蔬菜种植年限对土壤磷素吸附解吸特性的影响

为揭示不同种植年限土壤磷的固定和释放机制,通过土壤磷的等温吸附、解吸试验研究种植年限分别为3～5年、15～20年、25～30年的黄棕壤0～5cm和5～20cm土层磷的吸附、解吸特性。结果表明:土壤磷的等温吸附曲线、吸附量-解吸量曲线分别与Langmuir方程(R2为0.8728～0.8436)、二次函数方程拟合良好(R2为0.9545～0.9970);随蔬菜种植年限延长,表层土壤磷最大吸附量(Qm)、磷最大缓冲容量(MBC)明显降低,而土壤磷吸附饱和度(DPS)和解吸率明显提高;种植年限15～20年、25～30年土壤磷的解吸率明显高于3～5年土壤。对表征土壤磷素吸附、解吸特性的主要因子如MBC及DPS等作相关分析发现,无定形铁铝含量的变化是影响土壤磷吸附解吸特性的主要因素。     

不同土地利用方式下紫色土磷吸附-解吸动力学特征

[目的]研究川东紫色丘陵区旱耕地、林地、果园、荒草地、茶园、水稻田6种土地利用方式下土壤磷吸附与解吸特征及其影响因素,以期为四川低山丘陵区不同土地利用方式下紫色土磷潜在流失风险评估提供理论依据。[方法]采取研究区内6种土地利用方式下的0—20cm土层土壤样品,通过土壤磷吸附解吸试验,计算土壤磷吸附—解吸参数,测定土壤相关理化指标,利用主成分分析和旋转因子分析法评估土壤磷素流失风险及其主要影响因子。[结果]土壤pH值,有机质,水溶性磷,速效磷,全磷,CaCO3,有效锌是影响磷吸附的重要因子,主因素分析得出速效磷、全磷、CaCO3有效锌对紫色土吸附磷能力贡献率分别为86.9%,89.2%,89.4%,96.9%。通过因子分析法分析土壤磷吸附解吸参数,得出可用最大吸磷量Qm,最大缓冲量MBC,易解吸磷RDP,拟合吸附量与解吸量的相关关系式中的截距值b这4个参数来综合预测紫色土磷素流失风险。[结论]研究区域6种土地利用方式下,果园与旱耕地土壤磷素流失风险较大,水稻田及茶园磷素流失风险较低。     

不同有机肥对煤矿复垦土壤磷吸附解吸特性的影响

【目的】石灰性复垦土壤磷素含量极低且易被其他离子吸附固定,严重影响作物的吸收与利用。研究不同有机肥对石灰性复垦土壤磷吸附解吸特征的影响,为加速培肥煤矿复垦土壤提供技术和理论依据。【方法】在山西省孝义市采煤塌陷区进行了4年的定位培肥试验,共设置了6个处理：不施肥、施鸡粪、施猪粪、施牛粪和氮钾肥、施氮磷钾肥。采集各处理土壤样品进行吸附动力学试验,测定复垦土壤磷最大吸附量、最大缓冲容量、吸附饱和度、解吸率,并分析影响磷吸附解吸的关键因素。【结果】采用Langmuir等温吸附方程可以极好地拟合复垦土壤对磷的吸附(R²=0.924～0.992)。复垦年限和施肥处理以及二者的交互作用均对复垦土壤磷吸附解吸产生显著影响。随复垦年限的增加,土壤磷最大吸附量显著降低,而土壤磷吸附饱和度和解吸率显著增加。与复垦第1年相比,复垦第4年各施肥处理的土壤磷最大吸附量降低了12%～26%,土壤磷吸附饱和度增加了218%～885%,土壤磷解吸率增加了86%～118%。与两个化肥处理相比,3种有机肥处理下土壤磷最大吸附量显著降低了30%,最大缓冲容量降低了31%,土壤磷吸附饱和度增加了34%,磷...     

