料，紫色水稻土壤及＜０．００２ｍｍ的有机无机复合体中无定形铁，铝和铬合态铁，铝的含量呈不同程度的增加，铬合态铁和铝间具拮抗作用（ｒ＝０．７９９８ｎ＝７）；土壤的有机质含量增加主要是由于轻组有机质含量增加，而有机无机复合度下降，土壤重组腐殖质的含量为０．２５－０．０１ｍｍ＞＜０．００２ｍｍ＞１－０．２５ｍｍ＞０．０１－０．００２ｍｍ；有机无机复合度及重组腐殖质中松结态与紧结态的比值     

施肥措施对复垦土壤团聚体碳氮含量和作物产量的影响

研究复垦后不同施肥措施下有机碳（OC）和全氮（TN）在水稳性团聚体及粉黏粒组分中的分布特征，以期深入理解不同施肥措施下土壤有机碳的固持机制。以生土和连续6年不同施肥措施的复垦土壤为研究对象，采集0～20 cm耕层土壤样品，利用湿筛法进行土壤粒径分组，分析大粒径大团聚体（> 2 mm）、小粒径大团聚体（0.25～2 mm）、微团聚体（0.053～0.25 mm）和粉黏粒组分（< 0.053 mm）中OC和TN含量，判断各粒径团聚体及粉黏粒组分中有机碳储量的驱动因素，探究团聚体及粉黏粒组分中有机碳含量与作物产量之间的关系。试验设不施肥（CK）、施氮磷钾化肥（NPK）、单施有机肥（M）和有机无机肥配施（MNPK）4个处理。结果表明：1）整个试验周期（2008-2013年），同CK相比， NPK、M以及MNPK处理均显著提高了玉米籽粒产量，且以MNPK处理的效果最显著，分别提高了79.49%、116.07%和113.85%。     

东北几种耕作土壤的微形态特征

黑土、白浆土、苏打盐土是我国东北地区的主要耕作土壤。为了培育高肥沃度土壤,不仅需要了解它们的保肥量、供肥量、供肥速度和土壤的水、热、气状况等。也要摸清其结构性态,即土壤颗粒间的团聚垒结程度、团聚体的大小、排列状况和所形成团聚体的稳定性和孔隙性。以便揭示土壤肥力形成的机理,为进一步调节控制土壤肥力提供依据。     

稻作制度对红壤性水稻土有机质特征的影响

采用长期定位试验,比较3种稻作制度对红壤性水稻土有机质总量、有机无机复合状况、腐殖质结合形态、腐殖质组成、胡敏酸光学性质和总酸度等的影响。结果表明:冬泡制度比水旱轮作有助于增加土壤有机质总量、重组有机质含量、胡敏酸含量和胡敏酸/富啡酸,而水旱轮作比冬泡制度有利于提高土壤松结合态腐殖质、松结合态腐殖质/紧结合态腐殖质、胡敏酸E4值和总酸度。由此说明,冬泡制度有利于土壤有机质总量和胡敏酸的累积,但不利于胡敏酸分子的增长,腐殖质品质较差。而水旱轮作条件下土壤有机质活性增加,胡敏酸分子结构趋于复杂,其氧化度和芳香度增加。因此,通过周期性的水旱轮作换茬,可使土壤有机质的腐殖化和矿质化过程比例协调,从而提高土壤有机质的质量。     

水旱轮作条件下土壤有机无机复合状况的研究

在黄棕壤和灰潮土上进行水旱轮作条件下土壤有机无机复合状况变化的研究表明:1.水改旱有利于促进土壤有机质与土壤矿质部分的复合,增加土壤有机无机复合量,旱改水则使游离态有机质增多。2.水改旱后,土壤所复合的腐殖质中紧结态的相对较多,同时松结态和紧结态腐殖质的易氧化部分增多,能促使结合态腐殖质的氧化更新;旱改水后,松结态腐殖质相对增多,以及松结态和紧结态腐殖质的难氧化部分增多。3.水改旱后可导致土壤腐殖质组分上的差异,即HA-B/FA-B的比值升高;HA-A/FA-A的比值下降。4.水改旱后土壤碳、氮含量除细粘粒复合体中有增加外,其他粒径复合体中的都减少了,而磷、硫含量在粗粘粒和细粘粒复合体中均有明显增加,说明水改旱有利于缩短土壤有机质以及氮、磷、硫养分的循环周期,促进其易矿化性。     

稻草不同途径还田对土壤结构及有机质特征的影响

通过3年的田间定位试验,系统的研究了稻草不同途径还田对稻田土壤容重、孔隙度、团聚体、有机碳总量、腐殖质组成及腐殖质结合形态的影响。结果表明,与无肥(CK)及纯施化肥(NPK)对照相比,稻草直接深埋还田(NPK+S)及利用后的菌渣、牛粪、沼渣深埋还田(NPK+FD、NPK+CD、NPK+BD)均能一定程度的降低土壤容重、增加孔隙度、增加>0.25 mm水稳性团聚体的数量和提高土壤团聚体的稳定性,有利于形成和保持良好的土壤结构;同时能提高土壤腐殖质中胡敏酸含量和HA/FA比值,增加松结态腐殖质含量和提高松/紧腐殖质比值,能一定程度的改善土壤腐殖质的组成、性质及结合形态,提高腐殖质品质,不过这4个处理间的差异不明显。稻草焚烧还田(NPK+S′)在以上方面效果均不显著,且带来严重的大气污染,并不可取。     

长江三角洲地区土壤环境质量与修复研究 Ⅳ.多环芳烃在土壤不同有机质组分中分配特征的研究

多环芳烃(PAHs)在土壤不同活性有机质库中的分配会影响它们在土壤中的迁移和生物有效性。本研究采用土壤有机无机复合体的分组方法,分离出以游离态有机物质存在的轻组和以有机无机复合体存在的重组,研究了15种美国环境保护署(USEPA)优控的PAHs在土壤轻组和重组以及重组结合态腐殖质不同组分中的分配特征。结果表明,轻组中PAHs总量的含量范围为1.30×104~1.07×105μg kg-1,远远高于PAHs总量的含量为221.7~297.8μg kg-1的重组。土壤中轻组的含量虽然只有0.4%~2.3%,但它结合的PAHs量却占土壤中PAHs总量的31.5%~69.5%。重组中PAHs含量主要分布在紧结态腐殖质中,占重组PAHs总量71.2%~87.2%。结合态腐殖质不同组分中PAHs的含量与它们有机碳的含量呈显著性正相关(p<0.01),紧结态腐殖质对PAHs的富集能力显著高于稳结态和松结态腐殖质。PAHs污染土壤的环境风险可能主要在于轻组结合的PAHs。