Effect of Continuous Vegetable Cultivation on PhosphorusLevels of Fluvo-Aquic Soils

oil P status, inorganic P fractions, and P sorption properties were studied using sandy fluvo-aquic horticultural soils,which are high in organic matter content for vegetable production in comparison with a soil used for grain crop productionin Zhengzhou, Henan Province, China. P fractions, Olsen-P, and OM were determined at different depths in the soilprofile and sorption isotherm experiments were performed. Most P in excess of plant requirements accumulated in thetopsoil and decreased with soil depth. Total P, inorganic P, and OM concentrations increased with continued horticulturaluse.Olsen-P concentrations in the 0-20 cm depth of horticultural soils were 9 to 25 times higher than those of the graincrop soil. A linear transformation of the Langmuir equation showed that the P adsorption maximum (491.3 mg P kg^-1)and the maximum phosphate buffering capacity (162.1 L kg^-1) for 80-100 cm were greater in the grain crop soil than thehorticultural soils. Thus, the most immediate concern with excess P were in areas where heavy P fertilizer was used forvegetable crops and where soil P sorption capacities were low due to sandy soils and high organic matter content.     

中国云南省滇池盆地东南区由于土地利用方式的变化（从水田变为旱地或温室土壤）导致土壤理化性质的变化研究

Paddy fields in the southeastern basin of Dianchi Lake have rapidly changed to greenhouses since 1999. A total of 61 surface soil samples, including 43 greenhouse soils, 12 upland soils, and 6 paddy soils, were collected from a flat lowland area mainly used for agricultural production fields in the southeastern basin of Dianchi Lake. Analyses of the soil samples indicated that the greenhouse soils were characterized by a lower organic matter content, lower pH, and higher soluble nutrients than the paddy soils in the area. The lower organic matter content of the greenhouse soils was ascribed to environmental or management factors rather than the clay content of the soil. Accumulation of soluble nutrients, especially inorganic N, was due to over-application of fertilizers, which also caused soil acidification. The average amount of readily available N, P, and K accumulated in the greenhouse soils was estimated to be equal to or higher than the annual input of these nutrients as a fertilizer, indicating that a reduction in fertilizer application was possible and recommended. In contrast, a very low available Si content was observed in the paddy soils, suggesting the need for Si application for rice production.     

长期施用化肥和有机肥对太湖地区水稻土有机碳特征的影响

A long-term experiment set up in 1980 compared the effects of applying manures and chemical fertilizers on a paddy soil in the Taihu Lake region,China.Of the fourteen randomly distributed treatments consisting of different combinations of organic manure,inorganic nitrogen (N),phosphorus (P),and potassium (K),and rice straw,eight were selected for the present study in 2007.Application of organic manure plus straw significantly increased soil organic carbon (SOC) content of the topsoil (0-10 cm) compared to that of chemical fertilizers alone.The content of SOC was relatively stable in the 10-30 cm layer in the chemical fertilizer treatments and in the 20-40 cm layer in the manure treatments.The stable carbon isotope ratio (δ 13 C) ranged from 24‰ to 28‰ and increased gradually with depth.The content of SOC was significantly (P < 0.05) negatively correlated with δ 13 C.In the 0-20 cm layer,the δ 13 C value significantly decreased in the treatments of manure alone (M),manure and chemical N and P fertilizers (MNP),manure and chemical N,P,and K fertilizers (MNPK),manure,rice straw,and chemical N fertilizer (MRN),and chemical N fertilizer and rice straw (CNR),as compared with the no-fertilizer control.In the 30-50 cm layer,however,the ratio significantly increased in all the treatments except Treatment CNR.Mineralization of organic C peaked in the first 2-4 d of incubation and gradually leveled off thereafter over the first 3 weeks,being faster in the manure treatments than the chemical fertilizer treatments.The average rate of mineralization varied from 55.36 to 75.46 mL CO 2 kg-1 d-1 and that of stable mineralization from 10 to 20 mL CO 2 kg-1 d-1.In eight weeks of incubation,cumulative mineralization was always higher in the manure treatments than the chemical fertilizer treatments,being the highest in Treatment MRN.Combined humus in the soil was mainly (over 50%) composed of tightly combined fraction.The loosely combined humus and its ratio of humic acid (HA) to fulvic acid (FA) significantly increased with long-term application of organic manure and chemical fertilizers.It could be concluded that the cycle of organic C in the paddy soil ecosystem studied was stable over the long-term application of fertilizers and continued cultivation.     

