有机无机肥配施比例对蔬菜产量和品质及土壤重金属含量的影响

关于蔬菜施有机肥和它与无机肥的合理配施比例,对蔬菜的产量和品质有重要影响,对土壤有机质和重金属含量也有影响。为控制施禽畜粪类有机肥对蔬菜的负面影响,探讨蔬菜的合理施用量和有机/无机肥配施比例,在不同质地的土壤上进行田间试验。结果表明,(1)施过量禽畜粪类有机肥对试验蔬菜产量和品质都会产生不良影响,小白菜(Brassica chinensis)和茄子(Eggplant)施禽畜粪超过22500kg/hm2、马铃薯(Solanum tuberosum L.)超过24000kg/hm2时,其产量不再增加,成活率下降,维生素C含量下降,多个试验均表现出有机肥用量增加而小白菜硝酸盐随之增加的典型特征;同时不论土壤的质地轻重,蔬菜重金属Pb有随禽畜粪用量增加而提高的趋势;在质地较轻的土壤上,蔬菜重金属Cd、As有随禽畜粪用量增加而提高的趋势;小白菜施禽畜粪肥超过7500kg/hm2、茄子和冬种马铃薯施禽畜粪肥超过75000kg/hm2,收获后土壤重金属含量高于对照和施无机肥的总Cr和As。(2)蔬菜单独施用有机肥的合适施用量,小白菜在较粘重的土壤上可施到22500kg/hm2,但有机肥与无机肥配合施用时有机肥用量可减量;茄子合适施用量应在22500kg/hm2左右;冬种马铃薯合适施用量应在24000kg/hm2左右。(3)蔬菜的有机/无机肥合理配比,小白菜、茄子、和冬种马铃薯施肥的有机氮与无机氮之比均为0.25∶1至0.5∶1时其产量和品质水平较佳。     

长期施肥对水稻土酶活性及理化特性的影响

为了明确不同施肥种类对水稻土土壤肥力与酶活性的影响,以30年（1981年至今）长期定位试验地为基础,研究不同施肥处理（CK,N,P,K,NPK,2倍NPK,NPK＋猪粪）水稻田耕层（0-20cm）土壤酶活性与养分的变化趋势及其相关性。结果表明：1）施P（配施或单施）增加土壤全P、速效P含量,平衡施肥配施有机肥（NPK＋猪粪处理）土壤的有机质、全P、速效P、全N、速效N均显著增加,所有施肥处理间pH值差异均不显著;2）除了NPK处理土壤脲酶活性最高外,平衡施肥配施有机肥土壤转化酶、酸性磷酸酶、过氧化氢酶活性均较其他处理显著增加;3）酸性磷酸酶活性与土壤全P量呈负相关,过氧化氢酶、脲酶、转化酶与全N、有机质、速效N、速效P呈显著或极显著正相关;因此,水田土壤长期平衡施肥配施有机肥,能显著提高土壤肥力,增加土壤酶活性,有益于土壤生产力的持续提高。     

有机物料与~(32)P标记过磷酸钙混合施用对磷有效性的影响

本试验利用~(32)P示踪法研究赤红壤上两种有机物料与过磷酸钙混合施用对磷有效性的影响。盆栽试验表明,纸厂废料蔗渣或猪粪与磷肥混合施用比磷肥单独施用更有利于提高格拉姆柱花草的含磷量和总吸磷量。单位施磷量引起的土壤有效磷和植株吸磷量的增加量也是有机物料单施或与磷肥混施高于磷肥单施。在前39d,~(32)P标记过磷酸钙的利用率在单独施用时为2.14％,比混合施用高一倍左右;在80d时,混合施用的磷利用率较快提高,蔗渣与磷肥混施处理超过单独施用,达22.88％。     

The effects of compost prepared from waste material of banana on the growth, yield and quality properties of banana plants

