秸秆还田条件下内陆盐碱土腐殖质的动态变化

采用室内培养试验的方法,研究了秸秆加入条件下内陆盐碱土的腐殖质及其组分(胡敏酸、富里酸)的动态变化。结果表明,在秸秆腐解过程中,盐碱土腐殖质、富里酸、胡敏酸含量均呈现持续上升趋势,分别平均增加了112.5%,269.54%和92.9%富里酸的含量明显高于胡敏酸的含量,是胡敏酸含量的约3~10倍。土壤的HA/FA(腐殖酸/富里酸)呈现出先增长后降低的趋势,并且在90d时达到平均最高值(0.283)。尿素添加量7.2g的处理土壤腐殖质含量在0.19%~0.38%,该处理秸秆分解的速率最快。土壤腐殖质和富里酸随着尿素含量梯度的增加呈现先上升,后下降,再上升的趋势,且分别平均增加了46.7%和55.3%胡敏酸的变化趋势与腐殖质相反,平均减少了14.3%HA/FA呈下降趋势,但下降趋势不明显。     

土壤腐殖质组成对大气二氧化碳浓度升高的响应

为了探求大气CO2浓度升高对土壤腐殖质及其组成的影响，为大气CO2浓度升高条件下土壤生物化学过程的变化提供依据，通过稻-麦轮作FACE（Free-air CO2 enrichment）平台研究了正常施氮水平下水稻土壤有机碳及其各组分对大气CO2浓度升高的响应。研究结果表明：不同土层的腐殖质组分含量有所差异，表层（0～15cm）土壤腐殖化程度较高，表层的土壤有机碳（SOC）、水溶性碳（WSOC）、胡敏酸（HA）、富里酸（FA）、胡敏素（HM）数量均高于下层（15～30cm）。大气CO2浓度升高，增加了表层和下层的SOC，促进了土壤有机质的积累；使表层WSOC有增加趋势，但对下层没有显著影响；降低了土壤中可提取腐殖物质中HA的比例（PQ），土壤的腐殖化度下降，有利于HA的分解与转化和FA的积累；对土壤HM没有显著影响。     

四川成都经济区土壤腐殖质重金属元素含量特征研究

通过对四川成都经济区16件土壤样品腐殖质组成及其各组分中重金属元素含量的分析表明,胡敏素是土壤腐殖质的主要组成部分,富里酸和胡敏酸次之。土壤腐殖质中重金属元素含量占土壤全量20%～44%,是土壤重金属污染元素主要存在方式。重金属元素在腐殖质不同组分中的含量具有很大的差异,Cr主要赋存在胡敏素中,Cd、As、Cu、Zn等元素主要赋存在富里酸中。各重金属元素在腐殖酸中含量较高,富里酸中的含量均大于胡敏酸,其机理是富里酸对重金属元素的络合是腐殖酸与重金属相互作用的主要方式。     

集约经营对山核桃林地土壤腐殖质组分碳含量的影响

[目的]研究并探讨土壤腐殖质各组分碳含量的变化规律,为山核桃林地土壤管理提供理论依据。[方法]采集并分析山核桃林经营历史为5,10,15,20a的土壤样品的土壤腐殖质各组分碳含量,并与天然混交林(0a)进行比较。[结果]与天然山核桃—阔叶混交林(0a)相比,随着经营历史的延长,林地土壤腐殖质各组分碳含量的变化主要发生在表层(0—10cm),胡敏酸碳、富里酸碳和胡敏素碳含量均下降。与0a相比,集约经营5a后胡敏酸碳、富里酸碳和胡敏素碳含量分别下降了42.8%,23.9%和21.2%,而集约经营20a后,分别下降了45.3%,39.0%,32.3%。集约经营20a后,亚表层(10—30cm)土壤胡敏素碳含量上升了94.2%。[结论]集约经营降低了山核桃林地土壤表层和亚表层的胡敏酸碳和富里酸碳含量,同时也降低了表层土壤胡敏素碳含量,而提高了亚表层土壤胡敏素碳含量。     