连续种植蔬菜对潮土磷素水平的影响

Soil P status, inorganic P fractions, and P sorption properties were studied using sandy fluvo-aquic horticultural soils, which are high in organic matter content for vegetable production in comparison with a soil used for grain crop production in Zhengzhou, Henan Province, China. P fractions, Olsen-P, and OM were determined at different depths in the soil profile and sorption isotherm experiments were performed. Most P in excess of plant requirements accumulated in the topsoil and decreased with soil depth. Total P, inorganic P, and OM concentrations increased with continued horticultural use. Olsen-P concentrations in the 0-20 cm depth of horticultural soils were 9 to 25 times higher than those of the grain crop soil. A linear transformation of the Langmuir equation showed that the P adsorption maximum (491.3 mg P kg^-1) and the maximum phosphate buffering capacity (162.1 L kg^-1) for 80-100 cm were greater in the grain crop soil than the horticultural soils. Thus, the most immediate concern with excess P were in areas where heavy P fertilizer was used for vegetable crops and where soil P sorption capacities were low due to sandy soils and high organic matter content.     

不同施肥管理对红壤性水稻土有机碳、氮形态的影响

A long-term experiment beginning in 1981 in Jinxian County of Jiangxi Province, subtropical China, was conducted in a paddy field under a double rice cropping system with four different fertilization regimes, including 1) no fertilizer as control (CK), 2) balanced chemical N, P, and K fertilizers (NPK), 3) organic manure using milk vetch and pig manure in the early and late rice growing season, respectively (OM), and 4) balanced chemical fertilizers combined with organic manure (NPKM). Samples (0-17 cm) of the paddy field soil, which was derived from Quaternary red clay, were collected after the late rice harvest in November 2003 for determination of total organic carbon (TOC) and total nitrogen (TN) and fractions of organic C and N. Results showed that TOC and TN in the NPKM and OM treatments were significantly higher than those in other two treatments (CK and NPK). Application of organic manure with or without chemical fertilizers significantly increased the contents of all fractions of organic C and N, whereas chemical fertilizer application only increased the contents of occluded particulate organic C (oPOC) and amino acid N. In addition, application of organic manure significantly enhanced the proportions of free particulate organic carbon (fPOC) and oPOC in total C, and those of amino sugar N and amino acid N (P < 0.01) in total N. In contrast, chemical fertilizer application only increased the proportions of oPOC and amino acid N (P < 0.05). There were no significant differences in either contents or proportions of soil organic C and organic N fractions between the NPKM and OM treatments. These indicated that organic manure application with or without chemical fertilizers played the most significant role in enhancing soil organic C and N quantity and quality in the paddy field studied.     

Influence of Organic Manure on Organic Phosphorus Fraction in Soils

The transformation of organic P(Po) from organic manures in two types of soils (ultisol and entisol) and the influences of external addition of organic substance or inorganic P(Pi) on Po under the condition of the 60% maximum water capacity were investigated.The results obtained from Po fractionation experiments indicated that all the Po fractions except for the highly resistant Po fraction decreased during incubation.Application of pig feces and cow feces could largely increase each fraction of Po in the soils.Immediately after application of organic manure into the soils a large part of labile and moderately labile Po from organic manure was transferred into moderately resistant Po,which might be due to the fact that Ca-or Mg-inositol P was precipitated into Fe-inositol P.However,the availability of Po from organic manure in the soils would increase again after incubation because of the transformation of moderately labile and resistant Po fractions into labile Po fractions.Addition of cellulose or Pi into the soils showed a good effect on increasing all the Po fractions except for the highly resistant Po,and this effect was much more pronounced when cellulose was applied in combination with Pi.Therefore,in view of the effect of organic manure on improving P nutrition to plant,attention should be paid to both the Po and the organic substances from organic manure,It is suggested that application of Pi fertilizer combined with organic manure may be referred to as an effective means of protecting Pi from chemical fixation in soil.     

