长期不同施肥模式下砂姜黑土的固碳效应分析

以安徽淮北32 a的定位试验为平台,运用土壤等质量方法对土壤耕层的固碳效应进行了研究。结果表明,较不施肥和单施化肥,施用有机肥显著降低了表层土壤容重。长期施用有机肥和单施化肥均对提高土壤有机质和活性有机质含量有显著作用,但以高量有机肥和化肥配施的效果最明显。土壤碳库管理指数以有机肥和化肥配施的效果显著,而长期单施化肥降低了土壤碳库管理指数,表明化肥长期施用下土壤肥力下降。0~20 cm土层的有机碳储量有机肥化肥配施的最高,其次为单施有机肥、单施化肥,不施肥最低。有机肥有助于提高土壤质量,且有机肥和化学氮肥分别以高于N262.5 kg hm-2 a-1配施的效果最佳。     

有机和常规生产施肥方式对棕壤微生物生物量和酶活性的影响

以棕壤为研究对象,设不施肥(CK)、单施化肥(F)、化肥与有机肥1∶3配施(F1M3)、化肥与有机肥3∶1配施(F3M1)、单施有机肥(M)共5个处理,探讨有机和常规生产施肥方式对土壤微生物量碳(SMBC)、微生物量氮(SMBN)、微生物量磷(SMBP)和土壤脲酶、过氧化氢酶、蔗糖酶、中性磷酸酶活性的影响。结果表明:与不施肥相比,施肥使SMBC/N有不同程度的降低,单施化肥使SMBC、SMBN、SMBP均有明显降低,脲酶和过氧化氢酶活性下降,中性磷酸酶活性升高;有机生产施肥方式能提高土壤微生物量含量,SMBC表现为单施有机肥>有机无机配施>单施化肥,SMBN和SMBP表现为F1M3>M>F3M1>F;有机肥对蔗糖酶活性影响不大,单施有机肥抑制中性磷酸酶活性;土壤蔗糖酶、过氧化氢酶、中性磷酸酶活性与微生物量碳氮磷有明显相关性。土壤微生物学指标可以有效区分单施化肥的常规生产和单施有机肥的有机生产,SMBC可响应有机生产过程中是否施用过化肥。     

黄土旱塬长期施肥对小麦连作土壤养分和水分的影响

利用长期定位实验,在黄土高原旱地研究不同施肥下小麦连作22年后土壤养分及水分的变化状况,为合理利用水肥资源提供参考.在对照(CK)、单施氮肥(N)、单施磷肥(P)、单施有机肥(M)、氮磷化肥配施(NP)、氮磷化肥与有机肥配施( NPM)6个不同长期施肥处理中,测定耕层(0～20 cm)土壤的基础养分和土壤剖面(0～30...     

长期有机无机配施对暗棕壤土壤酶活性及春麦产量品质的影响

根据 41年长期施肥试验结果,研究有机无机配施对暗棕壤土壤肥力、春麦籽粒产量和品质的影响,探讨有机无机配施条件下土壤酶活性与作物产量、品质之间的内在关系,为建立科学合理的有机无机配施技术体系提供理论依据。长期定位试验于 1979年开展,位于黑龙江省黑河市农科院内,土壤类型为暗棕壤。设对照、低量化肥、中量化肥、高量化肥、有机肥、有机肥 +中量化肥 6个处理,于 2019年 8月采集土壤样品(0～ 20 cm)和小麦籽粒样品,测定分析了 5种土壤水解酶,即 β-葡萄糖苷酶、β-纤维二糖苷酶、乙酰氨基葡萄糖苷酶、酸性磷酸酶和亮氨酸氨基肽酶活性,研究暗棕壤酶活性、小麦籽粒产量和品质的变化规律,并进行相关性分析。研究结果表明:1)各处理相比较,单施有机肥、有机肥配施中量化肥 2个处理均显著提高了土壤 β-葡萄糖苷酶、β-纤维二糖苷酶、乙酰氨基葡萄糖苷酶、酸性磷酸酶和亮氨酸氨基肽酶活性,有机肥配施中量化肥处理较单施中量化肥处理土壤酶活性提高了 21.04%～ 95.74%。2)不同施肥处理小麦籽粒产量差异显著,各施肥处理小麦产量较对照增加了 6.93%～ 111.03%,以单施高量化肥、有机肥配施中量化肥 2个处理增产比例最高。3)小麦籽粒品质、面粉品质和面团品质均表现出一致性的规律,有机肥配施化肥处理的小麦综合品质均显著高于单施化肥处理。4)土壤酶活性与小麦籽粒品质、面粉品质和面团品质之间存在显著或极显著正相关关系,与小麦产量间呈正相关,但不显著。不同施肥处理下土壤酶活性、小麦产量和品质均存在显著差异,有机肥配施中量化肥处理对提高土壤酶活性、小麦产量和品质有明显的作用,有机肥与化肥的合理配施是提高土壤肥力并保障作物产量和品质的重要措施。     