高黎贡山土壤腐殖质特性与团聚体数量特征研究

采用野外调查与室内分析结合的方法,研究高黎贡山土壤腐殖质特性与团聚体数量特征,对进一步了解高黎贡山生态系统中土壤特征,降低土壤侵蚀,减少水土流失提供科学依据。结果表明:土壤腐殖质的组成具有明显地带性特征,有机质、腐殖酸含量、胡/富(HA/FA)随海拔高度的降低呈先上升后下降的趋势,A1层胡敏酸(HA)、富里酸(FA)含量分布规律为暗棕壤棕壤棕色针叶林土亚高山草甸土黄棕壤黄壤黄红壤。A2层腐殖酸、FA变化趋势为暗棕壤棕壤棕色针叶林土黄棕壤黄壤亚高山草甸土黄红壤。A1层HA、FA分子复杂程度、化学稳定性比A2层强。1～0.5mm和0.25mm粒径的团聚体含量占绝大多数,约占60%～70%。随着海拔高度的降低,粗粒减少,细粒增多。土壤团聚体服从对数正态分布,其几何平均直径与几何标准差、土壤可蚀性K值之间存在负相关关系,土壤可蚀性K值与几何标准差存在正相关关系,同时土壤也具有一定的分形特性。其中亚高山草甸土几何平均直径(Dg)、平均重量直径(MWD)值最大,几何标准差(δg)、可蚀性K值、分形维数(CFD)值最小,土壤结构稳定性和抗蚀能力相对较强。胡敏酸含量是影响土壤可蚀性的重要因素。     

田间定位施肥对土壤腐殖质组分数量与特性的影响

依据Pallo方法对土壤腐殖质进行分组,初步研究了黑土田间定位施用有机肥、化肥及有机肥配施化肥对各组分数量与特性的影响。结果表明:通常化肥不会对土壤腐殖质各组分的数量与特性产生明显影响。施用有机肥使各组分的数量明显增加;同时,施用有机肥使各组分的分子结构变得简单化。从有利于提高土壤肥力和作物产量的角度来看,施肥应采用有机无机肥配合施用,在配施化肥条件下可以适当提高有机肥的用量。     

不同种植年限设施菜地土壤有机质组成与结构变化

试验采集不同种植年限设施菜地土壤样品,测定土壤有机质(SOM)、可溶性有机碳(DOC)、胡敏酸(HA)、富里酸(FA)、微生物量碳(MBC)、微生物商(C_(mic)-to-C_(org))、C矿化和E4/E6值等指标,结合傅立叶变换红外光谱技术解析不同种植年限土壤有机质组成与结构变化的规律。结果显示,随着种植年限的增加,SOM、DOC、HA、HA/FA、MBC、C_(mic)-to-C_(org)、E4/E6值、C矿化率和CO_2释放速率均出现明显下降趋势,其中MBC、C_(mic)-to-C_(org)、C矿化率、CO_2释放速率和HA/FA在种植6 a时下降最明显,之后变化缓慢。与露天农田土壤(CK)相比,设施菜地呈现较高的SOM、DOC、Humus、HA、FA、HA/FA和E4/E6。胡敏酸红外光谱图谱显示设施菜地种植20 a处理土壤芳构化程度高,结构稳定,难以降解,其他三种种植年限(3 a、6 a和10 a)的芳构化程度相对较低,脂肪族成分相对较高。综上可知,设施菜地土壤有机质组成与结构随着种植年限的增加具有规律性变化,结果加深了对设施菜地土壤有机质演变规律的认知。     

长期施用有机肥和磷肥对潮褐土土壤有机质及腐殖质组成的影响

采用长期肥料定位试验,研究了施用有机肥和磷肥对土壤有机质、腐殖质含量与组成的影响。结果表明:与本试验布置时的基础土样相比,连续10年隔年施用有机肥、有机肥和磷肥配施使土壤有机质增加了8.4%~17.3%,单施磷肥土壤有机质下降了7.8%~10.7%,其差异均达显著水平;与P0M0相比,单施磷肥、有机肥、有机肥和磷肥配施处理的土壤中有机质分别增加了2.9%~6.2%、24.8%~29.8%、25.2%~35.1%;土壤腐植酸总量及胡敏酸含量与土壤有机质含量呈显著正相关关系;施用磷肥利于土壤富里酸的积累,并影响土壤胡富比。     