Three doses (15-30-45 kg plant(-1)) of the compost prepared from the clone of Dwarf cavendish banana were compared with farmyard manure (50 kg plant(-1)), mineral fertilizers (180 g N+ 150 g P +335 g K plant(-1)) and farmyard manure+ mineral fertilizers (25 kg FM+ 180 g N+ 150 g P +335 g K plant(-1)) which determined positive effects on the growth, yield and fruit quality characteristics of banana plants. The banana plants were grown under a heated glasshouse and in a soil with physical and chemical properties are suitable for banana growing. The contents of N, P, K and Mg in compost and in farmyard manure were found to be similar. Farmyard manure, farmyard manure + mineral fertilizers and 45 kg plant(-1) of compost increased growth, yield and fruit quality characteristics. According to obtained results, 45 kg plant(-1) of compost was determined more suitable in terms of economical production and organic farming than the other fertilizer types.     

Machine learning and computational chemistry to improve biochar fertilizers: a review

Traditional fertilizers are highly inefficient, with a major loss of nutrients and associated pollution. Alternatively, biochar loaded with phosphorous is a sustainable fertilizer that improves soil structure, stores carbon in soils, and provides plant nutrients in the long run, yet most biochars are not optimal because mechanisms ruling biochar properties are poorly known. This issue can be solved by recent developments in machine learning and computational chemistry. Here we review phosphorus-loaded biochar with emphasis on computational chemistry, machine learning, organic acids, drawbacks of classical fertilizers, biochar production, phosphorus loading, and mechanisms of phosphorous release. Modeling techniques allow for deciphering the influence of individual variables on biochar, employing various supervised learning models tailored to different biochar types. Computational chemistry provides knowledge on factors that control phosphorus binding, e.g., the type of phosphorus compound, soil constituents, mineral surfaces, binding motifs, water, solution pH, and redox potential. Phosphorus release from biochar is controlled by coexisting anions, pH, adsorbent dosage, initial phosphorus concentration, and temperature. Pyrolysis temperatures below 600 °C enhance functional group retention, while temperatures below 450 °C increase plant-available phosphorus. Lower pH values promote phosphorus release, while higher pH values hinder it. Physical modifications, such as increasing surface area and pore volume, can maximize the adsorption capacity of phosphorus-loaded biochar. Furthermore, the type of organic acid affects phosphorus release, with low molecular weight organic acids being advantageous for soil utilization. Lastly, biochar-based fertilizers release nutrients 2–4 times slower than conventional fertilizers.

     

The effects of compost prepared from waste material of banana plants on the nutrient contents of banana leaves

In this study, the possible utilization of removed shoots and plant parts of banana as compost after fruit harvest were investigated. Three doses (15-30-45 kg plan(-1)) of the compost prepared from the clone of Dwarf Cavendish banana were compared with Farmyard manure (50 kg plant(-1), Mineral fertilizers (180 g N + 150 g P + 335 g K plant(-1)) and Farmyard manure + Mineral fertilizers (25 kg FM + 180 g N + 150 g P + 335 g K plant(-1)) which determined positive effects on the nutrient contents of banana leaves. The banana plants were grown under a heated glasshouse and in a soil with physical and chemical properties suitable for banana growing. The contents of N, P, K and Mg in compost and in farmyard manure were found to be similar. Nitrogen, phosphorus and potassium contents of leaves in all applications except control, and Ca, Mg, Fe, Zn, Mn, Cu contents in all applications were determined between optimum levels of reference values. There were positive correlations among some nutrient contents of leaves, growth, yield and fruit quality characteristics. Farmyard manure, Farmyard manure + Mineral fertilizers and 45 kg plant(-1) of compost increased the nutrient contents of banana leaves. According to obtained results, 45 kg plant(-1) of compost was determined more suitable in terms of economical production and organic farming than the other fertiliser types.     