有机肥与化肥长期配施对作物产量和灌漠土养分库的影响

根据河西走廊灌漠土上连续27 a的长期定位试验数据,研究了河西绿洲区灌漠土有机肥和化肥长期配施对作物产量和土壤养分库的影响。结果表明,有机肥与化肥长期配施增加了作物产量和产量的稳定性;7种施肥方式(单施氮、NP配施、NPK配施、单施有机肥、有机肥+N、有机肥+NP、有机肥+NPK)中,以有机肥与NP或NPK肥配施效果为最佳。长期有机肥和化肥配施增加了N,P,K养分投入量、养分携出量和盈余量;有机肥与化肥配施21~25 a后,土壤有机质、全氮和全磷含量分别提高了10.0%~16.0%,58.1%~69.0%和13.4%~31.1%,速效氮、速效磷和速效钾含量分别提高了45.7%~79.0%,172.2%~287.8%和21.4%~38.8%,均显著高于对照和单施化肥处理;有机肥与化肥配施处理中,以有机肥与NPK肥配施改善土壤肥力的效果最理想。     

长期有机无机配施下烤烟-玉米轮作优化土壤微生物活化无机磷

采集遵义市15年长期施肥定位试验的土壤,包括撂荒地（对照）、烤烟连作—单施化肥、烤烟连作—化肥有机肥配施、烤烟玉米轮作—单施化肥和烤烟玉米轮作—化肥有机肥配施等处理,通过土壤悬浊液与培养液混合培养技术、微生物高通量测序及常规分析,研究长期施肥对土壤无机磷活化的影响。结果表明,烤烟玉米轮作、施用有机肥和撂荒地的土壤可培养微生物（细菌、真菌、放线菌和无机磷细菌）数量增多,种群多样性增加,说明土壤生态环境改善。将土壤悬浊液接种至微生物培养液中,培养期间混合液中的有效磷含量以烤烟玉米轮作高于烤烟连作,化肥有机肥配施和撂荒地高于单施化肥,其中以烤烟玉米轮作—化肥有机肥配施最高,烤烟连作—单施化肥最低,说明合理种植和科学施肥有益于土壤无机磷的活化,在遵义烟区提倡烤烟玉米轮作—化肥有机肥配施很有必要。在混合液中,氢离子与溶解钙磷、有机酸与溶解铁磷和铝磷显著相关。与溶磷微生物的纯培养技术相比,土壤悬浊液培养既能反映微生物的溶磷特征,又更接近土壤微生物菌群复杂的溶磷状况。在供试土壤微生物中,存在柠檬酸合酶、蛋白葡萄糖脱氢酶和苹果酸合酶等的合成通路,处理间的差异可从分子生物学角度解释合理轮作和化肥有机肥配...     

