浙江慈溪耕地土壤肥力变化研究

调查分析了慈溪市土壤肥力现状,并与第二次土壤普查(1981年)情况作了比较。表明慈溪市土壤有机质和碱解氮含量不高,速效磷较丰富,但存在着不平衡性,速效钾相对较低,特别是旱地土壤;滨海盐土和水稻土分别缺乏微量元素锌和硼;滨海盐土及部分设施栽培土壤的盐渍化威胁着作物生长。根据上述情况,提出了合理施肥及改良利用的建议。     

Water,Air, and Soil Pollution

Water, Air, & Soil Pollution -     

Mycorrhizas Mitigate Soil Replant Disease of Peach Through Regulating Root Exudates,Soil Microbial Population,and Soil Aggregate Stability

Soil replant disease is the main bottleneck interfering with tree growth of peach in soils with poor traits. A potted study was conducted to evaluate the effects of inoculation with an arbuscular mycorrhizal fungus (AMF), Acauloapora scrobiculata, on plant growth, mineral nutrients, soil enzyme activities, soil microbial populations, and root exudate compositions of peach (Prunus persica L. Batsch) seedlings grown in replant soil and non-replant soil. After 15 weeks in AMF inoculation, replant soil heavily inhibited root mycorrhizal colonization. In replant soil, AMF inoculation significantly increased shoot biomass and root phosphorus, potassium, calcium, copper, zinc, iron, and boron concentrations. Mycorrhizal peach seedlings showed a higher number of soil bacteria and total microbes but a lower number of soil fungi under replant conditions, as well higher soil urease and acid phosphatase activity and lower soil sucrase and catalase activity. Greater soil aggregate stability was observed in mycorrhiza-inoculated replant soil than in non-mycorrhizal soil due to the increase of water-stable aggregates in 2–4 mm and 1–2 mm size. In addition, a total of 92 substances were identified in root exudates, and the mycorrhizosphere had considerably more root exudate compositions. AMF inoculation had a significantly inhibitive effect on the relative abundance of allelochemical substances, including benzoic acid, benzaldehyde, diisooctyl phthalate, phenols, and sterols, while there was an increase in diphenyl-ethanedione and à-(benzoyloxy)-benzeneacetonitrile in replanted peach. It was concluded that AMF inoculation could partly mitigate soil replant disease of peach through modulating soil microbe balance, improving soil aggregate stability, and changing root exudate compositions.     

潮土、红壤和盐碱地障碍消减技术与产能提升模式研究进展

耕地质量建设是保障我国粮食安全的战略需求。我国中低产耕地亟需解决酸化、盐碱、贫瘠、生物功能衰减等问题,全面提升耕地产能。南京土壤研究所针对红壤、潮土、盐碱土等主要耕地土类,基于长期观测、研究和示范,明确了土壤质量演变规律和退化调控机制,发展了不同农区耕地质量培育理论和技术体系。针对潮土,阐明了有机质、团聚体和微生物联动的内稳性地力形成机制,研发了农田土壤和作物信息监测的传感设备,集成了厚沃耕层构建与大面积均衡增产模式。针对红壤,揭示了土壤酸缓冲性提升抑酸机制和关键微生物驱动养分转化机制,研发了抑酸抗酸协同技术和红壤大团聚体生物培肥技术,分类创建了江西省耕地生态培肥和产能提升模式。针对盐碱土,阐明了土壤水盐调控伴生氮素迁移转化过程,提出盐渍障碍消减与养分增效协同机理与调控技术,创新了滨海盐碱地和河套灌区次生盐渍化生态治理模式。未来研究重点在耕地质量调查与建设管理、耕地土壤障碍消减与产能提升、土壤健康管理与生态保护3个方面,突破土壤障碍消减技术瓶颈,研发系列调理剂和生物培肥产品,提升区域模式落地率,建立我国耕地质量提升和可持续利用的系统解决方案。     

