施肥对红壤性水稻土颗粒有机物形成及团聚体稳定性的影响

土壤颗粒有机物 (POM)是土壤有机碳库中活动性较大的碳库。POM的形成对提高土壤碳库和缓解大气CO2 的升高具有重要意义。POM的形成与土壤团聚体的形成和性质密切相关 ,且深受土地利用和土壤管理的影响。实验土壤采自江西省红壤研究所无机肥长期定位试验地 ,各施肥处理为 :CK(不施肥 )、NPK(施氮磷钾肥 )、NPK(=) (施双倍氮磷钾肥 )和NPK OM(施氮磷钾肥和猪粪处理 )。研究发现 :施肥显著地增加了水稻土POM的含量 ;随着化肥施肥量和有机肥的增加 ,POM含量增加 ,NPK、NPK(=)和NPK OM处理的POM含量比CK分别增加了 1 1～ 1 3倍、1 2～ 1 4倍和 1 5～ 1 9倍 ;施肥也提高了土壤团聚体稳定性 ,表现为NPK OM >NPK(=) >NPK >CK ;各处理POM含量随土壤团聚体粒级的减小而增加 ,其C/N比为降低趋势 ;团聚体稳定性与POM含量呈极显著关系 (r=0 98,p <0 0 1)。研究结果说明施肥导致POM碳库的增加是因为有机物投入的增加以及水稻土大团聚体的形成     

长期施肥对红壤性水稻土团聚体稳定性及固碳特征的影响

施用有机肥是提高土壤有机碳(SOC)含量、促进土壤团聚体形成和改善土壤结构的重要措施。本研究旨在探讨长期作物残留和投入有机物料对水稻土团聚体分布及稳定性的影响,分析不同粒级团聚体的固碳特征及其与团聚体形成的相关性,以及土壤和不同粒级团聚体对累积碳投入的响应。长期定位施肥试验始于1986年,设不施肥(CK)、单施化肥(CF)、秸秆化肥混施(RS)、低量粪肥配施化肥(M1)和高量粪肥配施化肥(M2)5个处理。2009年采集0~10 cm土壤样品,测定总土以及大团聚体(LM,2 mm)、较大团聚体(SM,0.25~2 mm)、微团聚体(MA,0.25~0.053 mm)和黏粉粒(SC,0.053 mm)的质量比例及其SOC浓度,并分析闭蓄于SM内部的颗粒有机物(POM)、微团聚体(MA-SM)和黏粉粒(SC-SM)的质量含量和SOC浓度。结果表明,与CK和CF比较,有机肥混施化肥处理(RS、M1和M2)均显著提高了LM和SM的质量比例和平均当量直径(MWD),降低了SC质量含量;两个粪肥配施化肥处理(M1和M2)的效果优于秸秆化肥混施(RS),但是M1和M2间差异不显著;单施化肥则降低了稳定性团聚体的比例。团聚体的SOC浓度没有随粒级增大而增加,各处理均为LM和SM结合的SOC浓度最高,其次为SC,最小为MA。与CK比较,有机肥混施化肥处理均显著提高了各粒级团聚体的SOC浓度。总土SOC的增加主要取决于SM的SOC含量,而MA-SM组分决定了SM固持SOC的能力。总土、LM和SM的SOC含量以及从SM分离出的POM、MA-SM和SC-SM的SOC含量均与累积碳投入量呈显著正相关,但总土分离出的MA和SC的SOC含量对累积碳投入量反应不敏感,表现出碳饱和迹象。因此,尽管长期大量施用有机物料促进了红壤性水稻土大团聚体的形成和团聚体稳定性,增加了其SOC的固持,但有机质可能不是该土壤水稳性团聚体形成的最主要黏结剂。     

Effects of combined organic manure and mineral fertilization on soil aggregation and aggregate-associated organic carbon in two agricultural soils