不同生物质炭对棕壤中磷素吸附解吸的影响

为了减少土壤磷素流失,提高磷肥利用效率,探究不同生物炭对棕壤中磷素吸附解吸行为的影响规律,以水稻秸秆、玉米秸秆和花生壳为原材料,利用限氧升温炭化法制备生物炭,通过批量吸附实验研究了生物炭种类和生物炭添加量对棕壤磷吸附解吸的影响。结果表明：水稻秸秆生物炭在添加量为0.4%时显著提高棕壤对磷的吸附量,花生壳生物炭和玉米秸秆生物炭则显著降低棕壤对磷的吸附量；等温吸附曲线表明,不同生物炭均未改变等温吸附曲线的变化趋势,均可用Langmuir方程和 Freundlich 方程进行描述(R²>0.93),其中 Langmuir 方程拟合效果更好,不同处理对磷的理论吸附量大小顺序为：水稻秸秆生物炭+棕壤>棕壤>花生壳生物炭+棕壤>玉米秸秆生物炭+棕壤；吸附动力学实验表明,不同生物炭均未改变磷吸附动力学曲线的变化趋势,在所有动力学模型中,准二级动力学模型最适合描述土壤对磷的吸附行为(R²>0.99),其次为准一级动力模型(R²>0.99)和Elovich动力学模型(R²>0.88)；三种生物炭均显著促进棕壤对磷的解吸,当生物炭添加量为≥0.2%时,水稻秸秆生物炭、玉米秸秆生物炭和花生壳生物炭,分别可提高棕壤对磷的解析率50%、70%和90%以上。由此可见,不同生物炭可提高棕壤对磷素的供应和利用,水稻秸秆生物炭在减少棕壤磷素流失、保护生态环境方面具有更大的应用价值。     

不同土地利用方式土壤对铜、镉离子的吸附解吸特征

采用一次平衡法对Cu²⁺、Cd²⁺在城市及城郊农田、林地、草地3种土地利用方式土壤中的吸附解吸过程进行比较研究, 结果表明: Cu²⁺、Cd²⁺在3种土地利用方式土壤中的吸附量均随平衡液浓度的增加而增大, Cu²⁺、Cd²⁺在农田土壤上的吸附量均高于林地和草地土壤。分别用Langmuir和Freunlich两种等温吸附方程对吸附过程进行拟合, 3种土壤对Cu²⁺的吸附过程运用Langmuir方程拟合效果好, 而对Cd²⁺的吸附过程运用Freunlich方程拟合效果更好。Cu²⁺在3种土壤的解吸量大小顺序为农田>林地>草地, Cd²⁺在3种土壤的解吸量大小顺序为农田>草地>林地。两种离子在3种土壤中的动态吸附是个快速反应的过程, 随时间延长, 吸附反应趋于平衡。运用双常数函数方程和Elovich方程能较好地拟合重金属在土壤上的吸附动力学过程。Cu²⁺、Cd²⁺的吸附与土壤黏粒含量、有机质含量、CEC和pH均有关。     

冻融作用对棕壤磷素吸附-解吸特性的影响

以棕壤为研究对象,采用室内模拟冻融环境的方法,研究土壤磷素吸附-解吸行为,采用Langumuir、Freundlich和Temkin方程对吸附过程进行拟合分析,定量研究冻融作用对土壤磷素吸附机制的影响,同时建立土壤磷素解吸量与吸附量关系方程,进一步探讨冻融土壤磷吸附-解吸特性。结果表明,冻融条件下棕壤对磷的吸附规律一致,吸附量均随着平衡溶液中磷浓度增加而逐渐增大,与未冻融土壤相比,冻融后土壤磷等温吸附曲线变得平缓。冻融条件下磷等温吸附曲线用Langmuir方程拟合相关性最好。土壤磷素解吸量与相应最大吸附量符合线性相关。冻融后土壤磷固定吸附量低于未冻融土壤,即冻融过程促进土壤磷素释放,增加了土壤磷流失风险。多次冻融循环对土壤磷吸附-解吸行为影响更为强烈。     

酸性土壤在改良条件下磷的吸附-解吸特性

在可变电荷土壤上 ,植物生长期间对磷肥的利用效率很低[1,2 ] ,这是由P的专性吸附所决定[3,4 ] 。Easterwood和Sarfain[5] 报道了减少土壤对P素固定的磷肥与有机质配合施用技术。无机磷肥与有机肥配合施用 ,植物能有效地吸收肥料中的磷 ,其原因可能是降低了土壤对磷的吸附能力     

不同来源生物炭对土壤磷吸附解吸的影响

主要研究了水稻秸秆、小麦秸秆、玉米秸秆、花生壳四种来源的生物炭对土壤磷吸附解吸的影响。研究结果表明:生物炭对土壤磷吸附的影响取决于土壤溶液中磷的浓度,与对照相比,在中低磷浓度(0~90 mg L-1)时,四种生物炭对土壤磷的吸附影响较小,而在较高磷浓度时,小麦秸秆生物炭和花生壳生物炭均抑制了土壤磷的吸附,而水稻秸秆生物炭和玉米秸秆生物炭均能促进土壤磷的吸附。吸附动力学试验表明,在反应开始的4小时内,土壤对磷的吸附较快,吸附量基本达到平衡吸附量的50%;到达吸附平衡时,添加生物炭能够降低土壤对磷的吸附量,四种生物炭对土壤磷的吸附量依次为:小麦秸秆玉米秸秆花生壳水稻秸秆。此外四种生物炭都能促进土壤中磷的解吸,其中玉米秸秆的促进效果最为显著,解吸量比对照高1.76倍。Langmuir方程和Freundlich方程都能很好地拟合生物炭存在下土壤磷的吸附等温线(P0.01),Freundlich拟合程度要比Langmuir方程的高。准一级动力学方程和准二级动力学方程都能很好地描述生物炭存在下土壤磷的吸附动力学(P0.01)。     