砂姜黑土长期定位培肥技术研究

根据20年定位试验资料,阐述了有机肥与化肥配施、单施有机肥、单施化肥及不施肥等五种施肥方式对作物产量和土壤肥力的影响。两季作物的总产量以有机肥与化肥配施处理最高,较单施有机肥和单施化肥分别增产18.4%～36.1%和7.4%～23.4%。有机肥与化肥配合,能显著增加土壤有机质、全氮、全磷、有效氮、磷的含量。每kg氮素增产粮食数也以等量的有机肥与化肥配施的处理最多。有机肥加化肥是砂姜黑土培肥改良较理想的施肥方式,但同时必须重视钾肥的施用。     

长期施肥砂姜黑土微生物学特征差异及评价

【目的】作为安徽省主要中低产土壤类型之一,砂姜黑土不良属性严重制约旱地粮食作物稳产增产,因此本研究利用长期定位试验研究砂姜黑土微生物特征对不同施肥模式的响应,为改善砂姜黑土生态功能、提高地力可持续性等提供理论依据。【方法】基于安徽省杨柳长期定位试验(始于1981年),研究5种施肥模式不施肥(CK)、单施化肥(NPK)、单施有机肥(M)、有机肥与化肥配施(等氮)(MNPK)、有机肥与化肥配施(高氮)(HMNPK)砂姜黑土耕层土壤可培养微生物数量、微生物生物量及酶活性等微生物学性状的变化规律,并通过主成分分析方法对不同施肥模式下的土壤微生态进行综合评价。【结果】与不施肥相比,长期施用有机肥(M、MNPK和HMNPK)可显著增加土壤微生物总数量(15.68~22.80倍),尤其是细菌和放线菌数量二者分别于M、MNPK处理达最高值(30.50×10~5cfu/g和15.50×10~4 cfu/g);长期单施有机肥对土壤真菌有明显抑制作用,单施化肥有利于土壤真菌数量的增加。施用有机肥(M、MNPK和HMNPK)可有效增加土壤微生物生物量碳、氮含量,其中MNPK处理微生物量碳含量增幅最高,达119.74%但与M、HMNPK处理差异不明显,微生物量氮含量增幅达88.46%,显著高于M、HMNPK处理;长期单施化肥仅对微生物量碳含量有提增作用(38.87%)对微生物量氮作用不明显,其对微生物量碳的提增作用显著低于其他施肥处理。长期单施有机肥可显著提高土壤脲酶与转化酶活性,抑制磷酸酶活性,长期单施化肥的作用则相反。用主成分分析方法将9个生物指标降维提取出2个主成分,第一主成分以细菌、放线菌、微生物量碳、微生物量氮、脲酶和转化酶为主要影响因子,第二主成分以为真菌、酸性和中性磷酸酶为主要影响因子分别代表了与碳、氮和磷循环密切相关微生物影响因子。通过综合得分把不同施肥模式下砂姜黑土微生物生态划分为3个等级,一等包括长期有机肥与化肥配施(等氮与高氮),二等包括长期单施有机肥,三等为长期单施化肥与不施肥。【结论】通过综合评价可得砂姜黑土的微生物生态状况在长期有机肥与化肥配施条件下最佳单施有机肥次之而长期单施化肥与不施肥的较差。     