长期施肥对华北平原土壤生产力的影响

Soil productivity is the ability of a soil, in its normal environment, to support plant growth and can be evaluated with respect to crop production in unfertilized soil within the agricultural ecosystem. Both soil productivity and fertilizer applications affect crop yields. A long-term experiment with a winter wheat-summer maize rotation was established in 1989 in a field of the Fengqiu State Key Agro-Ecological Experimental Station, a region typical of the North China Plain, including seven treatments: 1) a balanced application of NPK chemical fertilizers(NPK); 2) application of organic fertilizer(OM); 3) application of 50% organic fertilizer and50% NPK chemical fertilizers(1/2OMN); 4) application of NP chemical fertilizers(NP); 5) application of PK chemical fertilizer(PK);6) application of NK chemical fertilizers(NK); and 7) unfertilized control(CK). To investigate the effects of fertilization practices on soil productivity, further pot tests were conducted in 2007–2008 using soil samples from the different fertilization treatments of the long-term field experiment. The soil sample of each treatment of the long-term experiment was divided into three pots to grow wheat: with no fertilization(Potunf), with balanced NPK fertilization(PotNPK), and with the same fertilizer(s) of the long-term field experiment(Potori). The fertilized soils of the field experiment used in all the pot tests showed a higher wheat grain yield and higher nutrient uptake levels than the unfertilized soil. Soil productivity of the treatments of the field experiment after 18 years of continuous fertilizer applications were ranked in the order of OM 1/2OMN NPK NP PK NK CK. The contribution of soil productivity of the different treatments of the field experiment to the wheat grain yield of Potoriwas 36.0%–76.7%, with the PK and NK treatments being higher than the OM, 1/2OMN, NPK, and NP treatments since the soil in this area was deficient in N and P and rich in K. Wheat grain yields of PotNPKwere higher than those of Potoriand Potunf. The N, P, and K use efficiencies were higher in PotNPKthan Potoriand significantly positively correlated with wheat grain yield. Soil organic matter could be a better predictor of soil productivity because it correlated more strongly than other nutrients with the wheat grain yield of Potunf. Wheat yields of PotNPKshowed a similar trend to those of Potunf, indicating that soil productivity improvement was essential for a further increase in crop yield. The long-term applications of both organic and chemical fertilizers were capable of increasing soil productivity on the North China Plain, but the former was more effective than the latter. The balanced application of NPK chemical fertilizers not only increased soil productivity, but also largely increased crop yields, especially in soils with lower productivity. Thus, such an approach should be a feasible practice for the sustainable use of agricultural soils on the North China Plain, particularly when taking into account crop yields, labor costs, and the limited availability of organic fertilizers.     

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.     

有机物料对淹水土壤中施入的镉形态的影响

The effect of three organic materials(rice straw,Chinese milk vetch and pig manure)on the fractionation of cadmium added into two soils(a red soil and a fluvo-aquic soil) was studied using submerged incubation experiment.The organic materials increased soil soild organic carbon(SOC),pH value,the concentration of active Si in all the treatments and active Fe and Mn in some treatments.Accumulated SOC caused directly the increase of Cd bound to solid organic matter and consequently the decrease of exchangeable Cd.Higher active Si and pH,as well as lower Eh,were also responsible for the reduction of exchangeable Cd.Cd bound to mn oxide was positively correlated with pH values and rose significantly after one-month incubation,but decreased after three-month incubation.Cd bound to amporphous Fe oxide increased with the incubation time,but was not affected significantly by adding organic materials.     

长期施用无机肥对稻田红壤生化特性的影响

A long-term experiment was set up in Yingtan of Jiangxi Province to investigate the effects of long-term application of inorganic fertilizers on the biochemical properties of a rice-planting soil derived from Quaternary red earth. Noncultivated soils are extremely eroded and characterized by a low pH and deficiencies in available nutrients, in particular P and N. After 13 years of inorganic fertilization in cultivation for double-cropped rice, the biochemical properties of the soil were changed. The nitrification potential and urease activity were higher in the treatments with N application than those without N application. Acid phosphatase activity and dehydrogenase activity were also higher in the treatments with P application than in those without P application. The dehydrogenase activity correlated well with the concentrations of both total P and hydrolysable N and with rice crop yield, suggesting that dehydrogenase activity might be a suitable indicator for improvement in soil fertility.     