论水土、水土生态与水土生态保持

在论述水土在陆地生态系统中的地位和作用的基础上,提出了水土生态的概念,认为植被与水土不可分割的整体观念是水土生态的重要特征。同时,对水土生态保持的含义作了新的定义,并将水土生态保持划分为四大类型,即生态型、自然型、生产型、建设型。从水土生态的高度,从源头上、要素的联系中去认识和防治水土流失,是一种主动的、有机的、整体的水土保持观念,是水土保持认识观的深化和发展,将使水土生态保持事业进入一个崭新的时代。     

黑土、潮土和红壤可溶性有机质的光谱特征及结构差异

为探究不同类型土壤可溶性有机质(DOM)含量和结构的差异性,选取黑土、潮土和红壤3种土壤的表层土壤(0～20 cm)为研究对象,提取其中的DOM,应用紫外–可见光谱、荧光光谱等技术,分析土壤中DOM的数量和光谱特征.结果显示:3种不同类型土壤中可溶性有机碳(DOC)含量及其与土壤有机碳(SOC)的比值(SOC/DOC)...     

Soil Respiration,Nitrification, and Denitrification in a Wheat Farmland Soil under Different Managements

A field experiment was conducted during the 2010 to 2011 winter wheat–growing season to understand the soil respiration (R_s ), nitrification, and denitrification rates in winter wheat farmland soil under no-tillage (NT) treatment with rice straw incorporation. The experimental treatments include NT, NT with rice straw covers on the surface (NTS), conventional tillage (CT), and CT with straw incorporation (CTS). No-tillage and straw incorporation treatments did not change the seasonal patterns of R_s , gross nitrification (Gn), and denitrification (D) rates compared with CT. Compared with the CT treatment, the NT, NTS, and CTS treatments significantly reduced R_s (P < 0.01), and the NT and NTS treatments significantly increased Gn and D (P < 0.01). CTS also significantly increased Gn (P < 0.01) but had no significant effect on D (P > 0.05). Further analysis showed that the temperature sensitivity of soil respiration (Q ₁₀) of CT, NT, NTS, and CTS were 4.26, 1.86, 3.25, and 2.36, respectively. Our findings suggest that, compared with CT, the NT and straw incorporation treatments reduced R_s and Q ₁₀ and increased Gn and D.     

松散土样和填装土柱及紧实程度对土壤有机碳矿化的影响

土壤有机碳（SOC）矿化一般通过培养松散土样来测定,但是松散土样与原状土的结构存在很大差异,二者之间SOC矿化的关系尚不明确;通过填装土柱可以获得接近田间状态的土壤样品,但填装的紧实程度会改变土壤孔隙结构,因此可能影响SOC矿化。本研究首先以施用不同量有机肥的红壤为研究对象,设置松散土样和填装土柱两个处理,采用室内培养法比较二者之间SOC矿化的差异;然后选择其中一种土壤填装土柱,设置四个紧实程度处理,分别为1.1（BD1.1）、1.3（BD1.3）、1.5（BD1.5）和1.7 g?cm-3（BD1.7）,利用X射线显微CT（Computed Tomography, CT）成像技术分析土壤孔隙结构,分析紧实程度对土壤孔隙结构及SOC矿化的影响。结果表明,松散土样与填装土柱的SOC矿化量有显著差异,培养结束时（第57天）,松散土样的有机碳累积矿化量约是填装土柱的4倍。紧实程度增加较大程度地降低了土壤的总孔隙度和大孔隙度,降低比例分别为12.9% ~ 17.4%和18.7% ~ 88.5%;并且使充气孔隙度从63.6%下降到了8.2%,而充水孔隙度从36.4%增加到了91.8%。填装土柱的SOC矿化量随紧实程度增加呈先增加后降低的趋势,培养结束时（第28天）,BD1.5的SOC矿化量最高。回归分析的结果表明,SOC矿化量与总孔隙度、大孔隙度（>16 μm）、充水孔隙度（Water-filled pore space, WFPS）或充气孔隙度（Air-filled pore space, AFPS）之间存在显著的非线性关系。当总孔隙度或大孔隙度低于46%或3.7%时,SOC矿化量随孔隙度增加而增加;反之,SOC矿化量随孔隙度增加而降低。SOC矿化量与WFPS或APFS之间的关系呈现出类似的规律,当WFPS为66%或AFPS为34%时,SOC矿化量最高。以上结果说明,通过培养松散土样测定SOC矿化将会高估田间SOC的矿化潜力;紧实程度的变化会改变土壤的孔隙结构进而影响填装土柱的SOC矿化;SOC矿化量与孔隙度之间存在显著的非线性关系。     