阿特拉津对不同肥力土壤磷酸酶的影响

通过室内恒温培养法，研究除草剂阿特拉津对4种长期定位施肥处理下的土壤的磷酸酶活性的影响。试验结果表明，在阿特拉津质量分数不同和处理时间长短不同的情况下，阿特拉津对土壤磷酸酶的活性既有激活作用又有抑制作用。在试验过程中，4种不同肥力的土壤其磷酸酶活性随着处理时间的延续而呈现出“降低→升高→降低→升高”的消长趋势。不同阿特拉津质量分数对磷酸酶的影响没有规律，同一质量分数处理既有激活作用，也有抑制作用。在4种不同肥力的土壤中，磷酸酶活性最高的是以氮、磷、钾无机肥配合有机肥施用的土壤。     

Response of roselle (Hibiscus sabdariffa) to heavy metals contamination in soils with different organic fertilisations

The response of green roselle (Hibiscus sabdariffa) to Cu/Pb contamination and manure application in soil was investigated using pot experiments. Subsamples of a mineral soil were treated with increasing doses (0–500 mg kg^?1) of Cu/Pb only and/or amended (at 10% w/w) with poultry or swine manure. Roselle plants were grown, monitored for changes in growth rate and post-harvest aboveground dry biomass and tissue Cu/Pb concentrations were determined. The plants were typically greenish with linear growth profiles at all metal doses, indicating some level of tolerance. Dry biomass yields decreased as metal dose increased. Poultry manure enhanced roselle biomass yields better than swine manure. Tissue Cu/Pb concentrations increased linearly as metal doses increased in unamended soils; whereas nonlinear responses were observed in manure-amended soils. Soil-to-plant transfer factors, T _f (%) indicated that Cu (13≤T _f (% )≤60) was more phytoavailable to roselle than Pb (11≤T _f (% )≤20). Tissue metal concentrations were modelled from soil pH, organic matter, plant available and pseudototal metal; but the models appeared more reliable with plant available metal as a covariate than with pseudototal metal content. These observations may become useful whenever phytoextraction is the remedial option for soils moderately contaminated by toxic metals.     

耕作和施肥扰动下土壤团聚体稳定性影响因素研究

稳定的土壤团聚结构对种子发芽、根系发育、作物生长以及有机碳保护有着重要的影响,深入了解人为扰动下土壤团聚体稳定性影响因素有着重要意义.选择两种不同母质发育土壤上长期施用畜禽粪便和化肥5个田块耕层土壤团聚体为供试土壤,采用相关分析、因子分析和回归分析方法探讨了土壤有机碳库、土壤养分和理化性质与团聚体稳定性间的关系.研究结果表明,与施用化肥比较,施用畜禽粪便显著提高了土壤团聚体稳定性;不同母质类型土壤上,海相沉积物母质土壤上团聚体稳定性显著高于河相冲积物母质土壤.相关分析结果表明溶解性有机碳(包括DOC和HWOC)和总磷含量与土壤团聚体稳定性显著或极显著相关;因子分析结果显示,土壤化学因子是第一影响因素,土壤碳库因子是第二影响因素,其中海相沉积物母质土壤上团聚体稳定性主要受土壤化学因子影响;河相冲积物母质土壤团聚体稳定性主要受土壤碳库因子影响,施用化肥土壤受两个因素影响均较小.回归分析结果显示热水提取态有机碳和钙是本研究条件中影响土壤团聚体稳定性的主要因素.     

组合施肥技术对黑土肥力影响的研究

采取定位试验的方法研究了组合施肥技术对土壤有机质、氮、磷的影响。结果表明,组合施肥较单施化肥土壤有机质含量增加1.8～3.3g/kg;土壤全氮增加0.05g/kg,速效氮(除Ⅱ处理外)增加6.6～44.6mg/kg;土壤全磷增加0.15～0.29g/kg.速效磷增加15.68～37.21mg/kg。土壤有机质增量为0.6～23g/kg;土壤氮素增量全氮增加0.002～0.25g/kg,速效氮增加11.6～39.4mg/kg;土壤磷素增量全磷增加0.09～0.24g/kg,速效磷增加23.59～57.28mg/kg。在保持土壤肥力有所提高的情况下,玉米大豆两年平均产量提高7.7％～17.3％,净收入提高19.4％～37.3％,由此可见,组合施肥技术应用前景广阔。     

Sulphamethazine in poultry manure changes carbon and nitrogen mineralisation in soils