Abstract

The effect of organic manure and inorganic fertilizer on soil aggregate size distribution and stability, and associated carbon (C) within aggregates varies greatly in previous studies because of the differences in soil conditions, cropping systems, and management practices. This study was conducted as two field fertilization experiments, with different cropping systems, under a subtropical climate in China. The two field experiment sites were located in Jinhua (established in April 2011) in the Jinqu basin in Zhejiang province and Jintan (established in October 2010) in the low-middle Yangtze River plain in Jiangsu province. Both experiments consisted of four treatments, including unfertilized (CK), mineral fertilizer nitrogen (N)–phosphorus (P)–potassium (K) (NPK), NPK plus straw (NPK?+?SR), and NPK plus cattle manure (NPK?+?FYM) or half NPK plus cattle manure (1/2NPK?+?FYM). Water stable aggregate size classes (>5, 2–5, 1–2, 0.5–1, 0.25–0.5, and <0.25?mm) and associated soil organic C (SOC) at 0–15?cm depth were measured. The mean weight diameter (MWD), geometric mean diameter (GMD), and water stable aggregates (WSA)?>?0.25?mm were also determined. The results showed that aggregate-size distribution varied with soil types. Combined application of NPK and organic matter (straw residue or cattle manure), unlike the CK and NPK treatments, significantly increased the WSA >0.25?mm, MWD, and GMD, while obviously reducing the proportion of <0.25?mm aggregates. However, no differences in WSA >0.25?mm, MWD, GMD, and associated C were observed between CK and NPK at both sites. The addition of FYM to the NPK treatment yielded the highest SOC contents in bulk soil, and showed significantly higher associations of C within all size aggregates at both sites. In contrast, NPK?+?SR significantly increased SOC within aggregate classes (2–5?mm, 0.5–1?mm, 0.25–0.5?mm, and <0.25?mm) at Jinhua and (>5?mm and 1–2?mm) at Jintan compared to the CK and NPK treatments. Overall, the combined application of FYM and mineral NPK was the best sustainable management practice for the improvement of aggregate stability and SOC sequestration.     

Variation of intra‐aggregate organic carbon affects aggregate formation and stability during organic manure fertilization in a fluvo‐aquic soil

The aggregate formation and stability are controlled by the dynamics of soil organic matters (SOM), but how it is related to SOM chemical composition within different‐sized aggregates is largely unknown during manure fertilization. In this study, the variations of intra‐aggregate organic carbon (OC), including intra‐particulate organic matter (iPOM) and mineral‐associated organic matter, were quantitatively and qualitatively analysed, and then, their effects on aggregate formation and stability were assessed under four treatments: control (CK), mineral fertilizer (NPK), reduced manure (30%M) and manure fertilizers (M). Manure application (M) significantly increased macroaggregate proportion, mean weight diameter (MWD), and OC contents within different‐sized aggregates compared to CK, NPK, and 30%M. The OC accumulation of macroaggregate in M was attributed to OC content increase in silt plus clay subfraction rather than iPOM with more labile organic groups; oppositely, in microaggregate it was located in the relatively stable fine iPOM. The macroaggregate formation and stability were controlled by the fine iPOM within macroaggregates, whose abundant polysaccharide‐C and aliphatic‐C after manure fertilization advanced the microbial growth except for Gram‐positive bacteria, which further promoted macroaggregate formation and stability. The free silt plus clay fraction also affected macroaggregate formation and stability, and its polysaccharide‐C derived from microorganisms or decomposing SOM was positively associated with MWD and macroaggregate proportion. Because polysaccharide‐C can be easily associated with mineral particles, further improving micro‐ or macroaggregation. We conclude that continuous manure fertilization could increase labile SOM accumulation within aggregates and then facilitate microbial growth, which collectively are responsible for aggregate formation and stabilization.     

长期施肥对中国亚热带水稻土土壤稳定性和机械属性的影响

Wet stability, penetration resistance （PR）, and tensile strength （TS） of paddy soils under a fertilization experiment for 22 years were determined to elucidate the function of soil organic matter in paddy soil stabilization. The treatments included no fertilization （CK）, normal chemical fertilization （NPK）, double the NPK application rates （2NPK）, and NPK mixed with organic manure （NPK＋OM）. Compared with CK, Fertilization increased soil organic carbon （SOC） and soil porosity. The results of soil aggregate fragmentation degree （SAFD） showed that fast wetting by water was the key fragmentation mechanism. Among the treatments, the NPK＋OM treatment had the largest size of water-stable aggregates and greatest normal mean weight diameter （NMWD） （P ≤ 0.05）, but the lowest PR and TS in both cultivated horizon （Ap） and plow pan. The CK and 2NPK treatments were measured with PR 〉 2.0 MPa and friability index 〈 0.20, respectively, in the Ap horizon, suggesting that the soils was mechanically unfavourable to root growth and tillage. In the plow pan, the fertilization treatments had greater TS and PR than in CK. TS and PR of the tested soil aggregates were negatively correlated to SOC content and soil porosity. This study suggested that chemical fertilization could cause deterioration of mechanical properties while application of organic manure could improve soil stability and mechanical properties.     