土壤腐殖质分组研究

采用Pallo法对两种耕地土壤腐殖质进行分组,初步研究了各组分的数量和结构特征。结果表明:焦磷酸钠提取的胡敏酸(HAp)是胡敏酸(HA)的主要组分;游离富里酸(FAf)是富里酸(FA)的主要组分;胡敏素(HM)的主要组分为非溶解性胡敏素(ISHM),而溶解性胡敏素(SHM)含量较低。通常随土层深度增加,HA、HM各组分的绝对数量和相对数量都下降;FA各组分的绝对数量也下降,而相对数量增加;HA/FA比值下降。一般来看,焦磷酸钠提取的富里酸(FAp)、氢氧化钠提取的富里酸(FAs)比相应的HAp、氢氧化钠提取的胡敏酸(HAs)的分子结构简单,铁结合胡敏素(HMi)比粘粒结合胡敏素(HMc)的分子结构简单;随土层深度增加,HAp、HAs的分子结构变简单,而HMi、HMc的分子结构变复杂。     

不同CO2浓度对玉米秸秆分解期间土壤腐殖质形成的影响

以往人们较多的研究了土壤有机碳与温室气体的源、汇关系问题,却很少研究温室气体对土壤有机碳本身分解转化和各组分性质的影响。为了探讨CO2浓度升高对腐殖物质形成转化的作用,本文通过室内人为高浓度CO2的培养试验,用腐殖质组成修改法研究了玉米秸秆分解期间（1~180d）土壤总有机碳（TOC）、水溶性物质（WSS）、碱提取腐殖物质（HE）、胡敏酸（HA）和胡敏素（HM）数量的动态变化规律及不同CO2浓度对有机碳各组分形成与转化的影响。结果表明：玉米秸秆分解期间,“新形成”的净TOC逐渐降低,净HE表现为先增加而后下降的趋势,HM的绝对数量逐渐下降。可提取腐殖物质中HA的比例（PQ）先增加后下降,最终趋于平稳,说明最初富里酸（FA）的形成速度大于HA,随培养时间的延长,FA和HA经历了一段相互转化的过程,最终达到动态平衡。30%CO2浓度（V/V）处理的TOC、WSS、HE和HM数量明显高于3%CO2浓度处理和正常CO2浓度（0.0375%）处理,其中WSS和HM反应更为敏感。但3%CO2浓度处理与正常CO2浓度处理的差异不明显。可提取腐殖物质的PQ的顺序是30%CO2浓度处理〉3%CO2浓度处理〉正常CO2浓度处理,说明CO2浓度增加更有利于FA而不利于HA的形成和稳定。     

侵蚀红壤腐殖酸组分特点及其对水稳性团聚体的影响

在华中地区采集不同侵蚀程度(轻度、中度、严重)的红壤,利用干湿筛法获得不同粒径的水稳性团聚体(0.25 mm)。通过测定不同粒径水稳性团聚体(0.25 mm)的腐殖酸组分(胡敏酸和富里酸)碳量,以及向不同侵蚀程度的各粒径团聚体(0.25 mm)中添加不同浓度(0.06、0.6 g L-1)的胡敏酸,分析侵蚀红壤腐殖酸组分特点及其对水稳性团聚体的影响。结果表明:随着侵蚀程度的增加,供试红壤和水稳性团聚体(0.25 mm)的腐殖酸组分含量减少;轻度和中度侵蚀红壤中,大粒径(4和2~4 mm)水稳性团聚体的胡敏酸碳量较小粒径(1~2、0.5~1和0.25~0.5 mm)的高;同种侵蚀程度下,除严重侵蚀红壤中2~4 mm团聚体的富里酸碳量与1~2 mm团聚体中的有显著差异外,不同粒径团聚体中富里酸碳量差别不大。3种侵蚀程度红壤的胡富比总体上小于1,其中中度侵蚀红壤和各粒径水稳性团聚体的胡富比均大于其他两种侵蚀程度的。腐殖酸组分与水稳性团聚体(0.25 mm)含量呈极显著正相关,与胡敏酸碳量的相关系数最大(r=0.85**,n=19)。添加不同浓度(0.06和0.6 g L-1)胡敏酸后,3种侵蚀程度红壤各粒径水稳性团聚体(0.25 mm)的含量均增加,且小粒径团聚体(1~2、0.5~1和0.25~0.5 mm)的增加量要高于大团聚体(2~4、4 mm)的。     

