盐分对土壤呼吸和有机质动力学的影响与土壤电导率相关，而与渗透势的关系更为密切

Osmotic potential (OP) of soil solution may be a more appropriate parameter than electrical conductivity (EC) to evaluate the effect of salts on plant growth and soil biomass.However,this has not been examined in detail with respect to microbial activity and dissolved organic matter in soils with different texture.This study evaluated the effect of salinity and sodicity on respiration and dissolved organic matter dynamics in salt-affected soils with different texture.Four non-saline and non-sodic soils differing in texture (S-4,S-13,S-24 and S-40 with 4％,13％,24％ and 40％ clay,respectively) were leached using combinations of 1 mol L-1 NaC1 and 1 mol L-1 CaC12 stock solutions,resulting in EC (1:5 soil:water ratio) between 0.4 and 5.0 dS m-1 with two levels of sodicity (sodium absorption ratio (SAR) ＜ 3 (non-sodic) and 20 (sodic),1:5 soil:water ratio).Adjusting the water content to levels optimal for microbial activity,which differed among the soils,resulted in four ranges of OP in all the soils:from-0.06 to--0.24 (controls,without salt added),-0.55 to-0.92,-1.25 to-1.62 and-2.77 to-3.00 Mpa.Finely ground mature wheat straw (20 g kg-1) was added to stimulate microbial activity.At a given EC,cumulative soil respiration was lower in the lighter-textured soils (S-4 and S-13) than in the heavier-textured soils (S-24 and S-40).Cumulative soil respiration decreased with decreasing OP to a similar extent in all the soils,with a greater decrease on Day 40 than on Day 10.Cumulative soil respiration was greater at SAR =20 than at SAR ＜ 3 only at the OP levels between-0.62 and-1.62 MPa on Day 40.In all the soils and at both sampling times,concentrations of dissolved organic C and N were higher at the lowest OP levels (from-2.74 to-3.0 MPa) than in the controls (from-0.06 to-0.24 MPa).Thus,OP is a better parameter than EC to evaluate the effect of salinity on dissolved organic matter and microbial activity in different textured soils.     

滩涂土壤有机质含量的反射光谱估算

Rapid determination of soil organic matter (SOM) using regression models based on soil reflectance spectral data serves an important function in precision agriculture. “deviation of arch”(DOA)-based regression and partial least squares regression (PLSR) are two popular modeling approaches to predict SOM. However, few studies have explored the accuracy of the DOA-based regression and PLSR models. Therefore, the DOA-based regression and PLSR were applied to the visible near-infrared (VNIR) spectra to estimate SOM content in the case of various dataset divisions. A two-fold cross-validation scheme was adopted and repeated 10 000 times for rigorous evaluation of the DOA-based models in comparison with the widely used PLSR model. Soil samples were collected for SOM analysis in the coastal area of northern Jiangsu Province, China. The results indicated that both modelling methods provided reasonable estimates of SOM, with PLSR outperforming DOA-based regression in general. However, the performance of PLSR for the validation dataset decreased more noticeably. Among the four DOA-based models, the linear model of the DOA provided the best estimation of SOM and a cutoff of SOM content (19.76 g kg^-1), and the performance for calibration and validation datasets was consistent. As the SOM content exceeded 19.76 g kg^-1, SOM became more effective in masking the spectral features of other soil properties to a certain extent. This work confirmed that reflectance spectroscopy combined with PLSR could serve as a non-destructive and cost-efficient way for rapid determination of SOM when hyperspectral data were available. The DOA-based model, which requires only 3 bands in the visible spectra, also provided SOM estimation with acceptable accuracy.     

Optimizing soil dissolved organic matter extraction by grey relational analysis

Dissolved organic matter(DOM) in soil plays an important role in the fate and transport of contaminants.It is typically composed of many compounds,but the effect of different extraction factors on the abundance of different DOM components is unknown.In this study,DOM was extracted from three soils(paddy field,vegetable field and forest soils) with various extraction time,liquid to solid ratios(LSRs),extractant types,and extractant concentrations.The LSR had a significant effect on DOM content,which increased by 0.5–4.0 times among the three soils when LSR increased from 2:1 to 10:1(P 0.05).Dissolved organic matter content increased by 4%–53% when extraction time increased from 10 to 300 min(P 0.05).Extractant concentration had different effects on DOM content depending on the extractant.Higher concentrations of KCl promoted DOM extraction,while higher concentrations of KH_2PO_4 inhibited DOM extraction.Therefore,grey relational analysis was used to further quantitatively evaluate the effect of extraction time,LSR,and extractant concentration on DOM,using KCl as an extractant.For the paddy field and forest soils,the impact of these three factors on DOM extraction efficiency was in the following order:KCl concentration LSR extraction time.However,the effect was different for the vegetable field soil:LSR extraction time KCl concentration.Taking all these factors into account,1.50 mol L~(-1) KCl and an LSR of 10:1 with a shaking time of 300 min was recommended as the most appropriate method for soil DOM extraction.     

