不同有机物料对黑土腐殖质结合形态影响差异性的研究

通过盆栽试验,研究了施用不同有机物料后黑土腐殖质结合形态含量及特征变化。结果表明,草本处理松结态腐殖质总量始终高于CK,并且在施用有机物料1a后差异显著,而动物粪便在施用5a后显著高于CK。各处理松结态腐殖质胡敏酸/富里酸（H/F）只在施用1a后表现出明显差异,光密度也只在施用1a后有明显差异,而各处理联结态腐殖质含量表现为施用1a后显著低于CK,随时间延长显著高于CK,施用5a后则无明显差异;光密度在施用5a后才表现出明显差异,草本残体、动物残体显著高于其他处理,木本残体、动物粪便、CK之间则无明显差异。各处理对于稳结态腐殖质含量的影响无明显差异,但对其组成影响并不相同。与CK相比,施用有机物料1a后,紧结态腐殖质含量显著提高,但有机物料之间差异不显著。各处理松/紧表现为,施用1a后,草本残体显著高于其他处理,而木本处理、动物粪便处理显著低于CK,随时间的延长各处理则无明显差异。     

基于烧失量指数评估滨海沉积物中有机质特征

Understanding organic matter characteristics(e.g., amount and state) of sediments is necessary for evaluating both the sediment and water environments; however, methods that have been proposed to investigate these characteristics are relatively expensive. This study attempted to evaluate the organic matter characteristics of littoral sediments by employing solely the loss on ignition(LOI)method, which is the most economical and accessible method in developing countries. Different types of sediments were first oven dried at 100℃ and then continuously burned at 200, 300, 400, 500, and 600℃ for 4 h at each temperature. The mass LOI at each temperature was calculated and compared with the 100℃ oven-dried weight. Our results suggested that the mass LOI across the temperature range of 200–300℃(LOI_(200-300)):mass LOI at 600℃(LOI_(600)) ratio(LOI_(200-300)/LOI_(600)) could represent different types of sediments as well as the organic matter:organic C ratio. Compared with the sediments unaffected by wastewater, the sediments that were more influenced by the inflow of domestic wastewater had a higher LOI_(200-300)/LOI_(600). Interestingly, LOI_(200-300)/LOI_(600) could also represent changes in the organic matter characteristics as a function of organic matter decomposition in sediments. In conclusion, the organic matter characteristics of littoral sediments could be evaluated using solely the LOI method, particularly with LOI_(200-300)/LOI_(600).     

Soil organic matter composition and soil lightness

Relationships between soil lightness, soil organic matter (SOM) composition, content of organic C, CaCO₃, and texture were studied using 42 top‐soil horizons from different soil types located in southern Germany. SOM composition was determined by CPMAS ¹³C NMR spectroscopy, soil color was measured by diffuse‐reflectance spectrophotometry and given in the CIE L*a*b* color coordination system (Commission Internationale de l'Eclairage, 1978). Multiple‐regression analysis showed, that soil lightness of top‐soil horizons is principally determined by OC concentration, but CaCO₃ and soil texture are also major variables. Soil lightness decreased with increasing OC content. Carbonate content had an important effect on soil lightness even at low concentrations due to its lightening property. Regressions between soil lightness and organic C content were strongly linear, when the soils were differentiated according to texture and CaCO₃ content. The aryl‐C content was the only SOM component which correlated significantly with soil lightness (r_S = –0.87). In the linear regressions carried out on the different soil groups, soil aryl‐C content was a more significant predictor for soil lightness than total OC content.     

土壤有机碳研究进展

回顾了国内外土壤有机碳研究进展及趋势,阐述了全球土壤有机碳库存量及分布、我国土壤有机碳库储量概况、农田土壤有机碳组成及其影响因素、农田土壤有机碳转化规律及影响因素,指出了我国在土壤有机碳研究方面存在的问题及今后的发展方向.     