水稻秸秆燃烧对土壤有机质组成的影响研究

研究生物质(水稻秸秆)燃烧行为对土壤有机质含量和组成的影响,探讨不同燃烧次数下土壤中胡敏酸(HA)、富里酸(FA)、水溶性有机质(DOM)的含量和结构特征的变化情况。结果表明:土壤有机碳的变化仅在土壤表层几厘米以内,随燃烧频次增加土壤有机碳含量减少量增加,而水溶性有机质及组分则呈现不断增加的趋势。不同来源土壤的腐殖物质对生物质燃烧作用的响应不同,3种供试土样中腐殖物质随不同次数同强度秸秆燃烧并未呈现较一致的变化趋势,但每一种土壤的HA和FA含量及HA/FA、E4/E6值均随燃烧频次的增加呈现规律性的升高或者降低,而且FA含量的变化是影响HA/FA值大小的主导因素。此外,通过红外光谱图可知,随燃烧频次增加,FA中芳香性成分和含脂肪族C—OH、C—O物质增加,而HA由于本身芳香缩和度高而无明显变化。     

Effect of cover crop management on soil organic matter

Characterization of soil organic matter (SOM) is important for determining the overall quality of soils, and cover crop system may change SOM characteristics. The purpose of this study was to examine the effect of cover crops on the chemical and structural composition of SOM. We isolated humic substances (HS) from soils with the following cover crop treatments: (a) vetch (Vicia Villosa Roth.)/rye (Sesale cereale L.), (b) rye alone, and (c) check (no cover crops) that were treated with various nitrogen (N) fertilizer rates. CPMAS-TOSS (cross-polarization magic-angle-spinning and total sideband suppression) ¹³C NMR results indicated that humic acids (HA) from soils under rye only were more aromatic and less aliphatic in character than the other two cover crop systems without fertilizer N treatment. Based on the DRIFT (diffuse reflectance Fourier transform infrared) spectra peak O/R ratios, the intensities of oxygen-containing functional groups to aliphatic and aromatic (referred to as recalcitrant) groups, the highest ratio was found in the HA from the vetch/rye system with fertilizer N. The lowest ratio occurred at the vetch/rye system without fertilizer N treatment. The O/R ratio of fulvic acids (FA) can be ranked as: vetch/rye without fertilizer>vetch/rye with fertilizer>no cover crop without fertilizer>rye alone (with or without fertilizer) soils. Both organic carbon (OC) and light fraction (LF) contents were higher in soils under cover crop treatments with and without fertilizer N than soils with no cover crop. These chemical and spectroscopic data show that cover crops had a profound influence on the SOM and LF characteristics.     

高寒草原土壤有机碳与腐殖质碳变化及其微生物效应

基于多区域重复采样,研究了藏北高原不同状态(正常、轻度和严重退化)高寒草原表层(0～10 cm)、亚表层(10～20 cm)土壤有机碳(Soil organic carbon,SOC)、腐殖质碳(Humus carbon,HC)、胡敏酸碳(Humic acid carbon,HAC)和富里酸碳(Fulvic acid carbon,FAC)的变化,以及土壤微生物群落、微生物生物量碳(Microbial biomass carbon,MBC)、纤维素分解酶活性(Cellulolytic enzyme activity,CEA)对其产生的影响与作用。结果表明:高原寒旱环境中土壤的HC/SOC比例过低,但PQ值(HAC/HC)很高。随土层加深,不同状态草地SOC、HC、HAC含量、HC/SOC比例在总体上趋于不同程度的下降,PQ值则均呈一定程度的提高。相对于正常草地,随草地退化加剧,表层SOC、HC(HAC、FAC)增幅分别表现出略呈下降、大幅提高,亚表层降幅则均呈大幅下降。反映到0～20 cm土层,SOC、HC、HAC含量均表现出正常草地严重退化草地轻度退化草地,HC/SOC比例、PQ值则分别呈严重退化草地正常草地轻度退化草地、正常草地轻度退化草地严重退化草地,说明草地退化在促进表层SOC、HC(HAC、FAC)形成与积累的同时,更"激发"了亚表层的矿化,尤其是严重退化草地有机残体的分解过程,但腐殖质品质并未随土壤腐殖化程度的提高而得到相应改善。MBC、CEA与SOC、HC及组分高度一致的土体分布格局影响并决定了上述过程,草地退化有利于真菌、放线菌对土壤、尤其是亚表层土壤有机残体的分解与转化。     