堆肥过程中水溶性有机物常规荧光与固体表面荧光光谱比较

为研究固体表面荧光表征堆肥有机质结构及物质转化特征的可行性,采集堆肥原样,提取水溶性有机物,分别对两者的含碳量及前者的固体表面荧光和后者的常规荧光光谱进行分析。结果显示：堆肥过程中,水溶性有机物占总堆肥有机物的比例不断下降,第40天降至5.1 g/kg。堆肥进行时,水溶性有机物的发射、激发光谱及同步荧光光谱中的类腐殖质荧光的强度均不断增强,而堆肥原样的激发、发射和同步3种扫描形式的固体表面荧光却不断降低。3种荧光光谱中,堆肥原样和水溶性有机物的同步荧光光谱在常规荧光光谱和固体表面荧光中都出现了类蛋白和类腐     

Characterization of fresh and decomposed dissolved organic matter using excitation-emission matrix fluorescence spectroscopy and multiway analysis

Fresh and decomposed dissolved organic matter (DOM) derived from 13 plant biomass and animal manure sources was characterized using multidimensional fluorescence spectroscopy with parallel factor analysis (PARAFAC), high-performance size-exclusion chromatography, and UV-vis spectroscopy. The PARAFAC analysis modeled seven fluorescence components: tryptophan-like, tyrosine-like, and five humic substance-like components. For most of the plant-derived DOM solutions, decomposition significantly affected the concentration of three humic substance-like-associated components, increasing two and decreasing one. The effect of decomposition upon DOM derived from animal manures was dependent on the manure source. For a majority of the DOM extracts, the ratio of fluorescence intensity to absorptivity at 254 nm increased following decomposition, indicating that fluorescing DOM compounds were generally more resistant to biodegradation than nonfluorescing UV-absorbing compounds. Molar absorptivity, humification index (HIX), and apparent molecular weight (MWAP) increased by 38.0, 38.8, and 370%, respectively, following decomposition. Spearman correlation analysis showed a strong positive relationship between the humic substance-like components and the DOM MWAP, absorptivity, and HIX. The results of this study support the use of multidimensional fluorescence spectroscopy with PARAFAC as a method to monitor the decomposition of carbon-rich soil amendments such as crop residues, green manures, and animal manures.     

Liming effect on dissolved organic matter leaching

The main agrochemical treatment applied in agriculture to lower harmful soil acidity is liming. Long term studies showed that application of calcium carbonate fertilizer brought about higher leaching of dissolved organic matter (DOM) in pot, lysdmetric and field experiments. Outflows obtained from limed soils contained 44.8% more DOM in comparison with nonlimed soils. During four years of lysimetric experiments it was found that the amounts of DOM from limed soils were increased by 52.7%. In the field experiments the amounts leached from one hectare of limed and nonlimed soil ranged 25.6 kg and 19.2 kg per year, respectively. DOM leached from limed soils was characterized by higher (45.4%) contents of carboxylic groups and humic substances (19.7%). Dissolved organic substances particularly humus rich in functional groups, due their complexing properties bound plant nutrients leached from soils and modify geochemical mobility of metals and anions. Therefore, DOM can play a significant role in the migration of chemical substances in agriculture landscape.     

Dynamics of water extractable organic carbon at a subtropical catchment using fluorescence excitation-emission matrix spectroscopy coupled with parallel factor analysis