Predicting Liming Needs of Soybean Using Soil pH,Aluminum, and Manganese Soil Tests

Abstract

Whether a tropical soil should be limed or not for a particular crop is strongly dependent on the levels of soil aluminum (Al) which can be determined with soil tests. Soil pH is used to predict whether lime is needed in less‐weathered soils, although some evidence indicates a soil Al test would be more accurate. The objectives of this study were to determine and to compare the accuracies of four soil tests to separate soils requiring lime from those that do not, and to determine the cause of acid‐soil injury to soybean [Glycine max (L.) Merr.]. Soybean was grown in the greenhouse on four surface soils representing the major land resource areas of Louisiana and were amended with eight rates of lime, yields determined, and soils analyzed for soil pH, extractable Al, CaCl₂‐extractable Al, CaCl₂‐extractable manganese (Mn), and Al saturation. Acid‐soil injury in soybean grown on the Litro clay and Stough fsl was probably caused by soil‐Al effects while low soil calcium (Ca) and high soil Mn was likely responsible for lower yields from the Mahan fsl. Leaf Ca from the limed Mahan‐soil treatment was 5‐fold greater and leaf‐Mn 7‐fold less than control levels. Regression analyses’ R² values were similar for all soil tests except for CaCl₂‐extractable Mn, which was lower. Soil tests were compared across soil type by selecting treatments that had the same 85% relative yield. Using this data subset, there was no difference in the soil pH among the four soils, while there were significant differences among soils for all other soil test measurements indicating the superiority of soil pH for identifying acid‐soil injury. Critical test values were 5.1 soil pH, 30 mg kg^‐1 extractable Al, 7% Al saturation, 0.7 mg‐kg^‐1 CaCl₂‐extractable Al, and 9 mg‐kg^‐1 CaCl₂‐extractable Mn.     

Soil Fertility Index,Soil Evaluation Factor,and Microbial Indices under Different Land Uses in Acidic Soil of Humid Subtropical India

A study was conducted to examine the impact of land use on soil fertility in an Entisol in the Jalpaiguri District of humid subtropical India. The natural forest served as a control against which changes in soil properties were compared. Soil samples were collected from four different depths (0–25, 25–50, 50–75, and 75–100 cm) of soil from four land uses (viz. forest, home garden, arecanut plantation, and agriculture) and examined for pH, organic carbon (OC), electrical conductivity (EC), cation exchange capacity, available nitrogen (N), phosphorus (P), exchangeable calcium (Ca), magnesium (Mg), potassium (K), aluminum (Al), microbial biomass carbon (MBC), microbial biomass nitrogen (MBN) and dehydrogenase activity (DHA). Soil pH (5.7), OC (2.29%), N (386 kg ha^?1), and P (22.54 kg ha^?1) were greatest in forest soil, followed by soil from arecanut plantation, agriculture, and home garden. The greatest Ca (0.892 cmol kg^?1), Mg (0.527 cmol kg^?1), and Al (1.86 cmol kg^?1) were found in the arecanut plantation, whereas K (0.211 cmol kg^?1) was greatest in forest. The greatest content of diethylenetriaminepentaacetic acid–extractable copper, zinc, manganese, and iron (2.25, 1.66, 4.86, and 7.65 ppm, respectively) were found in forest. MBC (558 mg kg^?1), MBN (26.67 mg kg^?1), and DHA (33.03 μg TPF 24 h^?1 g^?1) was greatest in forest soil. Soil fertility index varied from 13.13 in arecanut plantation to 18.49 in forest. The soil evaluation factor ranged from 5.32 in agriculture to 6.56 in forest. Pearson's correlation matrix revealed strongly significant positive correlation of soil fertility index and soil evaluation factor with soil properties.     