不同有机肥与化肥配施对氮素利用率和土壤肥力的影响

【目的】不同类型畜禽粪便有机肥在成分和性质上存在明显差异，本文研究了华北地区主要有机肥与化肥以不同比例配施后，对作物氮素吸收利用及土壤养分的影响，以期为本地区有机肥的科学利用提供理论依据和数据支撑。【方法】在华北平原冬小麦–夏玉米种植区进行田间试验。以推荐养分施用量 (每季作物N 225 kg/hm2) 为基础，设置了1个常规单施化肥处理 (CF)，12个鸡粪、猪粪和牛粪氮分别与化肥氮配比处理 (有机肥氮素占比25%、50%、75%、100%)，化肥及3种有机肥的加倍单施处理，同时设1个不施肥处理为对照，共18个处理。分析了作物的氮素吸收量、氮素利用效率，测定了0—20、20—40 cm土层土壤氮、磷、钾含量。【结果】常规施肥量下，单施鸡粪、猪粪、牛粪处理的氮素收获指数 (NHI) 均与化肥处理相当，平均为79.06%；单施牛粪处理的氮素生理利用率 (NPE) 为64.42 kg/kg，显著高于化肥处理；而单施鸡粪、猪粪处理的NPE与化肥处理相当，平均为55.14 kg/kg。与常规施肥量相比，加倍施用鸡粪、猪粪和化肥处理的显著降低NHI值和NPE值，而加倍牛粪处理的NHI与NPE值没有降低。牛粪、鸡粪、猪粪与化肥配施的处理间NHI与NPE值均未表现出显著性差异，且与单施化肥的处理相当。常规施氮量下，单施猪粪、鸡粪处理的氮素偏生产力 (PFP) 和回收率 (NRE) 接近，均值为分别39.67 kg/kg和41.85%，达到了单施化肥处理的水平，而牛粪处理的氮素PFP以及NRE仅为29.08 kg/kg和15.6%，显著低于化肥、鸡粪和猪粪处理。与常规施氮量相比，加倍施用牛粪、鸡粪、猪粪和化肥处理的氮素的PFP值平均降低了49.1%，氮肥NRE值平均降低了23.2%。牛粪、鸡粪、猪粪与化肥各配施比例处理的氮素PFP和NRE值均达到了单施化肥的水平。与单施化肥相比，单施有机肥以及有机无机配施没有明显提高土壤全氮含量，但显著提高有效磷和速效钾含量，单施鸡粪、猪粪处理土壤表层有效磷含量分别是单施化肥处理的5.82和7.06倍。【结论】推荐施肥量下，鸡粪或猪粪单独施用或配施少量化肥氮，牛粪配施75%左右的化肥氮可实现与化肥相当的氮素利用效率，同时提升土壤肥力。在实际生产中应根据有机肥特性调节有机肥与化肥配施比例，实现有机肥的科学利用。     

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。     

Bodengefüge gegen Verdichtungen schützen – Lösungsansätze für den Schutz landwirtschaftlich genutzter Böden

Protecting soil structure against compaction—proposed solutions to safeguard agricultural soils To safeguard the ecological soil functions and the functions linked to human activities, measures against harmful changes to the soil are required, in line with the precautionary principle. The German Federal Soil Protection Act sets obligations for precaution in agricultural land use and, if harmful changes to the soil are foreseeable, measures for averting a danger. The results of a research project of the Federal Environmental Agency show that it is possible to describe an impairment of the soil structure, using methods of soil analysis. But this as a sole information would not qualify for the identification of harmful changes to the soil in the context of the Soil Protection Act, which requires an assessment of the severity of disruption of soil functions and the respective subject of protection. This would make additional soil investigations on site mandatory. Approaches in agricultural engineering and soil physics have introduced procedures to preserve the soil structure, in accordance with the precautionary principle. But these procedures have different goals and different ranges of application and hence offer partial solutions to safeguard against soil compaction. The assessment model of “trafficability by measuring the rut depth” provides information about the compaction status of the soil under applied conditions for farming gear, without providing detailed information about affected soil layers. The soil‐physical model of classifying soils into “risk classes for harmful soil compaction” focuses on the relationship between topsoil compaction and crop yields. The soil‐physical models “precompression stress” and “loading ratio” provide information for the assessment of subsoil compaction and a prognosis of a possible impairment of the soil structure at the water content of field capacity. It is necessary to validate the individual models with additional regional data about soil structure before a final assessment of the prognoses is made.     