不同施肥处理红壤生物活性有机碳变化及与有机碳组分的关系

采用物理分组方法对长期不同施肥处理的旱地红壤有机碳组分进行了区分,布置室内培育试验观测了培养过程中土壤有机碳的矿化动态,通过拟合一级动力学方程计算土壤生物活性有机碳库量.研究结果表明,不同施肥处理的土壤中,轻组有机碳(LF-C)、团聚体包裹的粗颗粒有机碳(iPOMc-C)及细颗粒有机碳(iPOMf-C)、矿物结合态有机碳(mSOC)分别占总有机碳的7%～10%、0.5%～1.5%、4%～7%、76%～85%,并与总有机碳(TOC)含量显著相关;厩肥处理显著增加了各组分含量,其作用优于绿肥处理和单施无机肥处理(CK);培养过程中土壤有机碳矿化动态符合一级反应动力学方程;有机无机肥配施处理的土壤生物活性有机碳库(C0)显著提高;和绿肥相比,厩肥处理中生物活性有效碳库(C0)增加幅度更大,但其周转速率常数k更小;各组分有机碳含量与C0含量均达到极显著(p＜0.01)相关,但除LF-C外其余有机碳组分占TOC的百分率均与C0达到极显著水平.     

西湖平原区连续13年定位施肥对麦、稻产量及土壤肥力的影响

以浙江省水网平原水稻主产区土壤为对象,通过定位试验,研究了连续13年的不同施肥处理对麦稻产量、土壤养分状况和物理性状的影响。结果表明,化肥配施有机肥可显著提高麦、稻产量; 不同施肥处理的长期定位试验土壤有机质含量和全氮均呈上升趋势,增幅依次为: 栏肥+NPK秸秆+NPKNPK秸秆栏肥CK处理; 土壤碱解氮和速效磷也呈增加趋势,以栏肥+NPK处理的增幅最为明显。土壤物理性状的分析表明,长期施肥均能明显增加土壤水稳性团粒含量和土壤孔隙度。经土壤养分平衡分析,栏肥+NPK、秸秆+NPK和NPK处理的氮和磷呈现盈余,秸秆和CK处理氮和磷亏缺; 栏肥+NPK和秸秆+NPK处理钾基本平衡,NPK、秸秆、栏肥和CK处理钾严重亏缺。长期定位试验进一步证明有机肥与氮、磷、钾化肥长期配合施用可实现当地农作物持续稳产,农田施肥管理要注意适当减少氮、磷投入,增加钾肥施用量,保持农田土壤养分平衡。     

长期不同施肥对塿土团聚体胶结剂的影响

【目的】土壤团聚体是土壤结构的基本单元,其形成和稳定与土壤中各种胶结剂的胶结作用有关,而团聚体胶结剂受土壤管理措施的影响,其中不同的施肥量及施肥措施影响作物生长进而影响土壤团聚体的胶结剂。本研究利用冬小麦一夏玉米轮作体系中不同施肥模式的(?)土长期定位试验,通过研究不同施肥模式对团聚体胶结剂的影响探讨(?)土团聚体的形成和分布的机理。【方法】试验设不施肥(CK)、单施氮(N)、氮磷(NP)、氮钾(NK)、磷钾(PK)、氮磷钾(NPK)、秸秆还田与氮磷钾(SNPK)、有机肥与氮磷钾(M1NPK和M2NPK)配施共9个处理。于2011年冬小麦收获前和2013年冬小麦收获后测定土壤团聚体胶结剂包括真菌菌丝密度、五碳糖、六碳糖、碳酸钙、粘粒以及游离氧化铁铝。【结果】不同施肥处理显著影响土壤表层(0-10 cm)和亚表层(10-20 cm)土壤团聚体胶结剂的含量。在0-10 cm土层,长期秸秆还田、有机肥与化肥配施处理与CK相比均显著降低了土壤菌丝密度也降低了碳酸钙含量但显著提高了土壤五碳糖和六碳糖含量而对粘粒(M2NPK除外)、游离氧化铁以及游离氧化铝含量没有显著影响。长期施用氮磷化肥(NP、NPK)也显著提高了土壤五碳糖含量显著降低了碳酸钙含量,提高了粘粒含量,降低了土壤菌丝密度对六碳糖、游离氧化铁和游离氧化铝含量没有影响。N、NK、PK处理的土壤五碳糖含量显著提高粘粒和游离氧化铁含量也有所提高,但对菌丝(PK除外)、六碳糖、碳酸钙以及游离氧化铝含量没有影响。10-20 cm土层,长期秸秆还田、有机肥与化肥配施与CK相比也提高了五碳糖和六碳糖含量显著降低了土壤菌丝密度和游离氧化铝含量而碳酸钙、粘粒、游离氧化铁差异不显著。长期施用氮磷化肥显著提高了土壤五碳糖含量,降低了土壤菌丝密度以及游离氧化铝含量但是六碳糖、碳酸钙、粘粒、游离氧化铁含量与CK没有差异。长期不施氮或不施磷处理与CK相比土壤五碳糖、六碳糖、碳酸钙以及游离氧化铁的含量显著提高但游离氧化铝含量显著降低而对菌丝和粘粒含量没有影响。不同团聚体胶结剂与团聚体平均重量直径的线性相关分析表明机械稳定性团聚体平均重量直径与碳酸钙含量呈极显著正相关、与游离氧化铁显著正相关与五碳糖和六碳糖极显著负相关。水稳性团聚体平均重量直径分别与菌丝密度、碳酸钙极显著正相关,与游离氧化铁显著正相关与五碳糖达显著负相关。【结论】团聚体胶结剂与平均重量直径的多元逐步回归分析表明,碳酸钙是影响(?)土团聚体稳定性唯一显著的胶结剂。     