Soil organic carbon changes in particle-size fractions following cultivation of Black soils in China

Soil texture can be an important control on soil organic carbon (SOC) retention and dynamics. The (clay + silt)-sized SOC pool (SOC < 20 μm) in non-cultivated or grassland soils has been proposed to reach an equilibrium or maximum level named protective capacity. Proper knowledge of SOC in this size fraction in non-cultivated and cultivated Black soils is important to evaluate management-induced changes in SOC in NE China. Twenty-seven paired soil samples (non-cultivated vs. cultivated) were collected in the Black soil zone in Heilongjiang and Jilin provinces. Bulk soil was dispersed in water with an ultrasonic probe and then soil size fractions were collected using the pipette technique for SOC analyses. Soil organic carbon in bulk soil and size fractions was measured by dry combustion. Average content of SOC < 20 μm was 23.2 g C kg⁻¹ at the 0–30 cm depth for the non-cultivated soils, accounting for 75.1% of the total SOC at the same depth. There was significant positive relationship between soil clay plus silt content and SOC < 20 μm in non-cultivated soils. Accordingly, a model of the maximum SOC < 20 μm in 0–30 cm depth of non-cultivated Black soils was developed: y = 0.36x where y is the maximum SOC < 20 μm pool (g C kg⁻¹) and x is the percentage of clay + silt (<20 μm) content. The average content of SOC < 20 μm was 18.7 g C kg⁻¹ at 0–30 cm depth for cultivated soils, accounting for 81.5% of total SOC. This average value of SOC was 4.4 g C kg⁻¹ less than the maximum value (23.1 g C kg⁻¹) and accounted for 55.0% of the difference of SOC between non-cultivated and cultivated Black soils. Cultivation resulted in 45.0% loss of sand-sized (>20 μm) SOC concentration relative to SOC < 20 μm. This result indicates that SOC < 20 μm and sand-sized SOC both play important roles in SOC dynamics resulting from management practices. This model can be applied to calculate the actual potential to restore SOC for cultivated Black soils under conservation tillage in NE China.     

鸡粪腐解过程中不同溶性腐殖质的动态变化

以鸡粪为材料,添加不同比例的铜、锌进行腐解试验,研究了腐解过程中不同溶性(游离态、松结合态、紧结合态)腐殖质及其组成的动态变化和粪肥中所添加高浓度Cu和Zn对不同提取性的腐殖质及其组成的影响.随着腐解的进行,鸡粪中可提取性的有机碳总体呈下降趋势,与总有机碳(TOC)含量变化趋势一致.在整个腐解过程中,NaOH液浸提提取松结合态腐殖质主要部分,占50%～70%.随着粪肥样品锌含量的增加,松结合态腐殖质在整个腐解期平均分配含量有所增加,而NaOH-Na_4P_2O_7液浸提提取紧结合态腐殖质则有所减少,H_2O浸提提取游离态腐殖质变化较小.随着粪肥样品铜含量的增加,松结合态腐殖质在整个腐解期平均分配含量有所增加,而游离态腐殖质则有所减少,但紧结合态腐殖质变化较小.粪肥中Cu、Zn的浓度高低会影响游离态腐殖质中富里酸(FA)和胡敏酸(HA)占TOC比例的变化趋势,铜含量较高的处理样品的松结合态腐殖质FA/TOC(2: 1和3: 1)下降幅度较大,随后皆有上升趋势,30 d后处于近水平状态,铜含量高的处理样品松结合态腐殖质HA/TOC上升幅度较大,随后呈下降趋势.铜含量较高的处理样品的紧结合态腐殖质FA/TOC(2: 1和3: 1)下降幅度较大,随后皆有上升趋势,45 d后又有所下降.在腐解过程中,各处理粪肥样品紧结合态腐殖质HA/TOC曲线表现"马鞍"形状.游离态、松结合态和紧结合态腐殖质的HA/FA分别与其对应的HA/TOC显极显著正相关关系.     