腐植酸土壤调理剂对酸化果园土壤理化性状及苹果产量和品质的影响

为研究不同类型土壤调理剂对酸化果园土壤的改良效果,本试验采用普通土壤调理剂和腐植酸土壤调理剂,设置普通土壤调理剂+常规施肥、腐植酸土壤调理剂+常规施肥、腐植酸土壤调理剂减量15%+常规施肥和等养分肥料+常规施肥4个处理,在胶东酸化果园进行了为期两年的试验。结果表明:施用2种土壤调理剂均能改善酸化土壤的理化性状。在土壤物理性状方面,与普通土壤调理剂相比,施用腐植酸土壤调理剂的土壤容重降低2.72%～4.76%,粉粒含量增加3.12%～5.28%,孔隙度提高1.74%～3.54%;在土壤化学性状方面,施用腐植酸土壤调理剂的土壤速效钾含量增加3.74%～10.57%,pH提高0.07～0.45个单位。施用2种土壤调理剂均能提高苹果产量,相比于普通土壤调理剂,施用全量腐植酸土壤调理剂可增产4.84%,减量15%施用仍增产2.87%,而二者间差异未达显著性水平。此外,连续两年施用腐植酸土壤调理剂可以改善苹果的品质,其中总糖含量提高9.35%～15.46%,糖酸比提高21.84%～46.58%。综上,胶东酸化果园(pH4.5)在常规施肥下配施腐植酸土壤调理剂1 275 kg/hm2可作为短期内改良酸化土壤、提高苹果产量和品质的有效途径。     

旱地土壤矿质氮和可矿化氮与土壤供氮能力的关系

在具有典型半干旱气候特征的陕西永寿选取22个不同肥力水平的田块,分层采集0－100cm土样,研究矿质氮、可矿化氮和土壤供氮能力之间的关系。结果表明,NH4－M与可矿化氮之间没有明显关系;15－80cmNO3－N与各层可矿化氮显著相关,0－15cm和80－100cmNO3－N与之大多相关不显著。通径分析表明,30－45cm的可矿化氮和NO3－N对作物吸氮量的直接贡献最大（后者稍低于前者）;其次是60－80cm的NO3－No0-100cmNO3-N总的直接和间接贡献均大于可矿化氮。作为土壤供氮指标,0－45cm可矿化氮和0-100cmNO3-N都可靠,尤以后者效果更好。     

Importance of Soil Fertility,Soil Sampling,and Fertilizer Recommendations in the Inland Pacific Northwest

This study documents the importance of soil fertility in the dryland farming areas of Idaho, Oregon, and Washington. Mail-based surveys conducted in 1981, 1996, and 2011 were used to document the importance placed on soil fertility by farmers. The significant findings of the 2011 survey were (1) more than 62% of the growers attributed more than 50% of their annual crop yield to soil fertility; (2) soil samples were collected at least once in a crop rotation on 91.6% of farms; (3) 31.8% of growers took their own soil samples, whereas fertilizer dealers took 62.8% of the samples; and (4) 54% of growers made their own fertilizer recommendations. Compared to the 1981 survey results, in 2011 farmers were more likely to (1) attribute more of their yields to soil fertility; (2) have their fields soil sampled; (3) collect their own soil samples; and (4) make their own fertilizer recommendations.     