The vertical and horizontal movement of water extractable organic carbon (WEOC) has a significant influence on soil organic carbon (SOC) storage and water quality. However, how the amount, components and chemical qualities of WEOC change at horizontal and vertical levels, as well as desorption in the cascade model in subtropical red soils, are not fully understood. We sampled soils from four types of land (Elaeocarpus, Masson Pine, Crape-Myrtle and a deposition site) in a subtropical catchment as replicated cores (n = 96) and investigated changes in the molecular and structural constituents of WEOC using excitation-emission matrix fluorescence and UV–visible absorbance spectroscopy. Our results showed that WEOC concentration changed remarkably in all four plots, and that the concentration coupled with the relative abundance of aromatic compounds decreased with increasing soil depth, whereas low-molecular-weight materials increased with increasing soil depth. Five fluorescent components were identified by parallel factor analysis (i.e., tryptophan-like, tyrosine-like and three humic-substance-like components). The relative abundance of these components suggested that WEOC composition shifted along vertical soil layers. Dynamic variations in fluorescent indices indicated that WEOC from the subsoil has strong biological characteristics. Additionally, there was no significant correlation between WEOC and SOC in subsoil, indicating that much of the WEOC within mineral soils is of local microbial origin rather than from local soil organic matter. Sorption processes alone or stepwise exchange processes of WEOC on the soil minerals do not readily occur, as the red soil in a subtropical area is typically unsaturated and potentially has a large sorption capacity. Once soil carbon is adsorbed, it is difficult to release it into soil water by microbial processing. Data from the deposition site suggest that components of hydrophilic WEOC with low molecular weight are preferentially transported.     

黄土丘陵区不同植被下土壤可溶性有机物的荧光特征研究

【目的】土壤水溶性有机质的组成和结构是土壤质量的重要判别指标,具有重要的生态意义。研究黄土丘陵地区不同植被下土壤水溶性有机物的数量和荧光结构特征,可以为该地的植被修复及土壤质量评价提供科学依据。【方法】利用传统荧光和三维荧光技术,选取激发发射荧光光谱、 同步荧光光谱得到的腐殖化指标对土壤水溶性有机物的来源和结构进行评估,通过三维荧光技术探究不同植被下土壤水溶性有机物之间组分的差异。【结果】辽东栎(Quercus liaotungensis)和油松林(Pinus tabulaeformia)地具有较高的水溶性有机物含量,含量均为0.16 mg/g; 而荒坡地和农地的水溶性有机物较低,分别为0.04和0.05 mg/g,灌木荆条(Vitex negundo var. heterophylla )和狼牙刺(Sophora viciifolia)林地的含量介于两者之间。发射激发荧光光谱、 同步荧光光谱以及三维荧光光谱表明土壤水溶性有机物大多来源于植物和微生物的混合作用; 油松林地的水溶性有机物结构较简单、 腐殖化程度较低; 而灌木林地的水溶性有机物结构较为复杂、 腐殖化程度较高。从不同植被下土壤水溶性有机物的组成来看,蛋白类的物质差异不明显; 油松和辽东栎林地土壤水溶性有机物的类酪氨酸蛋白质、 类色氨酸蛋白质、 类溶解性微生物代谢产物含量较高,灌木林地较低。最主要的差异是富里酸类和胡敏酸类物质,油松林地的水溶性小分子量的富里酸类物质占主导地位,而灌木林地的水溶性有机物芳香化程度较高,农地和抛荒地类富里酸物质和类胡敏酸类物质含量的比值最低,其水溶性腐殖质的缩聚度高。油松、 辽东栎林地水溶性有机物由于植物残体分解形成的富里酸较易被氧化,同时阴坡林地较高的含水量使得这些产物较难缩合; 而灌木林地和农田及荒地较为干旱,枯枝落叶少,腐殖酸有充分时间进行缩合,导致了水溶性有机物的高芳香化和腐殖化。【结论】不同植被下的土壤水溶性有机物的组成和结构是存在差异的,同时说明荧光技术可用于揭示水溶性有机物的组成和缩合特性研究。     

畜禽粪便堆肥溶解态有机质三维荧光光谱特征及Cu络合

畜禽粪便中溶解态有机质（DOM）易与Cu发生络合,从而促进其向土壤溶液和地表水体中迁移。该文对比分析堆肥前后猪粪和牛粪DOM三维荧光光谱特征变化,并通过荧光猝灭滴定法研究了堆肥对猪粪和牛粪中DOM与Cu络合的影响。研究发现,未经堆腐的猪粪和牛粪DOM中均存在较强的类蛋白荧光峰,包括类酪氨酸峰和类色氨酸峰;除了类蛋白峰,牛粪DOM中还出现了类腐殖质荧光峰。经过堆肥后,猪粪DOM中类酪氨酸峰和类色氨酸峰强度显著减弱,并在可见光激发区域出现类腐殖质峰;与猪粪堆肥类似,牛粪堆肥后类酪氨酸峰和类色氨酸峰也隐没不现,在紫外激发区域出现类腐殖质峰,同时可见光激发区的类腐殖质峰荧光强度减弱,位置发生红移。荧光猝灭试验结果显示,猪粪和牛粪堆肥后与Cu络合容量显著降低。因此,堆肥后改变了畜禽粪便DOM组成,生成大量胡敏酸和富里酸物质,从而降低畜禽粪便中DOM-Cu络合物的迁移性和生物可利用性。     

