不同钝化剂和培养时间对Cd污染土壤中可交换态Cd的影响

原位化学钝化技术是修复重金属污染土壤的重要途径之一,通过施入一些钝化剂以降低土壤中重金属有效态含量,从而减少其迁移及对植物的毒害。选取羟基磷灰石（HA）、磷矿粉（PRX和PRH）、沸石、赤泥、新鲜植物残体、玉米秸秆粉末以及相应的处理共21种钝化剂,在同一培养条件和添加浓度下,比较其对人工Cd污染土壤中可交换态Cd含量的影响,并分析了其在不同培养时间对钝化效果的时间效应,试验的结果对于筛选Cd污染土壤钝化剂有着重要的意义。结果表明,纳米化赤泥、羟基磷灰石和纳米化酸洗赤泥可显著降低土壤中可交换态Cd含量,钝化比例高达35%-55%;赤泥、酸洗赤泥、沸石达15%-25%;富含巯基植物蒜苗、油菜、大葱植物残体也可达20%-25%。磷矿粉、大葱粉末、玉米秸秆和巯基化玉米秸秆的钝化效果相对较差;HA、铵型沸石、纳米赤泥、酸洗纳米赤泥、干油菜粉末、酸洗赤泥对可交换态Cd的钝化效果的时间效应不明显;赤泥、大葱残体、特别是玉米秸秆和巯基玉米秸秆随时间增长钝化效果增加显著,在8周和16周时段钝化效果较好。     

Remediation of Copper and Cadmium in Contaminated Soils using Compost with Inorganic Amendments

Water, Air, & Soil Pollution - Compost enriched with inorganic amendments has been evaluated in laboratory-based experiments for its effectiveness to immobilise heavy metals in contaminated...     

Remediation of Cadmium Pollution in Soils by Different Amendments: A Column Study

Abstract

A column study was conducted to determine the effect of city compost, lime, gypsum, and phosphate on cadmium (Cd) mobility in three well‐recognized benchmark soils of India [viz., (Islamnagar) Vertisol, (Amarpur) Inceptisol, and (Khala) Alfisol]. Columns made of PVC were filled with soil treated with different treatment doses [viz., 0.5% city compost, 1% city compost, 2% city compost, 2.5 t lime/ha, 5 t lime/ha, 2.5 t lime/ha+0.5% city compost, 2.5 t gypsum/ha, 2.5 t gypsum/ha+0.5% city compost, and 100 kg P₂O₅/ha as potassium phosphate (KH₂PO₄). The columns were leached with 100 mg L^?1 Cd under saturated condition. The amount of water moving through the soils was measured as the pore volume. A delayed breakthrough curve (BTC) of Cd in the presence of lime has been observed in all the studied benchmark soil series. Among the treatments, lime application reduced the movement of Cd from surface soil to lower depth of soil to a large extent resulted in 9, 25, and 45% more retention of Cd in surface soil of the Islamnagar, Amarpur, and Khala series respectively. Explanation for reduced Cd mobility in limed soil can be derived from pH changes of soils. In comparison to control soil, phosphate application caused 6, 21, and 30% more retention of Cd in surface soil in the Islamnagar, Amarpur, and Khala series, respectively. Combined application of lime and city compost reduced the movement of Cd in the soil profile. It appears that organic matter controls the sorption of Cd in soils. The amount of Cd sorbed increased with increasing organic carbon content, but gypsum application may leach Cd beyond the root‐zone depth. A rapid breakthrough curve was observed under gypsum‐treated soils. Retardation factor revealed that a somewhat lower degree of Cd retention occurred in the Khala series, which might possibly be attributed to less clay content and low pH. Overall, the column study indicated that total Cd accumulation occurred up to depths of 5–7.5 cm, 7.5–10 cm, and 10–15 cm in soils of Islamnagar, Amarpur, and Khala series, respectively.     

Availability and Toxic Level of Cadmium,Lead and Nickel in Contaminated Soils

ABSTRACT

The entry of Cd, Pb and Ni into the environment is a cause of concern due to potential toxicity of these metals to plants, animals, and humans. The present study evaluated the availability of Cd, Pb, and Ni to plants through soils. We examined three soil types (Typic Quartzipsamment (TQ), Xantic Hapludox (XH) and Rhodic Hapludox (RH)) with addition four rates of heavy metals: Cd (0, 2, 4 and 12 mg), Pb (0, 45, 90 and 270 mg) and Ni (0, 20, 40, 120 mg) per kg soil with reference to the corresponding rates defined in soil investigation values of the Brazilian environmental legislation. The availability of Cd, Pb and Ni was higher in the TQ than in XH and RH, and the roots and shoots of corn plants grown in TQ yielded the highest concentrations of toxic metals. Soil extraction with diethylene-triaminepentaacetic acid (DTPA) effectively assessed the bioavailability of Cd and Pb, while soil extractions with Mehlich-1 and aqua regia effectivety evaluated the bioavailability of Ni. The levels at which Cd, Pb, and Ni became toxic for plants were determined via extractioned by Mehlich-1, DTPA, Mehlich-3, and aqua regia. Plant growth was shown to influence heavy metal toxicity, with higher growth rates lowering the toxic effect of the metal. Cd, Ni, and Pb exhibited higher availiability in soils with low clay concentrations and were more easily absorbed by plants in those soils.     