Effects of iron,calcium, and organic matter on phosphorus behavior in fluvo-aquic soil: farmland investigation and aging experiments

Purpose

Excessive fertilization has led to a high risk of phosphorus (P) leaching and related problems in the North China Plain, where the most typical cropland soil is fluvo-aquic soil. The main factors controlling environmental P behavior and the acting time sequence of these factors in soil after long-term P fertilizer application have not been well recognized. A clear understanding is essential for effective P management.

Materials and methods

Effects of Fe minerals, calcium carbonate, and organic matter (OM) on P immobilization in fluvo-aquic soil were studied systematically through farmland investigation and aging experiments.

Results and discussion

Phosphorus associated with Ca was the primary fraction in fluvo-aquic soil. Even though there was no significant correlation between the total contents of P and Ca in soils, formation of P-Ca phases facilitated by Ca²⁺ in soil solution was a mechanism of P retention when soil received excess P fertilizer. Positive correlations between the contents of P and Fe and total organic carbon (TOC) indicate that Fe minerals and OM have significant effects on P immobilization. Through the aging experiments, P was found to primarily adsorb on goethite and gradually forms Ca-P compounds. Organic fertilizer caused P release and inhibition of P adsorption in the initial stages; however, OM derived from organic fertilizer might facilitate P immobilization in the long term through the formation of a P-Ca-OM complex.

Conclusions

Although superfluous application of P fertilizers leads to the gradual formation of Ca-P in fluvo-aquic soils, there is still a risk of P loss because P is not immediately adsorbed by Fe minerals. Moreover, application of organic fertilizers increases the risk of P loss. These results provide an important scientific basis for initiating P management policies for fluvo-aquic soils.

     

长期定位施肥对潮土腐植酸含量及其相关因素的影响

利用中国科学院封丘农业生态国家实验站潮土农田生态系统养分平衡长期定位试验地,研究不同施肥处理对春秋两季土壤腐植酸含量、微生物生物量碳及转化酶活性的影响。结果发现,与不施肥对照相比,单施NK或单施PK对土壤pH和有机碳含量均没有显著影响;单施有机肥、施NPK化肥、1/2 OM + 1/2 NPK有机无机配施以及施NP等4种处理均显著抑制了土壤pH的升高,提高了土壤有机碳与全氮含量;其中单施有机肥还显著提高了土壤腐殖质中胡敏酸的含量以及微生物生物量碳和转化酶活性,有机肥与化肥配施效果次之。结果表明,长期施用有机肥更有利于提高土壤肥力质量与健康质量。     

长期有机物循环利用对红壤稻田土壤供磷能力的影响

采用盆栽试验,研究了长期不同施肥处理定位试验土壤供磷能力的差异,并从土壤磷素平衡、全磷、有机磷、Olsen-P和MB-P的含量的变化等方面探索了导致供磷能力差异的原因。结果表明,长期施用磷肥能显著提高土壤的供磷能力,其中以有机物循环利用配合磷肥施用处理土壤的供磷量能力最高,植株平均吸磷量是长期不施磷肥处理的3.5倍,比长期施用磷肥处理平均高出59.8%。长期单施氮肥导致土壤供磷能力衰竭,植株总吸磷量比长期不施肥还低17.2%,单一有机物循环利用和配施N肥植株总吸磷量比长期不施肥分别高80.3%和40.2%。有机物循环利用能明显提高土壤微生物对磷素的固持量,土壤微生物对无机磷的利用可能是其向有效磷转化的关键途径。磷肥配合系统内有机物循环利用,是提高红壤稻田土壤供磷能力的有效施肥模式。     