Fractionation of metal complexes with dissolved organic matter in a rhizosphere soil solution of a humus-rich Andosol using size exclusion chromatography with inductively coupled plasma-mass spectrometry

To better understand the behavior of metals in soil–plant systems, their physicochemical forms in rhizosphere soil should be elucidated. The dissolved organic matter (DOM) in a soil solution influences the mobility and bioavailability of metals in soil. The present study examined the effects of plant growth on DOM–metal complexes in a rhizosphere soil solution using size exclusion chromatography combined with an inductively coupled plasma-mass spectrometer system (SEC–ICP-MS) and an ultrafiltration technique. Humus-rich volcanic ash soil from the surface of an agricultural field was used in a pot cultivation experiment. Brassica rapa nothovar. was cultivated in a pot in which rhizosphere soil (R) was separated by a nylon net screen from non-rhizosphere soil (NR). Soil solutions were collected using a high-speed centrifugation method 3 weeks after sowing and analyzed using SEC–ICP-MS. Some peaks of DOM with a high molecular size were detected in the ultraviolet-absorbing chromatograph (280 nm) of the soil solution samples. Their concentrations were much higher in the R solution than in the NR solution. Metals including Al, Fe, Cu, Zn, Pb, Y, La and U were detected at the ultraviolet peak positions of the DOM. The ultrafiltration experiment showed that the size distributions of the organic materials to which the metals were combined differed between the R and NR soil solutions. These results suggest that plant growth enhanced the dissolution of metals adsorbed with organic matter from the solid phase in rhizosphere soil.     

可溶性有机物对土壤中绿麦隆吸附与解吸的影响

A batch equilibrium techniques was used to examine the effect of dissolved organic matter （DOM） extracted from both non-treated sludge （NTS） and heat-expanded sludge （HES） on the sorption and desorption of chlorotoluron （3-（3-chloro-p-tolyl）-1,1-dimethylurea） in two types of soils, a yellow fluvo-aquic and a red soil from China. Without DOM,sorption of chlorotoluron was significantly greater （P 〈 0.05） in the red soil than in the yellow fluvo-aquic soil. However,with DOM the effect was dependent on the soil type and nature of DOM. Chlorotoluron sorption was lower in the yellow fluvo-aquic soil than in the red soil, suggesting that with the same DOM levels the yellow fluvo-aquic soil had a lower sorption capacity for this herbicide. Application of DOM from both NTS and HES led to a general decrease in sorption to the soils and an increase in desorption from the soils. Desorption of chlorotoluron also significantly increased （P 〈 0.05） with an increase in the DOM concentration. Additionally, for sorption and desorption, at each DOM treatment level the NTS treatments were significantly lower （P 〈 0.05） than the HES treatments. This implied that non-treated sludge had a greater effect on the sorption and desorption of chlorotoluron than heat-expanded sludge.     

Quantitative relationship between soil properties and adsorption of dissolved organic matter onto volcanic ash and non-volcanic ash soils

The formation of soil organo-mineral complexes is a key reaction in the carbon cycle in soil, since organic materials acquire a resistance to decomposition due to the formation of the complexes. Adsorption of dissolved organic matter (DOM) onto soil minerals provides a model of this important process. Adsorption of DOM onto samples from Andisols, Inceptisols, and Entisols in batch experiments was compared in terms of the quantitative relationship between the soil properties and the adsorption behavior of DOM. Adsorption behavior was effectively described by a linear initial mass (IM) isotherm, indicating that the adsorption efficiency did not appreciably decline in the range studied even though a large amount of DOM was applied to the soil samples. Samples from Andisols showed a particularly high efficiency of adsorption compared with those from other soils which contained a comparable amount of organic carbon. Explanatory variables useful to predict the efficiency parameter were investigated in 2 steps: firstly the degree of carbon accumulation in the soil samples was examined, and next an index for the amount of ligand exchange sites was examined in combination with the former indices. As a result, an index comprising the total carbon/clay (or total carbon/specific surface area) ratio and the amount of hydroxy ions in the soil extracts with NaF solution was eventually detected. The former represents the degree of carbon occupation on the soil surface, and the latter the amount of ligand exchange sites on labile aluminum. Although the mechanisms involved in the adsorption varied among soils, the selected index was significantly correlated with the adsorption efficiency.