磷肥和有机肥对不同磷水平土壤磷吸附-解吸的影响

采用培养试验结合Langmuir吸附等温方程进行拟合求出吸附、解吸的相关参数的方法,研究了磷肥和有机肥对不同磷水平土壤磷吸附和解吸特性的影响。结果表明,随土壤磷水平和磷肥和有机肥用量的增加,土壤最大吸磷量、土壤磷最大缓冲能力显著降低;土壤易解吸磷和土壤磷的解吸率显著增加。土壤易解吸磷和土壤磷的解吸率与土壤Olsen-P呈显著正相关;土壤最大吸磷量、土壤磷最大缓冲容量与土壤Olsen-P呈显著负相关。单位量磷肥所增加的土壤易解吸磷随着磷肥用量和土壤磷水平的增加而增大;土壤磷水平和磷用量是影响土壤磷最大吸磷量和土壤磷最大缓冲能力的重要因素。     

长期不同施肥对黄壤磷素吸附–解吸特性的影响

[目的]磷吸附–解吸特性对土壤磷素有效性和环境流失风险有重要影响.研究长期不同施肥对黄壤旱地磷吸附–解吸特性的影响,可为黄壤区合理施用磷肥提供理论依据.[方法]供试黄壤肥力长期定位试验位于贵阳,始于1995年.设有对照(CK)、施氮钾肥(NK)、施氮磷钾肥(NPK)、单施有机肥(M)和有机肥化肥配施(MNPK)5个处理...     

Effect of land use on some soil properties related to the risk of loss of soil phosphorus

Although land use clearly modifies soil properties, the intensity of the modifications depends on the management procedures and also on the soil properties themselves. To enable construction of models that describe soil nutrient losses, extensive databases corresponding to soils under different land use must be made available. Analysis of 404 samples of soils (from Galicia, NW Spain), under different types of use revealed that most of the soil properties underwent changes in the following order: forest use (least modified) ‐ grassland ‐ arable (most modified). Decreases in the contents of organic matter, extractable oxides and P‐adsorption capacity followed the same order, as did increases in the contents of available P (total, inorganic and organic), P desorbed with distilled water, and degree of P saturation. In general, in all of the soils, independently of their use, the amount of P desorbed (whether total P, molybdate reactive P or particulate P) was more closely related to the degree of P saturation than to the levels of P extracted with bicarbonate. Copyright © 2007 John Wiley & Sons, Ltd.     

How does the Hedley sequential phosphorus fractionation reflect impacts of land use and management on soil phosphorus: A review

The Hedley sequential‐phosphorus (P)‐fractionation method has been used in many countries to study the effects of land‐use and management systems on soil P. Many data sets have been obtained but collectively never have been considered or to goal topic reviewed. Therefore, the objectives of this review were to compile and systematically evaluate these data. The data generated over many years were grouped into temperate, and subtropical and tropical soils of different land use and duration of soil‐management studies. In natural ecosystems, vegetation types and composition and percent of vegetation covers substantially affected all P fractions with pronounced impacts on the labile and moderately labile P. In short‐term studies (≤ 10 y), changes in the labile and moderately labile inorganic P (P_i) fractions were detected when more P (e.g., by factor 5) was applied than commonly recommended for agricultural crops. However, without P application the changes in all P fractions were subtle in temperate soils, but declines were significant in labile and moderately labile P in subtropical and tropical soils. In both temperate and tropical climates, medium (10–25 y) and long‐term (>25 y) cultivation without P application depleted all P fractions, whereas most of P fractions increased with continuous P application, regardless of the amount and source of P. Synthesis of data resulted in multiple‐regression functions which described differences in labile and moderately labile P fractions as function of differences in amount of P application and duration of the experiments. Moreover, the correlation analysis also showed strong association among most of the P fractions. Current limitations in data interpretation of Hedley fractionation can be overcome by the application of ³¹P nuclear–magnetic resonance (NMR) and X‐ray absorption near‐edge fine‐structure (XANES) spectroscopy.     