A comparison of two methods for the isolation of free and occluded particulate organic matter

Various methods exist for the isolation of particulate organic matter (POM), one of the soil‐organic‐matter (SOM) fractions reacting most sensitive on land‐use or soil‐management changes. A combination of density separation and ultrasonic treatment allows to isolate two types of POM: (1) free POM and (2) POM occluded in soil aggregates. POM fractions are closely linked to their biochemical function for the formation and stabilization of aggregates, therefore methods using different aggregate sizes may result in different POM fractions isolated. We evaluated two physical fractionation procedures to reveal whether they yield different POM fractions with respect to amount and composition, using grassland and arable soils with sandy‐loam to sandy–clay‐loam texture and thus low macroaggregate stability. Method I used air‐dried aggregates of <2.0 mm size and a low‐energy sonication for aggregate disruption, method II used field‐moist aggregates <6.3 mm and a high‐energy–sonication procedure for aggregate disruption. POM fractions were analyzed by elemental analysis (C, N) and CPMAS ¹³C‐NMR spectroscopy. With both methods, about similar proportions of the SOM are isolated as free or occluded POM, respectively. The free‐ and occluded‐POM fractions obtained with method I are also rather similar in C and N concentration and composition as shown by ¹³C‐NMR spectroscopy. Method II isolates a free‐ and occluded‐POM fraction with significantly different C and N concentrations. NMR spectra revealed significant differences in the chemical composition of both fractions from method II, with the occluded POM having lower amounts of O‐alkyl C and higher amounts of aryl C and alkyl C than the free POM. Due to the use of larger, field‐moist aggregates with minimized sample pretreatment, two distinctly different POM fractions are isolated with method II, likely to be more closely linked to their biochemical function for the formation and stabilization of aggregates. High‐energy sonication as in method II also disrupts small microaggregates <63 µm and releases fine intraaggregate POM. This fraction seems to be a significant component of occluded POM, that allows a differentiation between free and occluded POM in sandy soils with significant microaggregation. It can be concluded, that microaggregation in arable soils with sandy texture is responsible for the storage of a more degraded occluded POM, that conversely supports the stabilization of fine microaggregates.     

Carbon sequestration dynamic,trend and efficiency as affected by 22‐year fertilization under a rice–wheat cropping system

The maintenance and accumulation of soil organic carbon (SOC) in agricultural systems is critical to food security and climate change, but information about the dynamic trend and efficiency of SOC sequestration is still limited, particularly under long‐term fertilizations. In a typical Purpli‐Udic Cambosols soil under subtropical monsoon climate in southwestern China this study thus estimated the dynamic, trend and efficiency of SOC sequestration after 22‐year (1991–2013) long‐term inorganic and/or organic fertilizations. Nine fertilizations under a rice–wheat system were examined: control (no fertilization), N, NP, NK, PK, NPK, NPKM (NPK plus manure), NPKS (NPK plus straw), and 1.5NPKS (150% NPK plus straw). Averagely, after 22‐years SOC contents were significantly increased by 4.2–25.3% and 10.2–32.5% under these fertilizations than under control conditions with the greatest increase under NPKS. The simulation of SOC dynamic change with an exponential growth equation to maximum over the whole fertilization period predicted the SOC level in a steady state as 18.1 g kg^?1 for NPKS, 17.4 g kg^?1 for 1.5NPKS, and 14.5–14.9 g kg^?1 for NK, NP, NPK, and NPKM, respectively. Either inorganic, organic or their combined fertilization significantly increased crop productivity and C inputs that were incorporated into soil ranging from 0.91 to 4.63 t (ha · y)^?1. The C sequestration efficiency was lower under NPKM, NPKS, and 1.5NPKS (13.2%, 9.0%, and 10.1%) than under NP and NPK (17.0% and 14.4%). The increase of SOC was asymptotical to a maximum with increasing C inputs that were variedly enhanced by different fertilizations, indicating an existence of SOC saturation and a declined marginal efficiency of SOC sequestration. Taken all these results together, the combined NPK plus straw return is a suitable fertilizer management strategy to simultaneously achieve high crop productivity and soil C sequestration potential particularly in crop rotation systems.     