Antibiotics are newly emerging organic pollutants in manure, soil, vegetables and water. Animal manure application might be leading to the accumulation of antibiotics in the farmland. However, the effect of sulphamethazine (SMZ) on the soil microbial community was scarcely investigated. This study was aimed to evaluate the impact of SMZ on poultry manure, on the structure and function of microbial community, carbon mineralisation, and changes in nitrogen forms in soil via an incubation experiment lasting 56?d. The treatments consisted of poultry manure at 1% wt (PM), PM containing 20?mg?kg^?1 SMZ (PM?+?20SMZ) and PM containing 100?mg?kg^?1 SMZ (PM?+?100SMZ), along with the untreated soil (control). Solid phase extraction was performed to measure the SMZ concentration in soils using high-pressure liquid chromatography. The cumulative CO₂-C was increased in all treated soils over the incubation period compared to the control. The PM?+?100SMZ had the highest increase in cumulative CO₂-C from the soil at 56?d of incubation. The treatment of PM?+?20SMZ showed a short-term decrease in nitrification rate in the soils at 1?d by altering the microbial community composition with 17% dissimilarity and decreasing the abundance of bacteria compared to PM-treated soil. The PM?+?100SMZ increased C mineralisation in the soil.     

寒温带兴安落叶松林土壤团聚体特征及其影响因素研究

以寒温带兴安落叶松(Larix gmelinii)林为研究对象,分析其土壤团聚体的分布及其有机碳含量特征,并探讨各土壤因子对团聚体稳定性的影响。在兴安落叶松林内设置28块30 m×30 m的样地,以0—10、10—20、20—40、40—60 cm分层取土样,测定各理化指标含量、不同粒级土壤团聚体及其有机碳含量。结果表明,兴安落叶松林土壤团聚体各粒级含量高低为(0.25—2 mm粒径)团聚体>(<0.053 mm粒径)团聚体>(0.053—0.25 mm粒径)团聚体,各粒级团聚体表层(0—10 cm)含量均显著区别于其他各层;土壤团聚体的平均质量直径(MWD)、几何平均直径(GMD)分别为0.53 mm和0.22 mm,分维数(D)为2.78,土壤团聚体稳定性较高且存在剖面差异;土壤有机碳主要分布于0.25—2 mm粒径的大团聚体中(34.51g·kg^-1),贡献率为52.10%,粒径0.053—2 mm土壤团聚体中有机碳含量最低(6.30 g·kg^-1),贡献率为16.42%;随土层深度增加,各粒级团聚体有机碳含量和0.25—2 mm团聚体有机碳贡献率逐渐减小,<0.25 mm团聚体贡献率逐渐增大,40 cm以下各粒级贡献率趋于稳定;兴安落叶松林土壤团聚体的粒径分配和稳定性受到林龄和林型的显著影响;大团聚体(0.25—2mm)含量与土壤总有机碳(SOC)呈极显著正相关关系(P<0.01),微团聚体(<0.25 mm)含量与Al、Mg等金属氧化物含量呈显著正相关关系(P<0.05);大团聚体(0.25—2 mm)含量和MWD、GMD指标与pH值呈极显著负相关关系(P<0.01),与土壤含水量、速效钾、有效磷、有机磷呈显著正相关关系(P<0.05)。综上,土壤有机质和金属氧化物分别为兴安落叶松林土壤0.25—2 mm大团聚体和<0.25 mm微团聚体的主要胶结物质,土壤水分、养分和酸碱条件对团聚体的形成和稳定产生影响。     

有机肥施用对珠三角菜地土壤磷污染风险的初步研究

通过田间小区试验研究有机肥施用量对菜心产量、土壤磷形态的影响,分析土壤磷形态之间的相关性,评估菜地红壤磷污染风险。结果表明,有机肥施用并未提高菜心的产量和生物量,而超过一定使用量之后,反而降低菜心产量和生物量;土壤无机磷形态以Fe-P和Al-P为主,占土壤无机磷质量分数的90%以上。有机肥施用提高土壤各形态无机磷的质量分数,且有机肥用量越高,土壤Fe-P、Al-P、Ca-P和O-P质量分数越高。有机肥过量施用显著提高土壤速效磷和水溶性磷质量分数;分别对Olsen-P和CaCl2-P与各形态磷进行逐步回归分析,只有Olsen-P和CaCl2-P与Ca-P具有线性关系（p〈0.05）,方程为Y1=36.95＋0.622 1X,Y2=-0.102 5＋0.048 6X。表明施用有机肥下,Ca-P是菜地土壤有效磷的最直接来源,可以作为红壤磷污染风险评价指标。     