水稻旱作下土壤水分状况和施用磷肥对红壤有效磷含量的影响

通过盆栽和模拟实验探讨了水分状况和施磷量对红壤有效磷的影响。结果表明,水分状况和施磷量均显著地影响红壤有效磷含量,二者的交互作用达极显著水平;同时也均显著地影响水稻生物量和对磷的吸收量,二者的交互作用达显著和极显著水平。红壤有效磷含量基本上随红壤水分含量和施磷量的增加而提高,随水稻生长时间的延长而降低;水稻的生物量和对磷的吸收量均随施磷量的增加和水稻生长时间的延长而增加,但以中水条件下最高。在保证80%的饱和持水量和常规氮、钾等养分投入条件下,施磷量为67.5 kg hm-2就可以满足水稻旱作的生长需求。     

Influence of land use change on soil nutrients in an intensive agricultural region of North China

The pressures of development and major shifts in land use have increased the need to assess the impact of land use change on soil nutrients. This study was conducted in an area with intensive agricultural land use in north China to assess effects of land use change on soil organic carbon (SOC), total nitrogen (TN), available phosphorus (AP) and available potassium (AK). Soil samples were collected from rainfed land, irrigated land, virgin grassland and vegetable land in 1980 and 1999. SOC, TN and AP were higher in 1999 than in 1980, and the increases followed the following order: vegetable land > irrigated land > rainfed land, except for AK. Soil nutrient contents were increased when land uses underwent the following changes (except for AK): virgin grassland → rainfed land → irrigated farmland → vegetable land. The SOC, TN and AP fluxes (rate of change in C, N, P and K as kg(ha y)⁻¹) in the transition systems from rainfed land to vegetable land were 518.46, 69 and 3.9 kg(ha y)⁻¹, respectively, which were considerably higher than the transition systems from rainfed land to irrigated land. The SOC, TN and AP fluxes in the transition systems from virgin grassland to irrigated land were 297.83, 56.3, 2.1 kg(ha y)⁻¹, respectively, which were higher than the transition systems from virgin grassland to rainfed land. The study shows that land use intensification can increase soil nutrient contents if accompanied by increased fertilizer application.     

Rice-residue biochar influences phosphorus availability in soil with contrasting P status

ABSTRACT

Thermo-chemical conversion of crop residues to produce biochar is an emerging strategy in the context of sustainable phosphorous (P) use and residue management. An incubation study for 90 d was conducted to investigate the effects of rice-residue biochar (0, 10, 20 and 40 g kg^?1) in combination with inorganic-P (KH₂PO₄) (0, 25 and 50 mg kg^?1) on phosphorous availability in medium- and high-P status soils. Increasing biochar addition rates alone or in combination with inorganic-P resulted in a significant increase in P pools, i.e. plant available P or Olsen-P (from 8 to 132 mg kg^?1 in medium-P and 15 to 160 mg kg^?1 in high-P soils), microbial biomass P and various mineral-bound inorganic-P fractions in the order (Ca-P > organic-P > Al-P > loosely held/soluble-P > Fe-P > reductant soluble-P). Further, lower phosphatase activity (19–50%) with increasing rates of biochar addition in both soils elucidates the ability of biochar to act as a long-term source of available P in the experimental soils. The results demonstrate that rice-residue biochar can directly or indirectly enhance the status of available P in soils and hence can be used as a beneficial amendment to meet the crop P demand.     

磷素吸附特性演变及其与土壤磷素形态、土壤有机碳含量的关系

在黄土旱塬区长期试验(1985-1997年)中,选取对照(不施肥,CK)、磷肥(P2O5.60.kg/hm2,P)、氮肥(N.120kg／hm2,N)、氮磷(N,120.kg／hm2,P2O5,60.kg/hm2,NP)、氮磷有机肥(N.120.kg/hm2,P2O560.kg/hm2,有机肥75.t／hm2,NPM),种植方式为冬小麦连作的5种有代表性的施肥处理,研究了石灰性土壤磷素吸附特性的演变及其与土壤磷素形态、土壤有机碳(SOC)含量的关系。结果表明,P素的最大吸附量(Qm),1997年对照(CK)、N处理比1985年分别提高了18％和14％;而P、NP和NPM处理分别降低了26％、13％和24％。吸附能常数(k值)随时间延长,对照和N处理相对稳定,P和NP处理呈升高趋势,而NPM处理有降低趋势。土壤磷素吸附饱和度(DPS)和零净吸附磷浓度(EPC0)对照和N处理随时间延长呈降低趋势,P、NP和NPM处理呈升高趋势。Qm与Ca8-P、Al-P存在极显著相关关系(P0.001),与Ca2-P、Pe-P存在显著相关关系(P0.05)。Ca2-P、有机磷含量变化与土壤DPS的相关性达到显著水平(P0.05)。EPC0只与有机磷间存在显著的相关关系(P0.05)。Qm、DPS和EPC0变化与SOC存在显著或极显著的线性相关关系(P0.001)。     