不同温室蔬菜种植模式下土壤磷素形态分布与转化

采用蒋柏藩-顾益初无机磷分级浸提法,研究了15a长期有机、综合和常规种植3种温室蔬菜生产体系下石灰性土壤磷形态分布及转化特征。结果表明:种植模式及施肥年限对土壤有机磷含量和各形态无机磷含量均有显著影响,且交互作用显著。随着施肥时间延长,3种种植模式土壤有机磷含量与无机磷形态Ca_2-P、Ca_8-P、Fe-P含量不断升高,Al-P、O-P、Ca_(10)-P含量呈现不规则变动,差异较小;有机模式土壤有机磷含量与无机磷形态Ca_2-P、Ca_8-P、Fe-P含量均高于常规和综合模式,O-P、Ca_(10)-P含量略小于常规和综合模式。在各磷素占比中,中等活性磷源(Ca_8-P、Fe-P、Al-P)潜在磷源(O-P、Ca10-P)有效磷源(Ca_2-P)。表层土中有机磷占全磷的8%～23%,亚表层土中有机磷占全磷的6%～13%。有机模式促进了无机磷各形态之间、有机磷和无机磷形态之间的转化过程,0～20 cm土层的磷素转化比20～40 cm更活跃。     

Labile and stable pools of organic matter in soil amended with sewage sludge biochar

One of the main advantages of using biochar for agricultural purposes is its ability to store carbon (C) in soil for a long-term. Studies of labile and stable fractions of soil organic matter (SOM) may be a good indicator of the dynamics of biochar in soils. This study evaluated the effects of applying sewage sludge biochar (SSB) in combination with mineral fertilizer on fractions of SOM. To conduct this evaluation, 15 Mg ha^?1 of SSB combined or not with mineral fertilizer (NPK) was applied to the soil in two cropping seasons. Apart from total organic C (TOC), the labile and stable fractions of SOM were also determined. The combined use of SSB and NPK resulted in higher TOC, a 22% to 40% increase compared to the control and to the NPK treatments, respectively. The SSB produced at a lower temperature increased the labile fractions of SOM, especially the microbial biomass C, showing its capacity to supply nutrients in the short-term. The stable pools of SOM are increased after adding SSB produced at a higher temperature. It was concluded that pyrolysis temperature is a key-factor that determines the potential of SSB to accumulate C in labile and stable fractions of SOM.     

土壤中钙键和铁/铝键结合的有机碳差异的比较

为研究矿质元素在有机碳矿化中所起的作用,以棕壤、黄棕壤、红壤为供试土壤,比较了不同利用方式和施肥处理土壤中钙键、铁/铝键结合的有机碳的差异。结果表明,从北至南的地带性土壤(棕壤、黄棕壤和红壤)系列中,全钙及与有机碳结合的钙依次降低,钙键结合的有机碳占有机碳总量的比值依次升高;铁/铝键结合的有机碳及其占全碳的比值依次升高。与自然土壤相比,耕作土壤在不施肥条件下,钙键有机碳、铁/铝键有机碳占有机碳总量的比值增加,且铁/铝键有机碳占有机碳总量比值的增加率始终比钙键有机碳占有机碳总量比值的增加率要高;覆膜比不覆膜时铁/铝键有机碳占有机碳总量比值的增加率比钙键有机碳占有机碳总量比值的增加率高得多。这表明,与全土有机碳相比,有机碳矿化稳定性由高到低依次是铁/铝键有机碳、钙键有机碳、全土有机碳。     

东北黑土活性有机碳、氮分布研究

通过对东北黑土区不同地点、不同层次的土壤样品的分析,探索活性有机碳(轻组有机C,N、颗粒有机C,N和易氧化有机C,N)在东北地区的分布情况。结果表明,随着纬度的增加,土壤活性有机C、N含量增加;随着深度的增加,土壤活性有机C、N含量减少。说明纬度低的地区,活性有机碳库转化较快,库容较小,而耕作措施相近的情况下,植物残体和根残体在有机C积累方面应予以重视。     