不同养分和水分管理模式对土壤生态环境影响

室内盆栽培养下 ,通过对土壤pH、Eh、有机质、Fe形态、容重和结构等主要理化性质指标的测定和分析 ,比较和研究了不同养分和水分管理模式对土壤生态环境的影响。结果表明 ,在连续淹水下 ,施用有机肥料 ,特别是厩肥 ,降低了土壤Eh ,加剧了土壤的还原状态 ,同时也使土壤无定型态铁氧化物含量上升 ,对改善土壤物理环境效果也明显削弱 ;在干湿交替下 ,有机无机肥料配施不但可提高土壤有机质 ,而且可明显改善土壤氧化还原状况和物理特性     

Effects of farmyard manure and chemical fertilizers on the nutritional status of the loquat trees

The nutritional status of the loquat trees was investigated using cattle manure and commercial fertilizers for three years. The farmyard manure increased N, P, K, Mg, Fe and Zn contents of the leaves. No significant difference was found between the fertilizer types for trunk growth. Yield efficiency was nearly doubled by application of farmyard manure. Fertilizers did not affect the weight and shape of the fruits; however, commercial fertilizers led the lower total acidity in fruits. It was concluded that the loquat trees grown in sandy soils could fulfill their principal nutrient requirements for growth and commercial yield with application of farmyard manure.     

Changes of Soil Microbiological Properties Caused by Land Use Changing From Rice–Wheat Rotation to Vegetable Cultivation

A survey was done recently in Jiaxing city of Zhejiang Province in the Yangtze River Delta to compare the differences of soil microbiological properties among paddy soils with different land use including continuous open-field vegetable cultivation (OFVC), plastic-greenhouse vegetable cultivation (PGVC) and traditional rice–wheat rotation (RWR). The soil types included are percolating, permeable and waterlogged paddy soils. The results indicate that the microbial flora was markedly changed as the land use changed for all the three soil types. In continuous vegetable cultivation soils, especially in PGVC soils, the bacteria amounts decreased dramatically, but the fungal and actinomyce amounts increased as compared with RWR soils. The dehydrogenase activities decreased significantly in vegetable soils, especially in PGVC soils as compared with RWR soils. The microbial biomass C and the total phospholipid contents (TPL) in vegetable cultivation soil greatly decreased as compared with RWR soils. Biolog analysis indicated that the kinds of carbon sources that could be metabolized by native microbes in PGVC soils greatly decreased as compared with OFVC soils and RWR soils, revealing that microbial diversity had decreased since land use change. The activities of some soil enzymes including urease, invertase and phosphase were all lower in OFVC soils than those in RWR soils, and those in PGVC soils were the lowest. The degradation of microbiological activities in continuous vegetable cultivation soils, especially in PGVC soils, as compared with RWR soils might have been caused by soil acidification and accumulation of salts due to overuse of both organic and inorganic fertilizers in vegetable cultivation.     

Effect of poultry,cattle, sheep manures and sewage sludge on N mineralisation

The effects of various organic wastes on nitrogen mineralisation in soil were investigated. For this purpose, poultry (pl), cattle (ct), sheep (sh) manures and sewage sludge were used as organic wastes. This study was conducted as a laboratory incubation experiment with a calcareous soil. Organic wastes (3%) were added to pots of soil and incubated at 28°C for 16 weeks under non-leaching conditions. The cumulative mineralised N was then fitted to a single exponential model. Maximum nitrogen mineralisation was determined in the second week of incubation in soil treated with poultry manure. Overall, the results showed that the amount of mineral nitrogen in soil treated with different organic wastes was controlled by the type of manure. The results indicated that among the organic wastes, sewage sludge induced the highest quantities of net N mineralisation. Generally, organic wastes increased the amount of N mineralisation in the studied soil and the values of N₀ and k in treated soil varied depending on the type of organic waste. The highest N₀ and k values were found in poultry-treated soil.     