长期施肥对我国6种旱地小麦磷肥回收率的影响

为阐明长期施肥下小麦磷肥回收率的时间及空间变化特征,对我国6种旱地土壤（红壤、黑土、均壤质潮土、轻壤质潮土、塿土和黄棕壤）长期不同施肥下的磷肥回收率及相关指标进行了分析。结果表明,长期施用NPK化肥（NPK）,均壤质潮土、轻壤质潮土、塿土、黄棕壤上小麦当季磷肥回收率随时间增加而显著升高,每年平均分别上升 0.80、0.60、1.30和0.44个百分点;化肥有机肥配施（NPKM）,每年平均上升0.25～1.72个百分点。黑土上小麦磷肥回收率长期施用NPK的变化不大,施用NPKM的显著升高,平均每年上升 0.50个百分点;红壤上磷肥回收率NPK处理呈下降趋势,平均每年下降 0.86个百分点,而NPKM处理保持平稳,说明施用有机肥有利于提升磷肥回收率。不同土壤上小麦当季磷肥回收率的变化速率与土壤磷的形态密切相关,以无机钙磷为主要形态的土壤（均壤质潮土、轻壤质潮土、塿土）小麦磷肥回收率均高于以有机磷为主要形态的黑土和以无机闭蓄态磷为主要形态的红壤。小麦当季磷肥回收率受土壤性质的影响,与土壤全磷和pH值之间具有显著的正相关关系（P0.05）。     

长期不同施肥方式对砷在典型壤质潮土及作物中累积的影响

本文研究了长期(1989—2009年)不同施肥方式对砷在黄淮海地区典型壤质潮土及作物中累积的影响。田间试验设置7个处理:有机肥(OM)、OM+无机化肥氮磷钾(NPK)、NPK、NP、PK、NK和不施肥(CK),OM+NPK处理为有机肥和无机化肥氮磷钾各施一半。结果显示,长期不同施肥方式下砷在表层(0~20 cm)及亚表层(20~40 cm)土壤中的含量均有明显累积,但含量较低(<25 mg.kg 1),对农田生态环境安全的影响较小。土壤中砷的累积主要与灌溉及沉降有关,受施肥方式的影响相对较小。磷肥中砷的含量明显高于氮肥、钾肥及有机肥,磷肥的长期施用促进了砷在PK处理土壤中的累积,但在作物产量较高的情况下,对其在土壤中累积趋势的影响较小,而有机肥的添加则会减缓这种累积趋势。砷在小麦和玉米两种典型作物组织中的含量分布表现为:根系>茎叶>籽粒,其中籽粒中砷的含量显著低于根系及国家食品安全相关标准。经过长期不同方式的施肥处理,砷在小麦组织中的含量表现为:PK>OM>OM+NPK>NPK>NP>NK>CK,与土壤中有效磷含量的变化基本一致,并间接受到土壤有机质的影响。在OM、OM+NPK、NPK和NP施肥处理下,土壤有机质含量及作物产量均较高,土壤有机质含量的提高促进了砷在小麦体内的富集,但对其在玉米根系中含量的影响不明显;玉米生长期较短且产量较高,对砷的需求量较大,土壤中有效态砷含量的不足抑制了其在玉米根系中的分布,但玉米通过加强组织对砷的转移能力提高了其在茎叶中的含量。     

长期施肥对我国典型土壤活性有机质及碳库管理指数的影响

对我国重点农区的6种典型土壤红壤、灰漠土、垆土、潮土、褐土、黑土长期耕作施肥后的活性有机质及碳库管理指数(CMI)进行了研究,探讨施肥对不同土壤活性有机质和CMI的影响。土壤活性有机质用KMnO4氧化法测定,采用3种浓度KMnO4(33、1673、33.mmol/L)将土壤活性有机质分为高活性有机质、中活性有机质和活性有机质3部分。结果表明,只耕作不施肥(CK)10年后土壤活性有机质含量降低,CMI下降11.1～63.6,其中垆土、褐土下降幅度最大、黑土最小。施用化肥也使土壤活性有机质下降,其中单施氮(N)的潮土活性有机质下降最大,达31.3%;化肥配合施用(NPK)的红壤活性有机质下降最大,其余土壤相对较小。施肥使土壤活性有机质和总有机质含量增加,高于初始土壤和CK。施用有机肥或有机肥配施化肥,土壤活性有机质含量和CMI均显著增加,CMI以红壤上升最大,达91.4,潮土最小,仅为4.6。土壤活性有机质的数量及CMI变幅大于土壤总有机质的变化幅度,以CMI变化为大,说明CMI是评价施肥耕作对土壤质量影响的最好指标。土壤活性有机质分组结果表明,红壤活性有机质组成以高活性有机质为主;垆土、灰漠土活性有机质以高活性和中活性两部分为主;潮土以中活性有机质为主。施肥对红壤、灰漠土活性有机质组分影响明显,对垆土、潮土影响相对较小。     