不同有机替代对黄土旱塬土壤碳、氮组分及冬小麦产量的影响

探讨黄土旱塬冬小麦区不同有机肥替代化肥氮对小麦产量及土壤碳氮组分的影响,为该区减施化学氮肥、促进小麦提质增效和农业绿色可持续发展提供理论依据。于2019年在山西黄土旱塬冬小麦种植区设置100%化肥N处理(HF)、10%腐殖酸N+90%化肥N (F1)、30%腐殖酸N+70%化肥N (F3)、50%腐殖酸N+50%化肥N (F5)、10%有机肥N+90%化肥N (Y1)、30%有机肥N+70%化肥N (Y3)、50%有机肥N+50%化肥N (Y5)7个试验处理,系统研究了不同比例腐殖酸、有机肥替代化肥对小麦产量及产量构成和土壤碳、氮组分含量的影响。结果表明:F3、F5、Y3和Y5处理,分别较HF显著提高9.7%,8.0%,9.2%和18.2%。同时,Y5对土壤中各种活性有机碳、氮组分含量的提高均有显著促进作用,提高幅度在36.8%~114.4%和27.8%~105.4%;Y3处理下可溶性、水溶性、微生物有机碳、氮和轻组有机碳、氮组分的含量较HF显著提高21.1%~156.8%;F3和F5处理下土壤中可溶性、微生物和轻组有机碳、氮组分含量较HF显著提高25.4%~119.3%。可溶性有机碳、微生物有机氮、轻组有机氮与籽粒产量呈极显著正相关;可溶性有机氮通过促进公顷穗数增加而提高冬小麦产量;总有机碳、水溶性有机碳和微生物有机氮则通过提高穗粒数达到增产效果。综上,在黄土旱塬冬小麦种植区进行30%~50%的有机肥和腐殖酸替代化肥后,可达到显著增产效果,同时提高土壤中活性碳、氮组分的作用。其中,50%有机肥替代处理的增产与培肥地力效果更为显著,适宜在当地推广应用。     

Determination of organic matter in sewage sludges

Abstract

Procedures for determining organic matter indirectly and directly in sludges are described. A good agreement between chromic acid oxidation and dry—combustion elemental analysis methods of determining organic‐C was observed. Sludge organic matter content was determined directly by loss‐on‐ignition by thermal analysis. An average C factor of 1.68 to estimate the organic matter from organic‐C, obtained by chromic acid oxidation method, was calculated for aerobically digested sludges.     

保护性耕作模式对黑土有机碳含量和密度的影响

以公主岭市长期（10 a）保护性耕作定位试验为研究对象,分析与传统耕作模式相比的几种保护性耕作模式对黑土固碳效应的影响。共设4种耕作模式,即秋翻秋耙匀垄、秋灭茬匀垄、全面旋耕深松和宽窄行交替休闲（又叫松带、苗带交替休闲）（后3种视为保护性耕作）。结果表明,经过10 a的耕作试验,不同的耕作模式对土壤有机碳有显著的影响。表层0～20 cm秋翻秋耙匀垄和秋灭茬匀垄模式的土壤有机碳含量最低,深层30～50 cm全面旋耕深松模式的土壤有机碳质量分数显著低于其他耕作模式13.49%～25.14%;0～50 cm耕层     

Molecular composition and structure of organic matter in density fractions of soils amended with corn straw for five years

Corn straw is an important source of carbon (C),and when applied to soil,it alters the accumulation and distribution of organic C.However,the mechanistic pathways by which newly added C is stored and stabilized in soil remain a subject of interest and debate among scholars.In this study,we investigated the chemistry of organic matter in different density fractions of Haplic Cambisol (sandy clay loam) in a field experiment with corn straw at8 900 kg ha^-1year^-1under no tillag...     