有机无机肥配施对酸性菜地土壤硝化作用的影响

通过室内培养和田间试验, 研究了有机无机肥配施对酸性菜地土硝化作用的影响。培养试验条件为60%土壤最大持水量和25 ℃。 结果表明,土壤硝化作用模式为指数方程,延滞期10天。与纯化肥处理（NPK）相比,鲜猪粪配施无机肥（FPM+NPK）和猪粪堆肥配施无机肥（CPM+NPK）均能降低土壤硝化势和氨氧化潜势,猪粪堆肥配施无机肥还能增加土壤微生物量碳、 氮。鲜猪粪配施无机肥和猪粪堆肥配施无机肥处理在硝化培养和田间试验期间N2O释放量均没有差异,但硝化培养期间鲜猪粪配施无机肥的N2O释放量显著低于纯化肥处理,田间试验期间猪粪堆肥配施无机肥的N2O释放量显著低于纯化肥处理。培养试验结束后的土壤pH值与土壤硝化势间,以及硝化培养期间N2O累积释放量与土壤硝化势间均存在显著正相关关系。本研究表明, 有机无机肥配施显著影响土壤硝化作用以及硝化培养期间和田间N2O释放。     

不同土壤管理措施下塿土团聚体的大小分布及其稳定性

土壤团聚体是土壤的重要组成部分,其大小分布影响土壤的功能。本文利用22年土长期定位试验,研究不同土壤管理措施和不同施肥对土壤机械稳定性和水稳性团聚体的分布及其稳定性的影响。土壤管理措施包括裸地休闲、 撂荒和小麦/玉米轮作体系,其中小麦/玉米轮作体系中有9种施肥处理,分别为不施肥（CK）,化肥氮（N）、 磷（P）和钾（K）不同配施5个处理（N、 NP、 NK、 PK、 NPK）,秸秆还田与化肥配合（SNPK）,有机肥与化肥配施2个处理（M1NPK、 M2NPK）。结果表明,不同管理措施显著影响表层（010 cm）和亚表层（1020 cm）土壤的机械稳定性和水稳性团聚体的分布。与作物体系比较,长期休闲可显著增加机械稳定性微团聚体（0.25 mm）的含量,对水稳性团聚体的含量和分布没有显著影响。而长期撂荒显著增加了大于2 mm 的团聚体含量及团聚体的稳定性。长期不同施肥显著影响 030 cm 土层的机械稳定性和水稳性团聚体的分布,总趋势为施肥比不施肥处理降低了1 mm的团聚体含量,增加了0.25~1 mm的团聚体含量,但对土壤团聚体的稳定性没有显著影响。因此,土撂荒22年后显著增加了土壤团聚体的稳定性,而种植作物和不同施肥处理对土壤团聚体的稳定性影响甚微。     

Impact of long‐term mineral and organic fertilizer application on the water stability,wettability and porosity of aggregates obtained from two loamy soils