Soil Erodibility and Physicochemical Properties of Collapsing Gully Alluvial Fans in Southern China

In southern China, collapsing gully erosion produces massive deposits of sediment on the plough layer of alluvial fan farmland, leading to reduced nutrients, increased erodibility, and even desertification. The aim of this study was to investigate soil erodibility (the factor K in the universal Soil Loss Equation, USLE) and physicochemical properties of the alluvial fans of the most severe collapsing gully erosion areas (Hubei, Jiangxi, Fujian, and Guangdong provinces) in southern China. The soils of the collapsing gully alluvial fans had a higher bulk density, but a lower total porosity, saturated water content, and silt and clay fractions than the control (CK) soils from the farmland without desertification. Soil quality gradually decreased from fan edge to fanhead. Significant decreases were found in soil pH, organic matter, cation exchange capacity, and total potassium, nitrogen, and phosphorus, as well as available nitrogen, phosphorus, and potassium, resulting in a gradual decrease in soil nutrients from the fanedge to the fanhead. Soil erodibility was greatest in the fanhead, and soil erodibility K values of the alluvial fans were 53.71%, 66.28%, 67.53%, and 71.68 % greater than that in those of the CK soils of Hubei, Jiangxi, Fujian, and Guangdong, respectively, indicating a significant correlation between the soil erodibility K values and physicochemical properties, particularly sand fraction and organic matter content. The results provide new insights into the relationship between soil physicochemical properties and erodibility of alluvial fans, and suggest that improving soil structure might increase soil fertility in the collapsing gully alluvial fan farmland.     

Soil health – What should the doctor order?

The concept of soil health has been extensively reviewed in the scientific literature, but there is only patchy and inconsistent information available to farmers and growers who are concerned about the declining condition of their soils and are looking for appropriate test methods and management interventions to help reverse it. Although there are well‐established laboratory methods for soil chemical analysis, and a range of laboratory and field methods for measuring soil physical properties, only now are methods starting to emerge for soil biological analysis. This study provides an overview of the methods that are currently available commercially (or are close to commercialization) for farmers and growers in the UK. We examine the science underpinning the methods, the value of the information provided and how farmers and advisors can use results from such assessments for informed decision‐making in relation to soil management.     

土壤孔隙结构与土壤微环境和有机碳周转关系的研究进展

土壤结构是土壤功能的基础,不仅影响土壤养分的供应、水分的保持及渗透、气体的交换等过程,还为土壤微生物提供了物理生境,并调控土壤有机碳的周转这一关键过程。土壤的孔隙特征能够直接、真实地反映土壤结构的好坏;用土壤的孔隙特征作为试验指标能更好地反映土壤结构对这些过程的调节作用。在此基础上,将高度异质性的土壤孔隙结构同土壤微环境的变化和土壤有机碳的周转过程进行定量分析,对深入了解土壤结构在土壤生态系统中的功能至关重要。因此,着重从土壤孔隙结构对土壤微环境的影响及其与有机碳的关系两方面展开,剖析土壤孔隙结构调控作用下的土壤微环境响应过程,阐述土壤孔隙结构对土壤有机碳周转产生的直接、间接影响,强调土壤孔隙结构在调节土壤有机碳周转进程中的重要作用,并对土壤孔隙结构在调节土壤有机碳周转、植物残体分解及其与微生物协调作用机制等方面研究提出展望。     

土壤因子研究综述

介绍了国内外土壤因子的研究方法及研究成果,指出我国目前土壤因子研究中存在的问题,并结合我国土壤因子研究现状,认为继续土壤水蚀机理的研究是今后土壤因子研究的内容之一,同时,随着GIS和RS技术发展,应用GIS和RS技术研究区域土壤因子也将成为潮流。     

金沙江干热峡谷中退化的土壤生态系统生物学特征初探

Distribution characteristics of soil animals,microorganisms and enzymatic activity were studied in the dry red soil and Vertisol ecosystems with different degradation degrees in the Yuanmou dry hot valley of the Jinsha River,China.Results showed that Hymenoptera,Araneae and Collembola were the dominant groups of soil animals in the polts studied.The numbers of groups and individuals and density of soil animals in the dry red soil series were higher than those in the Vertisol series,and the numbers of individuals and density of soil animals decreased with the degree of soil degradation.Bacteria dominated microbiococnosis not only in the dry red soils but also in the Vertisols.Microbial numbers of the dry red soil series were higher than those of Vertisol series,and decreased with the degree of soil degradation.The activities of catalase,invertase,urease and alkaline phosphatase declined with the degradation degree and showed a significant decline with depth in the profiles of both the dry red soils and the Vertisols,but activities of polyphenol oxidase and acid and neutral phosphatase showed the same tendencies only in the Vertisols.It was concluded that the characteristics of soil animals,microorganisms and enzymatic activity could be used as the bio-indicators to show the degradation degree of the dry red soils and Vertisols.Correlation among these soil bio-indicators was highly significant.     