Extraction of Soil Organic Nitrogen by Organic Acids and Role in Mineralization of Nitrogen in Soil

The solubilization of organic nitrogen (Norg) in soil was examined by using organic acids often present in root exudates. The organic acids tested were classified into two groups depending on their solubilizing ability for Norg in a soil sample. Oxalate, malonate, tartarate, citrate and malate could dissolve Norg by increasing their concentrations, while succinate and glutarate could not dissolve Norg even when their concentrations were increased. The amount of organic N extracted with oxalate, malonate, tartarate, citrate and malate showed a strong correlation with the sum of the amounts of Al and Fe in the extracts. Therefore, it was assumed that the solubilizing ability may be attributed to the structure of these organic acids that can form stable chelate compounds with Al and Fe (oxalate, malonate, tartarate, citrate and malate). Furthermore, the amount of 20 mM cit-rate-extractable Norg (CEON), which was the highest among the organic acids tested, showed a strong correlation with both that of 67 mM phosphate buffer, which is now being widely used as an index for estimating soil N availability in Japan, and N mineralized using an incubation method in 46 soil samples belonging to different soil types. These results suggested that CEON might be an important constituent of mineralizable Norg in soil. Therefore, organic acids secreted by crops play a role in the solubilization of available Norg surrounding the crop rhizosphere.     

上海市绿地表层土壤有机碳储量的估算

本文调查了上海市472个绿地土壤样点,通过对其土壤有机碳含量、密度等指标进行测定分析,最终估算出上海市绿地土壤表层有机碳储量,同时为预测上海市未来十几年的碳库变化提供数据支撑。研究结果表明:①上海市绿地表层(0～20 cm)土壤有机碳空间分异性较大,土壤有机碳含量和密度表现为西高东低,且自中心向四周逐渐增高。②不同绿地类型土壤有机碳含量大小依次为:公园绿地公共绿地道路绿地;有机碳密度的大小依次为:公共绿地公园绿地道路绿地。不同绿地类型土壤有机碳含量和密度差异显著,其中,城区不同绿地类型土壤有机碳含量和密度差异显著(P0.05),但郊区不同绿地类型土壤有机碳含量和密度差异不显著(P0.05)。③2015年上海市绿地表层土壤有机碳储量约为4.26×106 t。预计到2035年,上海市绿地表层土壤有机碳储量约可达到1.53×107 t。     

Managing soil organic matter – implications for soil structure on organic farms

Abstract. This paper reviews current understanding of soil structure, the role of soil organic matter (SOM) in soil structure and evidence for or against better soil physical condition under organic farming. It also includes new data from farm case studies in the UK. Young SOM is especially important for soil structural development, improving ephemeral stability through fungal hyphae, extracellular polysaccharides, etc. Thus, to achieve aggregate stability and the advantages that this conveys, frequent input of fresh organic matter is required. Practices that add organic material are routinely a feature of organically farmed soils and the literature generally shows that, comparing like with like, organic farms had at least as good and sometimes better soil structure than conventionally managed farms. Our case studies confirmed this. In the reviewed papers, SOM was generally larger on the biodynamic/organic farms because of the organic additions and/or leys in the rotation. We can therefore hypothesize that, because it is especially the light fraction of SOM that is involved in soil structural development, soil structure will improve in a soil to which fresh organic residues are added regularly. Thus, we argue it is not the farming system per se that is important in promoting better physical condition, but the amount and quality of organic matter returned to a soil.     

有机物质对土壤溶液中铜形态的影响

Incubation of two soils,a red soil derived from granodiorte and a fluvo-aquic soil from alluvial deposit,with rice straw,Chinese milk vetch and pig manure under submerged condition were conducted to study the species of Cu in soil solutions as affected by the organic materials.The organic materials increased total soluble Cu by raising dissolved organic carbon(DOC) in soil solution when the solution pH values were below the range in which Cu deposited quickly.When the solution pH rose to this rage,the increase of DOC did not raise total soluble Cu.Total soluble Cu in all the treatments dropped with incubation time.After adding organic materials labile Cu dropped with incubation time and decreased sharply in the pH range of Cu precipitation.Addition of organic materials enhanced slowly labile Cu but depressed the ratio of labile Cu to total soluble Cu.Slowly labile Cu decreased with incubation time.Sepwise multiple linear regression analysis showed that total soluble Cu was positively correlated with Eh and DOC(P=0.0025),labile Cu was negatively correlated with pH(P=0.0118),and slowly labile Cu was positively correlated with Eh and DOC(P=0.0022).Both the labile and slowly labile Cu were correlated with total soluble Cu at extremely significant levels.