Discriminating the effects of agricultural land management practices on soil fungal communities

The structure of fungal communities was examined in soil subjected to 5 years of different agricultural land management and tomato production practices. Length heterogeneity polymerase chain reaction (LH-PCR) of fungal rDNA internal transcribed spacer-1 (ITS-1) regions was used to create genomic fingerprints of the soil fungal communities. Three years after initiation of land management practices, univariate analysis of genetic diversity failed to detect differences among soil fungal communities in plots managed organically, conventionally or maintained free of vegetation by continuous tillage (disk fallow). Genetic diversity was significantly higher in plots maintained as a perennial pasture grass (Paspalum notatum var Argentine bahiagrass) or as an undisturbed weed fallow. The composition of soil fungal communities within organic, pasture grass or disk fallow plots were separated into unique clusters by non-parametric multivariate analysis of their Bray-Curtis similarity matrices, computed from the relative abundance of ITS-1 amplicons, while the composition of communities within disk fallow and conventional plots could not be distinguished from each other. Diversity of soil fungal communities was significantly reduced following the cultivation of tomato in year four when compared to the diversity in plots where tomato was not cultivated. Divergence in the composition of soil fungal communities was observed following the cultivation of tomato under all land management regimes except organic, where communities continued to remained clustered based upon similarities among their ITS-1 amplicons. Divergence in the composition of fungal communities became more pronounced following two major hurricanes (Francis and Jeanne, September 2004) except for communities in the organic and pasture grass plots. Following the completion of a second tomato crop in year 5, genetic diversity and richness was similar under all land management regimes except the pasture grass, where it remained significantly higher. By contrast, following two consecutive years of tomato production, unique but mutually similar compositions of fungal communities were detected only in plots subjected to the organic land management regime. This was supported by observations that fungal communities were dominated by a 341 bp rDNA amplicon fragment in all land management regimes except the organic. Cloning and sequencing indicated that the 341 bp fragment generated by LH-PCR had a sequencing size of 343 bp, which was most closely related to Fusarium oxysporum. Thus, land management practices that disturb or disrupt soil fungal communities will significantly reduce their diversity. However, the composition of soil fungal communities is more strongly influenced by land management practices and communities within an organically management system were more resistant to anthropogenic and meteorological disturbances.     

Predicting phosphorus sorption isotherm parameters in soil using data of routine laboratory tests

Knowledge of phosphorus(P) sorption dynamics across different soil types could direct agronomic and environmental management of P. The objective of this study was to predict P isotherm parameters for a national soil population using data of routine laboratory tests. Langmuir and Freundlich sorption parameters were calculated from two different ranges(0–25 and 0–50 mg P L~(-1)) using an archive of representative agricultural soil types from Ireland.Multiple linear regression(MLR) identified labile forms of aluminium(Al) and iron(Fe), organic matter(OM), cation exchange capacity(CEC), and clay as significant drivers. Langmuir and Freundlich sorption capacities, Freundlich affinity constant, and Langmuir buffer capacity were predicted reliably, with R~2 of independent validation 0.9. Sorption isotherm parameters were predicted from P sorbed at a single concentration of 50 mg P L~(-1)(S_(50)). An MLR prediction of P sorption maximum in the 0–50 mg P L~(-1) range was achieved, to an accurate standard, using S_(50), OM, and Mehlich-3 Fe(R~2 of independent calibration and validation being 0.91 and 0.95, respectively). Using Giles' four shapes of isotherms(C, L, H, and S), L non-strict-and C-shaped isotherm curves accounted for 64% and 27% of the soils, respectively. Hierarchical clustering identified a separation of isotherm curves influenced by two ranges of Mehlich-3 Al. Soils with a low range of Mehlich-3 Al(2.5–698 mg kg~(-1)) had no incidence of rapid sorption(C shape). Single point indices, Al, or available soil data make the regression approach a feasible way of predicting Langmuir parameters that could be included with standard agronomic soil P testing.     

意大利蔬菜生产与农用塑料的使用概况

介绍了意大利国内蔬菜生产种类与面积、设施蔬菜生产以及农用塑料使用的状况。