The impact of fertilizer application on soil aggregate stability is of increasing interest to soil scientists. Aggregate water stability depends primarily on soil organic matter. We studied silty loam and loamy sand aggregates from three long‐term fertilizer treatments (control, pig manure and NPK) which significantly altered the quantity of organic matter. A new approach to examining aggregate stability was used: soil aggregates were immersed in methanol‐water solutions with methanol at 0, 20, 40 and 60% concentration (C), and non‐disrupted aggregates were separated after 30 minutes. The aggregate resistance R(C) against each solution was taken as the percentage of stable aggregates. Overall resistance of the aggregates was taken as the R_tot parameter given by the product of four R(C) values. The R(C) values of all aggregates were positively correlated with C. The R(60) values were independent of the applied fertilizer. The R(0) value for silty loam aggregates ranged from 28% (pig manure) to 7% (NPK), while that for loamy sand equalled 7–9% in all cases. The R(20) values were most effective at differentiating the soils and the fertilizer treatments. However, the R_tot value was a better indicator of aggregate stability. Greater differences in stabilities of aggregates were noted in loamy sand. Mineral fertilizer application seemed to decrease aggregate resistance in both soils. Total organic carbon and nitrogen content in all non‐disrupted aggregates were negatively correlated with methanol concentration (C) of the solution applied for aggregate separation. The largest decrease was for the pig manure treatment, and the smallest was for the control. Porosity and pore size distributions of the aggregates were derived from micro‐tomography and approximated to lognormal pore size distributions. Larger porosities and pores were found in water‐stable aggregates than in methanol‐stable aggregates. It seems that the dominant mechanisms for aggregate instability during fast wetting were not related only to the pore air compression, but to weakening of attractive forces between aggregate particles by water.     

长期不同轮作模式对黄壤团聚体组成及有机碳的影响

依托23年的黄壤长期定位田间试验,对比研究玉米单作(MM)、小麦||绿肥–玉米轮作(WMR)和油菜–玉米轮作(RMR)对土壤团聚体组成及有机碳的影响。结果表明:各处理机械稳定性团聚体和水稳性团聚体均以大团聚体(>0.25 mm的团聚体)为优势团聚体,占比高达93.04%和74.59%以上;WMR和RMR处理较MM处理显著提高了5~2 mm和2~1 mm机械稳定性团聚体含量及>5 mm和5~2 mm水稳性团聚体含量;WMR处理的水稳性团聚体MWD(平均重量直径)较MM处理显著增加了50%;WMR、RMR处理的PAD(团聚体破坏率)和ELT(土壤团聚体不稳定团粒指数)较MM处理分别显著降低了31.32%、25.97%和35.90%、30.65%;不同粒级水稳性团聚体中均以WMR处理的有机碳含量最高,>5、1~0.5、0.5~0.25 mm粒级团聚体的有机碳含量比MM处理显著增加了17.60%、34.41%、45.67%;土壤团聚体有机碳主要集中在>0.25 mm的大团聚体中,而在微团聚体中含量较少,轮作主要提高了>5 mm水稳性团聚体中有机碳的贡献率,WMR、RMR处理较MM处理分别提高了23.18和9.16个百分点。小麦||绿肥–玉米轮作能有效改善土壤团聚体组成,提高团聚体稳定性和有机碳含量,可作为贵州黄壤旱地较佳的轮作模式。     

长期不同施肥下黑土和红壤团聚体氮库分布特征

为阐明长期不同施肥下土壤氮库的演变特征,揭示氮库稳定性不同的团聚体对不同施肥的响应,为化肥和有机物的合理施用提供科学依据。本研究通过对黑土和红壤22年的田间肥料定位试验,研究了长期不同施肥模式对土壤全氮、 微生物氮以及各级团聚体中氮贡献率的影响。结果表明,长期不施肥（CK）和施用化肥（NPK）,黑土土壤全氮含量以0.015 g/(kga)的速率显著下降（P 0.05）;而长期化肥配施有机肥（NPKM）,黑土全氮含量以0.025 g/(kga) 的速率显著上升（P 0.05）。在CK、 NPK、 NPKM和秸秆还田（NPKS）处理下,红壤全氮含量均没有显著变化。施肥22年后,NPKM处理下黑土和红壤微生物氮含量较NPK处理下分别增加了15% 和 43%,全氮含量分别增加了43% 和45%,差异均达到显著水平（P 0.05）。氮素在黑土上主要积累在253 m 微团聚体中,达到0.73~1.21 g/kg,在红壤上主要积累在2 m 微团聚体中,达到0.46~0.98 g/kg。与NPK相比,NPKM 处理下黑土和红壤 250~2000 m大团聚体中氮素贡献率均显著提高,分别增加了4.3% 和 5.1%。与NPK相比,NPKM 和 NPKS 处理下,红壤 253 m 微团聚体中氮贡献率分别降低了5.9% 和 9.7%,而黑土除大团聚体外的各级团聚体氮贡献率均没有显著变化。可见,不同土壤类型对施肥响应不同, 主要是253 m 微团聚体中氮素的响应不同,化肥配施有机肥可提高土壤250~2000 m 大团聚体中氮的贡献率,进而增加土壤对作物的氮素供给能力,是有助于提高土壤肥力和生产力的农业生产可持续性施肥模式。     