长期化肥有机替代对黑土颜色及腐殖物质的影响

基于30年长期定位试验,通过测定黑土光谱反射率和不同腐殖质组分含量,探究了不同施肥对黑土土壤腐殖质含量、土壤颜色及二者之间的关系。试验设置5个处理:(1)休耕(Fallow);(2)不施肥处理(CK);(3)单施化肥(NPK);(4)有机肥部分替代化肥(NPKM);(5)秸秆部分替代化肥处理(NPKS)。结果表明:与NPK处理相比,Fallow、NPKS、NPKM分别显著提高49.7%,74.3%,27.0%的土壤有机碳含量(p<0.05)。NPKM处理中胡敏酸(HA)含量最高为3.9 g/kg,随后依次为CK、NPKS、NPK、Fallow。NPKM、NPKS和Fallow处理中土壤富里酸(FA)含量为2.2~2.3 g/kg,显著高于NPK和CK。NPKM处理中胡敏素(HM)含量为18.6 g/kg,显著高于其他处理(p<0.05)。不同处理间土壤光谱反射率由高到低依次为NPK>Fallow、CK>NPKS>NPKM,与CK处理相比,NPK土壤光谱反射率在平均提高6.5%,NPKS和NPKM则分别降低11.1%和15.1%。根据线性相关分析结果,黑土土壤光谱反射率与土壤HAHM均呈显著负相关关系(p<0.01),相关系数(r)分别为-0.858,-0.681。综合上述结果,长期有机物料投入可以显著提高黑土腐殖物质含量,降低黑土光谱反射率,使黑土颜色加深,而长期化肥施入则使黑土光谱反射率提高,出现"褪色"现象,有机粪肥在黑土中对土壤有机质和腐殖质含量的提升效果优于秸秆。     

土壤润湿性受土壤特性及土地使用的影响

Depth distribution of soil wettability and its correlations with vegetation type, soil texture, and pH were investigated under various land use (cropland, grassland, and forestland) and soil management systems. Wettability was evaluated by contact angle with the Wilhelmy plate method. Water repellency was likely to be present under permanently vegetated land, but less common on tilled agricultural land. It was mostly prevalent in the topsoil, especially in coarse-textured soils, and decreased in the subsoil. However, the depth dependency of wettability could not be derived from the investigated wide range of soils. The correlation and multiple regression analysis revealed that the wettability in repellent soils was affected more by soil organic carbon (SOC) than by soil texture and pH, whereas in wettable soils, soil texture and pH were more effective than SOC. Furthermore, the quality of SOC seemed to be more important in determining wettability than its quantity, as proofed by stronger hydrophobicity under coniferous than under deciduous forestland. Soil management had a minor effect on wettability if conventional and conservation tillage or different grazing intensities were considered.     

设施栽培下原状土与扰动土水分特性的试验研究

以四川省双流县设施栽培土壤为研究对象,对其原状土与扰动土的土壤水分特征曲线、水分物理性质和比水容量等项目进行了研究。结果表明,扰动土水分特征曲线总体变化趋势与原状土较为一致。在低吸力阶段,相同吸力条件下扰动土含水量高于原状土,在高吸力阶段两者差异较小。扰动土毛管孔隙度、总孔度和凋萎含水量在剖面上的总体变化趋势与原状土较为一致。扰动土不同土层田间持水量和有效水含量差异较小,原状土的田间持水量和有效水含量均随土层加深而减少。在低吸力阶段,相同吸力条件下扰动土比水容量远高于原状土,但随土壤水吸力增加,扰动土比水容量变化趋势逐渐与原状土一致。