鸡粪和垃圾有机肥对苋菜生长及土壤重金属积累的影响

采用盆栽试验,在红壤和潮土中分别施入土壤重量5%、10%和15%的鸡粪或垃圾有机肥,研究其对苋菜（Amaranthustricoclor L.）生长、土壤化学性状及重金属含量的影响。结果表明,与对照相比,施入鸡粪或垃圾有机肥显著增加苋菜的鲜重、主根长和株高;土壤有机质、EC值、速效磷和速效钾含量均大幅增加,但土壤全氮含量无明显变化。与对照相比,潮土中施用两类有机肥使苋菜植株Cu和Zn含量分别增加26.3%~36.0%和1.2%~20.3%,但未超出国家食品卫生标准对Cu和Zn的允许含量;Cd、Cr和Pb含量都较对照降低,没有出现积累现象。红壤施用两类有机肥,苋菜植株中Zn、Cd和Pb分别下降42.7%~59.9%、0~48.9%和4.1%~71.3%,达到显著水平。有机肥的施入量为5%时,两类土壤中重金属都没有出现明显积累;当施入量为10%和15%时,两类土壤的Cu、Cd、Cr和Pb含量显著增加,出现明显积累趋势,其中除了施用鸡粪使土壤有效Cu含量下降外,两种有机肥均增加了两类土壤中重金属Zn、Cd、Cr和Pb的有效态含量。试验结果提示,从土壤培肥与环境质量安全综合考虑,有机肥的用量应控制在一个适宜范围内。     

五氯酚在长期定位施肥土壤中的残留动态

研究好氧和厌氧条件下五氯酚 (PCP) 在长期不施肥 (CK),施无机肥尿素 (N),施有机肥 (OM)和无机有机肥配施 (N+OM) 4 种处理土壤中的残留动态.结果表明,无论在好氧或厌氧条件下,PCP 在土壤中的消解均遵循一级动力学方程.在好氧条件下,PCP 在 CK、N、OM 和 N+OM 4 种处理土壤中半衰期分别为 26.9、27.7、21.5、20.6 天,在厌氧条件下,PCP 的半衰期分别为 30.8、32.2、27.1、25.9 天.表明无论在好氧或厌氧条件下,长期单施有机肥或无机有机肥配施显著加速 PCP 在土壤中的消解,原因可能是长期单施有机肥或无机有机肥配施能显著提高土壤有机质含量和微生物活性,加速 PCP 在土壤中的消解.好氧条件下 PCP 的消解速率显著高于厌氧条件.     

不同施肥及秸秆还田对潮土有机质及其组分的影响

基于长期田间定位试验样地,研究了裸地(CK1)、不施肥秸秆移除(CK2)、不施肥秸秆还田(CK3)、施无机肥秸秆移除(NPK)、有机无机肥混施秸秆移除(1/2NPK+1/2OM)、有机肥秸秆移除(OM)、无机肥秸秆还田(NPK+S)、有机肥秸秆还田(OM+S)8种处理对土壤有机质及其组分含量的影响。结果表明,CK1土壤有机质及有机质各组分含量最低,但有机质稳定性较CK2、CK3高。与CK2相比,施肥处理(NPK、1/2NPK+1/2OM、OM)、秸秆还田处理(CK3)以及秸秆与肥料混施处理(NPK+S、OM+S)均能不同程度地增加土壤有机质及其各组分的含量,提高土壤有机质稳定性。其中OM处理效果最为显著,有机质含量比CK2高155.1%;有机质各组分中可溶性有机质DOM、富里酸FA、胡敏酸HA、胡敏素HM比CK2分别高39.1%、133.7%、540.0%、152.5%;HA/FA值为0.43,比CK2高173.9%。在CK3的基础上施用肥料(NPK+S、OM+S),土壤有机质含量以及有机质稳定性均有所增加,并且有机肥(OM+S)效果好于无机肥(NPK+S)。可见秸秆还田及有机肥施用对潮土有机质及其各组分含量均有提升作用,促进有机质积累并提高其稳定性。