长期施肥棕壤团聚体分布及其碳氮含量变化

【目的】探究玉米-玉米-大豆轮作体系不同施肥处理对土壤团聚体分布及其有机碳、全氮的影响,以期深入了解施肥对土壤培肥、改善土壤结构的机制。【方法】选取不施肥（CK）,化肥（NPK）,低量有机肥（M1）,低量有机肥与化肥配施（M1NPK）,高量有机肥（M2）,高量有机肥与化肥配施（M2NPK）6个处理。采集棕壤37年长期定位试验微区不同施肥处理的0-20 cm和20-40 cm土样,分析其水稳性团聚体（ 1 mm、1~0.5 mm、0.5~0.25 mm、0.25~0.053 mm及 0.053 mm）分布及其有机碳、全氮分配特征。【结果】棕壤长期施肥对团聚体分布及其碳氮的影响0-20 cm大于20-40 cm,随土层深度的增加,有机碳（SOC）、全氮（TN）含量减少。各处理团聚体及碳、氮在团聚体中的分配主要在黏粉粒中（40%以上）。与CK相比,NPK处理显著提高了黏粉粒的含量,降低大团聚体与微团聚体含量,显著增加黏粉粒储碳比例;M1、M2处理显著增加 1 mm团聚体数量及其SOC含量,显著增加 0.25 mm各粒级团聚体的储碳比例,且M2处理显著高于M1处理;M1NPK、M2NPK处理也显著增加 1 mm团聚体数量及其SOC含量,M1NPK与M2NPK处理在NPK处理的基础上依次增加0.5~0.25 mm（M1NPK）、1~0.5 mm及 1 mm团聚体的储碳比例,M2NPK处理 0.25 mm团聚体储碳比例最高,土壤团聚体全氮的变化趋势与有机碳类似。【结论】棕壤连续有机无机配合施用可显著增加土壤大团聚体数量、SOC、TN含量及其储碳、氮比例,是提高土壤质量、改善土壤结构的有效施肥措施。     

油/麦-稻轮作和施肥对土壤养分及团聚体碳氮分布的影响

通过田间定位试验探究油菜-水稻与小麦-水稻轮作在不同施肥措施下的土壤养分及团聚体碳氮分布差异,为长江中游油麦交错区水旱轮作模式选择及培肥地力提供依据。利用湖北沙洋的定位试验,选择油-稻和麦-稻轮作的不施肥（CK）、施用化肥（NPK）、化肥与秸秆还田相结合（NPK+S）3个处理,在试验布置的第4年于油菜和小麦收获后取0～20 cm土壤样品,测定土壤有机质和氮磷钾养分含量、孔隙度、团聚体分布和稳定性、团聚体有机碳和全氮贡献率等指标。结果表明：（1）与麦-稻轮作相比,油-稻轮作土壤有机质和有效磷含量在各施肥处理中分别提高了13.1%～19.2%和18.8%～59.5%,土壤全氮含量在秸秆不还田时提高了28.1%(CK处理)和29.2%(NPK处理);（2）秸秆不还田时,油-稻轮作土壤总孔隙度较麦-稻轮作显著提高了8.1%(CK处理)和10.3%(NPK处理),相应的毛管孔隙度分别提高了11.7%和10.5%;(3)与麦-稻轮作相比,油-稻轮作土壤团聚体的平均重量直径（MWD）、平均几何直径（GMD）和大团聚体含量（WSMA）在各施肥处理中均显著提高,且提高了大团聚体有机碳和全氮贡献率;（4）...     