Variability on Yield,Nutritional Status,Soil Fertility,and Potassium-Use Efficiency by Soybean Cultivar in Acidic Soil

The use of cultivar with nutrient-use efficiency is an important strategy in the management of plant nutritional status, particularly potassium (K), because its high demand and the progressive impoverishment caused by the use of inadequate amounts cause frequent deficiency symptoms observed in soybean [Glycine max (L.) Merrill] crops. This study was conducted in greenhouse conditions in a completely randomized design with four replicates in an Typic Quartzipsamment soil aimed to assess the effect of applying two rates of K (50 and 200 mg kg^?1) on growth, shoot dry weight yield (SDWY) and seed yield (SY), nutritional status, yield components, and efficiency of K use in eleven cultivars of different characteristics and growth habits. The SDWY, SY, number of seeds per pod, number of pods, and estimated 100-seed weight showed significant interaction between cultivar and the K rates, with greater values at the rate 200 mg K kg^?1. Similarly, the concentration of nitrogen (N), phosphorus (P), K, calcium (Ca), magnesium (Mg), sulfur (S), boron (B), copper (Cu), iron (Fe), manganese (Mn), and zinc (Zn) in leaves and grains varied according to the K rates and in the cultivar. The most K-use efficient cultivars were BMX Magna RR, BRS 232, BRS 284, BRS 294RR, NA 5909RR, and Vmax RR, whereas FTS Campo Mourão RR was inefficient. Regarding response to fertilization, the cultivars Vmax RR, BMX Magna RR, NA 5909RR, BRS 284, and BRS 294RR were found to be efficient and responsive, whereas the cultivar FTS Campo Mourão RR, BRS 232, BMX Potência RR, BRS 295RR, TMG 1066RR, and TMG 1067RR are inefficient and responsive to K application in the soil.     

Chemical Fractions of Phosphorus: The Effect of Soil Orders,Soil Properties,and Land Use

Low availability of phosphorus (P) in Turkish soils is a significant problem of agricultural production depending on carbonates in slightly weathered and iron/aluminum oxides in highly weathered soils. Thus, crop-based P fertilization along with inherited nature of P partition can lead to changes in the amounts and geochemical fractions of phosphorus. For this reason, horizon-based surface samples were taken from 16 soil series that belong to four orders with different pedotransfer functions. The geochemical phosphorus fractions were sequentially extracted by sodium bicarbonate (NaHCO₃), sodium hydroxide (NaOH), citrate-dithionite-bicarbonate buffer system (CBD), hydrochloric acid (HCl), and aqua-regia. Results indicated that weathering sequence was inversely related to plant available P fractions. The fertilizer P was possibly converted to HCl-extractable (Ca-Pi) fraction in calcareous soils through NaOH-Po and NaHCO₃-Po fractions whereas it accumulated in the CBD-P fraction in relatively weathered soils. The carbonates and Al/Fe oxides were most significant constituents in P partitioning as consequences of parent material and weathering chronosequence.     

Soil Hydrology of Agricultural Landscapes: Quantitative Description,Research Methods,and Availability of Soil Water

Eurasian Soil Science - Soil hydrology has deep Russian roots, which are primarily related to the theory of soil hydrological constants and their practical application. These constants have been...     

不同植被类型对土壤微生物量碳氮及土壤呼吸的影响

对四种植被类型下土壤微生物量碳、氮、土壤呼吸速率以及代谢熵的研究,结果表明,土壤微生物量碳、氮以及土壤呼吸在四种植被类型间差异显著,而土壤微生物代谢熵之间差异不明显。且不同植被演替阶段土壤微生物量碳、氮从初级阶段到次生林阶段逐步增大,从次生林到成熟林阶段明显减小;土壤呼吸随着植被的正向演替,呼吸速率逐渐增强;四种植被类型间土壤微生物代谢熵在次生林中最低,为0.44mgg-1h-1,万熟林地中最高,为1.01mgg-1h-1,表明土壤微生物对土壤碳的利用效率次生林较高,成熟林地较低。