雄烯二酮在我国典型土壤中的吸附特性

采用批吸附室内模拟实验研究了雄烯二酮在我国红壤、潮土、黑土3种典型土壤中的吸附特征,以及牛粪溶解态有机质(DOM)对土壤吸附雄烯二酮的影响。结果表明,雄烯二酮在土壤中吸附动力学符合Elovch方程(R20.89),热力学特征可通过Freundlich等温吸附方程(R20.83)描述,土壤对雄烯二酮的吸附呈非线性吸附特征,其中潮土吸附等温线的非线性最强(n=0.37);吸附系数K f介于6.0~20.2,并与有机质含量呈显著正相关(p0.05)。雄烯二酮浓度较低时,共存牛粪DOM抑制其在土壤表面的吸附作用。研究认为,有机质是土壤吸附雄烯二酮的主要组分,共存牛粪DOM可促进雄烯二酮向地表水和地下水的迁移。     

蔬菜施不同肥料对产量和土壤肥力的贡献

为控制施肥对蔬菜和土壤的负面影响，充分利用施肥对土壤肥力的保护功能，探讨蔬菜合理的有机肥施用量，在不同质地土壤上，田间试验小白菜、苦瓜、豇豆三种蔬菜施不同量有机肥，收获时测定其产量、品质及试验前后的土壤有机质质量分数。结果表明，(1)在施适量无机NPK的条件下，每造蔬菜的有机肥(禽畜粪便，下同)施用量，砂土上小白菜为4500kg／hm^2、苦瓜和豇豆为3000kg/hm^2；在壤土上，小白菜和苦瓜均宜施3000kg/hm^2，豇豆则宜施4500kg／hm^2；在粘土上，小白菜每造只宜施1500～3000kg／hm^2的有机肥。(2)有机肥必须与无机肥合理配合施用，才能获得最佳的产量和品质效果。(3)施有机肥3000-4500kg/hm^2 适量无机肥可使土壤有机质水平保持在种植蔬菜前的质量分数水平，该施肥量和方式不仅可使蔬菜高产、优质，还有利于保护土壤肥力。(4)对蔬菜产量的贡献，有机肥和化肥配合施用的处理对蔬菜产量的贡献最大，来自土壤的效应由小到大依次为有机肥和化肥配合施用→化肥→有机肥，进一步反映合理施肥有利于保护土壤肥力。     

有机肥中重金属特征及其控制技术研究进展

随着工业的快速发展,农药、肥料及地膜等系列农用化学物质的广泛使用,农田土壤重金属污染越来越严重。重金属进入土壤后,其难移动性导致大量积累,造成土壤环境污染,影响植物生长,危及人类的健康。有机肥是我国农业生产中非常重要的肥料,其来源也十分广泛。施用有机肥是提高作物产量的必要措施,同时也是土壤重金属的主要输入途径之一,研究有机肥的重金属特征及其有关控制技术对农产品安全和有机废弃物的再利用具有重要意义。文章就畜禽排泄物堆肥、污泥堆肥、生活垃圾堆肥和沼肥等主要有机肥料的重金属来源、含量以及不同溯源有机肥料对土壤中重金属有效性的影响进行综述,重点介绍了畜禽排泄物堆肥中重金属含量和饲料添加剂之间的关系,为农田土壤重金属污染防治和农产品安全提供科学依据。除从有机肥的源头控制重金属外,文章主要介绍了化学法、生物吸附法、生物淋滤法和电化学法等重金属控制技术,针对各种控制方法,阐述了其原理、应用实例、优缺点及研究进展情况,提出了解决有机肥重金属污染问题的思路和方法,为有机肥料的资源化利用提供了参考。最后指出,为了实现养殖业与种植业的安全链接,除选用重金属含量低的有机肥,通过相关技术有效控制有机肥中的重金属外,还要注重肥料用量、施肥时间、施肥技术的合理选择,从最大程度上避免有机肥料给作物和人类带来的副作用。