化肥配施不同剂量有机肥对黑土团聚体中有机碳与腐殖酸分布的影响

【目的】 团聚体的形成为土壤有机碳的稳定提供了重要的物理保护,施用有机肥影响着土壤团聚体的形成,量化有机肥施用剂量与团聚体有机碳稳定性之间的关系对于阐明农田土壤有机碳的固碳机制具有重要意义。 【方法】 以黑龙江省海伦市国家野外科学观测研究站为平台,选择连续10年进行化肥配施不同剂量有机肥处理[0、7.5、15、22.5 t/(hm2·a)]的黑土为研究对象,将团聚体分组与腐殖酸提取相结合,分析了不同粒径团聚体中有机碳和腐殖酸的含量与光学特性。 【结果】 1)与单施化肥相比,化肥配施有机肥增加了大团聚体( > 0.25 mm)的分配比例与团聚体的平均重量直径,二者均随着有机肥剂量的增加而逐渐升高,回归拟合分析表明,团聚体的平均重量直径与有机肥剂量之间呈现显著的正相关关系(P=0.03)。2) 2~0.25 mm团聚体是黑土有机碳的主要贮存场所,约占有机碳总量的64.8%~68.8%,大团聚体中有机碳的含量与储量均随着有机肥剂量的增加而逐渐升高, < 0.053 mm团聚体中有机碳含量与储量则维持在较稳定的水平。3)各粒级团聚体中腐殖酸碳含量以0.25~0.053 mm团聚体最高,各粒级团聚体中腐殖酸碳占有机碳百分比之间的差异不显著。化肥配施有机肥提高了各粒级团聚体中腐殖酸碳的含量,使团聚体对有机碳的固持能力增加,且各粒级团聚体中腐殖酸碳的含量随着有机肥剂量的增加逐渐升高。4)化肥配施有机肥增加了各粒级团聚体中腐殖酸的E4/E6比值,表明其分子结构简单化,且以 > 2 mm和0.25~0.053 mm团聚体中腐殖酸E4/E6比值的增加最显著。 【结论】 在黑土中,长期连续进行化肥配施有机肥,促进了团聚体的形成,改善了耕层土壤结构,增加了团聚体中有机碳的积累与固持能力,并使各粒级团聚体中腐殖酸的结构“年轻化”,这种促进作用在高剂量有机肥施用下更为显著。实际生产中,在短期内可通过适当提高有机肥的施用量以提高黑土肥力及其固碳能力。     

Effects of long-term application of various organic amendments on soil particulate organic matter storage and chemical stabilisation of vertisol soil

Current understanding of the effects of long-term application of various organic amendments on soil particulate organic matter (POM) storage and chemical stabilisation remains limited. Therefore, we collected soil samples from the soil profile (0–100?cm) under six treatments in a 31-year long-term fertilisation experiment: no fertiliser (CK), mineral fertilisers (NPK), mineral fertilisers plus 3.8 or 7.5?t?ha^?1?year^?1 (fresh base) the amount of wheat straw (1/2SNPK and SNPK) and mineral fertilisers plus swine or cattle manure (PMNPK and CMNPK). Long-term incorporation of wheat straw and livestock manure amendments significantly (p?<?0.05) increased crop yield and sustainable yield index, and POM storage compared with CK and NPK treatments. The mole ratios of H/C in the POM under organic amendment treatments significantly (p?<?0.05) decreased by 13.8% and 37.1%, respectively, compared with the NPK treatment. Similarly, solid state NMR spectroscopy showed that the O–alkyl carbon content of POM was greatly decreased, whereas aromatic carbon contents and alkyl to O–alkyl carbon ratios were substantially increased under PMNPK and CMNPK treatments. In conclusion, we recommend long-term livestock manure application as a preferred strategy for enhancing POM quantity and quality (chemical stability), and crop yield of vertisol soil in northern China.     