热辐射对水稻土有机质组成的影响

本文研究了受不同程度热辐射后的水稻土中有机质组分的变化情况,结果表明:随温度升高,土壤中水溶性有机碳(DOC)含量先增加后减少,200℃变化尤为显著,增加为CK的3.68 ～ 7.45倍,中性糖、糖醛酸与DOC的变化趋势一致.辐射温度不同,土壤中的胡敏酸、富里酸组成和含量亦发生不同程度的变化,300℃胡/富比值最大(1.79 ～ 5.04),土壤腐殖质聚合程度增加;200℃胡敏酸的E4/E6比值最大,反映此温度下土壤芳香缩合度低、具有较多的脂族结构物质、土壤腐殖化程度低.     

Impact of organic fertilisation on lettuce biomass production according to the cultivation duration in tropical soils

ABSTRACT

The productivity levels of two arenosol (Ar40) and fluvisol (FL40) fields that had been cultivated for over 40 years were compared to that of fields with the same soils located nearby but never previously cultivated, i.e. Ar0 and FL0, respectively. Application of poultry manure (PM) and sewage sludge (SS) were compared to a mineral fertilizer (T100), corresponding to 100 kg/ha of nitrogen, over three lettuce (Lactuca sativa L.) crop cycles. PM and SS were applied at 50 and 150 kg/ha nitrogen equivalent fertilizer doses. Biomass production levels in the organic and mineral treatments were similar, except for the SS-50 for FL0 and the PM-150 for Ar40, FL40 and FL0. Biomass production levels of Ar40 were higher than those of Ar0 for the first cycle. In the initial state, the soil P content in Ar40 was higher than that of the Ar0 soil. With the treatment repetition, Ar0 showed the same production level as Ar40. For the fluvisols, biomass production levels of FL40 were lower than those of FL0 for the first cycle. Indeed, the initial nitrate content in FL40 was lower than in FL0. The biomass production levels of FL40 were higher than those of FL0 for the following cycles.     

Glomalin in aggregate size classes from three different farming systems

Glomalin was measured in soil from farming systems managed for 8 years by chisel tillage (CT), more intensive tillage for organic (ORG) production, and no tillage (NT) on Acrisols (FAO Soil Units) in the Mid-Atlantic region of the U.S. Whole soil and aggregate size classes of >2.00, 0.50–2.00 and 0.21–0.50 mm (macroaggregates), 0.05–0.21 mm (microaggregates), and <0.05 mm (fine material) were examined. Glomalin-related soil protein (GRSP) was extracted from 1-g samples (four plots per treatment) with 100 mM sodium pyrophosphate, pH 9.0, at 121 °C in three extraction cycles. Extracts were pooled and quantified by using the Bradford protein assay. Concentrations of GRSP and total carbon (C) in aggregates were linearly related across aggregate size classes for all treatments (GRSP = 0.101C + 0.56, r² = 0.95). No tillage had significantly greater whole soil GRSP than did CT or ORG (P = 0.01). Mean values for GRSP in aggregates of NT were higher than for CT or ORG aggregates by 0.53 and 0.66 mg g⁻¹ aggregates, respectively. There were no differences among treatments in GRSP concentrations in fine material. In NT the concentration of GRSP increased as aggregate size increased in contrast to the disturbed treatments, CT or ORG, where there were no differences in GRSP concentration across aggregate size fractions. Larger proportions of GRSP were distributed in macroaggregates of NT compared to CT and ORG in contrast to larger proportions in microaggregates of CT and ORG than in NT. Although soil disturbance in ORG farming is greater than for CT farming, both treatments had similar GRSP concentrations and distributions.