生物炭施用下潮土团聚体微生物量碳氮和酶活性的分布特征

  【目的】  探究生物炭配施化肥对不同粒级团聚体中微生物量碳、氮 (MBC、MBN) 含量和胞外酶活性的影响,分析影响团聚体胞外酶活性变化的主控因素,为提升土壤质量提供科学依据。  【方法】  田间微区试验在河南现代农业研究基地进行,供试土壤为石灰性潮土。设置4个处理:不施肥 (CK)、单施化肥 (NPK)、单施生物炭 (BC) 和生物炭配施化肥 (BC+NPK),生物炭是以花生壳为原料高温裂解制备而成,仅在试验开始前施用一次,化肥每季均施用。试验开始于2017年小麦季,于2019年9月玉米收获后采集耕层土壤样品,测定土壤养分含量,分析各粒径团聚体MBC、MBN含量和酶活性。  【结果】  与CK相比,NPK处理可显著提高耕层土壤有效磷、速效钾和硝态氮含量,BC处理可显著提高有机碳和全氮含量,BC+NPK处理则显著提高了以上各指标含量。与CK相比,BC处理显著降低了粒径2～0.25 mm团聚体MBN含量,并明显增加了该粒径的MBC/MBN值;BC+NPK处理显著增加了粒径 > 2 mm和0.25～0.053 mm团聚体中MBC含量 (增幅分别为59.57%和34.68%),也增加了耕层土壤、粒径 > 2 mm和2～0.25 mm团聚体中MBN含量 (增幅分别为17.33%、42.24%和19.28%)。与CK相比,NPK、BC和BC+NPK处理均显著增加粒径 > 2 mm团聚体微生物熵,而BC和BC+NPK处理则显著降低了耕层土壤、粒径2～0.25 mm和0.25～0.053 mm团聚体微生物熵。与CK相比,NPK和BC+NPK处理均显著提高了粒径2～0.25 mm和0.25～0.053 mm团聚体中β-葡糖苷酶、β-纤维二糖苷酶、α-葡糖苷酶和β-木糖苷酶活性;在粒径 > 2 mm团聚体中,仅BC+NPK处理明显提高了该四种酶的活性。与CK相比,NPK和BC+NPK处理均明显提高了粒径 > 2 mm团聚体中脲酶活性及粒径0.25～0.053 mm团聚体中乙酰氨基葡糖苷酶活性,仅BC+NPK处理可显著提高粒径 > 2 mm和0.25～0.053 mm团聚体中亮氨酸氨基肽酶活性。团聚体酶活性变化与MBC、MBN含量以及MBC/MBN值显著相关。粒径 > 2 mm团聚体中酶活性变化与微生物熵、全氮和MBC含量均显著相关,粒径2～0.25 mm团聚体中酶活性变化与MBC/MBN值显著相关,而粒径0.25～0.053 mm团聚体中酶活性变化与MBC含量显著相关。  【结论】  生物炭与化肥配施有利于土壤碳的固存,改善土壤微环境,提升土壤质量,且生物炭添加到土壤中有较长的后效。     

长期施肥对浙江稻田土壤团聚体及其有机碳分布的影响

以浙江省稻田长期定位试验站为依托,研究长期不同施肥措施对土壤团聚体及其有机碳分布的影响。研究结果表明,与不施肥对照(CK)相比,栏肥与化肥配施(NPKOM)、单施栏肥(OM)、秸秆与化肥配施(NPKRS)和单施秸秆(RS)处理均显著提高了2 mm和2~0.25 mm水稳定性大团聚体的含量和团聚体平均重量直径(p0.05),强化了团聚体对土壤有机碳的物理保护作用。此外,长期有机无机配施(NPKOM和NPKRS)处理显著提高了各个粒级团聚体中有机碳含量,并且显著增加水稳定性大团聚体有机碳的贡献率,而长期单施化肥和单施秸秆处理并未有效增加土壤总有机碳含量。不同施肥处理下,2~0.25 mm粒级团聚体有机碳占土壤总有机碳的34.2%~48.6%,是土壤有机碳的主要载体。利用傅立叶变换红外光谱(FT-IR)技术对2~0.25 mm和0.053 mm团聚体进行结构表征,发现长期单施有机肥或者有机无机配施下芳香族C较CK提高29.9%~45.2%,较NPK处理提高22.3%~36.6%,提高了土壤有机碳的芳构化。在有机碳积累方面,施用有机肥,尤其是栏肥与化肥配施,同时强化了团聚体对有机碳的物理保护以及促进了化学抗性有机碳组分的积累,是加强稻田土壤有机碳库积累的合理施肥模式。     

长期施肥对土黑碳积累的影响

通过长期定位试验,探讨了20年不施肥（CK）、 单施化肥（NPK）、 秸秆和化肥配施（SNPK）、 常量有机肥和化肥配施（M1NPK）以及高量有机肥和化肥配施（M2NPK）5个施肥处理对土中黑碳含量及积累的影响。结果表明: 与CK处理相比,NKP处理对黑碳含量和积累没有明显影响; 有机肥和化肥配施（M1NPK、 M2NPK）对耕层（020 cm）土壤黑碳含量的影响较大,与CK处理相比,在土壤表层（05 cm）,M1NPK、 M2NPK分别提高了黑碳含量的108%和134%, 510 cm土层中黑碳含量增幅最高,分别提高164%和176%,在整个土层,M1NPK、 M2NPK处理分别增加了1.51和1.55倍; 秸秆和化肥配施（SNPK）下表层黑碳含量也有所增加,但增加幅度相对施用有机肥来说明明显较小。施肥对黑碳含量的影响主要发生在土壤表层,深层土壤黑碳受施肥影响较小。