镉和铅在2种典型土壤中的吸附及其与温度的关系

采用批平衡法研究我国2种典型土壤对镉和铅的吸附特性及其与温度的关系,运用热力学参数△G°、△H°和△S°解释土壤镉和铅的吸附机理,并对镉和铅在复合共存情况下的吸附特性进行讨论.结果表明,镉和铅在土壤中的吸附过程表现出明显的非线性,镉和铅的吸附分别符合Freundlich模型和Lang-muir模型.壤土对镉和铅的最大吸附量和最大缓冲容量均大于红壤的.镉和铅复合共存时,2种重金属的吸附均受到抑制;温度升高时,镉和铅对彼此的抑制作用有所减弱.吉布斯自由能变△G°为负值表明镉和铅吸附反应为自发反应;△H°为正值衰明土壤对镉和铅的吸附为吸热反应.单一存在时,镉在填土和红壤中的主要作用力分别为氢键和范德华力;而铅在壤土和红壤中的主要作用力均为范德华力.复合共存时,镉和铅的主要作用力发生改变.     

生物炭/石灰混施对重金属复合污染土壤的稳定化效应

采用室内模拟实验,以南方砷镉铅复合污染的酸性红壤为对象,利用化学钝化原理,探讨钝化材料对重金属稳定化的技术效果及应用配方,以期为砷镉铅复合污染红壤修复与安全利用提供依据。具体做法为：选择生物炭（BC）和石灰（SH）为钝化材料,以土壤重量的1%、4%为材料添加量,单一或混合施用于砷镉铅复合污染土壤,并于恒温（25℃）条件下培养60d,在实验进行至第1天、第30天、第60天时取样,测定红壤酸碱度（pH）和水溶态（Water soluble）有效砷（As）、镉（Cd）、铅（Pb）即WSAs、WSCd、WSPb含量,以及土壤重金属As、Cd、Pb结合态含量与占比的变化,明确生物炭石灰单/混施对重金属的稳定化效应。结果表明：生物炭/石灰无论单施或混施均能不同程度地降低土壤中水溶态WSCd和WSPb含量,钝化效率分别为33.51%～78.89%和9.05%～96.24%。而材料单施（1BC、4SH）和两者混施高用量（4BC4SH）处理,均能大幅降低土壤中有效As含量,钝化效率为10.25%～55.27%,其中以两者混施高用量（4BC4SH）处理对土壤重金属As、Cd、Pb协同钝化的效果最佳,当培养实验进行至第60天时,钝化效率依次达55.27%、76.39%和96.24%。培养后土壤中As形态由易被植物吸收的非专性吸附态、专性吸附态转化为稳定的残渣态,土壤中Cd和Pb则由活性最强的酸可提取态转化为残渣态,土壤中As、Cd、Pb的稳定化效应明显,迁移系数下降;此外,生物炭/石灰的单施及混合施用,均可导致土壤酸碱度（pH）显著提升（P<0.05）,有利于南方酸化土壤的改良。总体而言,本研究中生物炭/石灰两者混施高用量水平下（4BC4SH）土壤重金属的钝化效果最优,可实现对As、Cd和Pb复合污染红壤的稳定化修复。     

不同磷酸盐对污染土壤中镉生物有效性的影响

采用盆栽试验,在镉二级和三级污染的红壤和褐土上添加不同磷酸盐（磷酸二氢铵、磷酸二氢钾、磷酸二氢钙）后种植小油菜40d,测定植株生物量、镉吸收量、土壤有效态镉含量、pH值,分析不同磷酸盐对污染土壤中镉生物有效性的影响。结果表明,3种磷酸盐使污染红壤和褐土上小油菜生物量分别提高了18.7%～291.1%和31.5%～991.2%,在红壤上提高顺序为磷酸二氢钙〉磷酸二氢钾〉磷酸二氢铵,而在褐土上则表现为磷酸二氢钙≈磷酸二氢钾〉磷酸二氢铵。3种磷酸盐影响下小油菜吸收镉量,在镉二级污染水平的红壤上表现为显著提高8.3%～60.6%,而在镉三级污染水平的红壤上则表现为显著降低了4.6%～58.4%。污染红壤有效态镉含量在加入3种磷酸盐后提高了17.0%～122.7%,提高顺序为磷酸二氢钙〉磷酸二氢钾〉磷酸二氢铵;而磷酸二氢铵使污染褐土有效态镉含量降低了2.4%～13.4%。3种磷酸盐使红壤pH值提高了0.24～0.99。可见,不同土壤类型、不同镉污染水平下,3种磷酸盐对土壤镉的生物有效性的影响存在差异,其机制有待进一步研究。     

不同种类有机物对污染农田土壤重金属活性的影响

为了解施用不同种类有机物对污染农田土壤重金属行为的影响,布设了田间小区试验,观察研究施用6种不同类型有机物对土壤水溶性重金属和农作物对重金属吸收等的影响。试验设7个处理,分别为对照(不施有机肥)、施新鲜水稻秸秆、新鲜鸡粪、鸡粪堆肥、新鲜猪粪、猪粪堆肥和商品有机肥,动态检测土壤中水溶性重金属含量、田面水中重金属浓度及收获水稻籽粒中重金属含量的变化。结果表明,与不施有机物的对照处理比较,施用各类有机物在试验前期均可明显提高土壤中水溶性重金属和田面水中重金属的含量,总体上以施用新鲜猪粪的最高,其次为新鲜鸡粪,施用商品有机肥的最低。土壤中水溶性重金属含量随试验时间增长逐渐下降。施用各类有机物对水稻籽粒中重金属的积累影响不明显。土壤中水溶性重金属及田面水中重金属含量均与相应的水溶性碳(DOC)浓度呈显著相关性,表明因有机物施用增加土壤中DOC浓度可能是土壤中水溶性重金属含量增加的主要原因;而不同有机物对土壤重金属活性影响的差异可能与有机物本身的分解程度及可释放DOC大小有关。但施用有机物引起的农田土壤水溶性重金属含量的增加是暂时的,对水稻生长后期籽粒中重金属积累的影响不明显。     

不同改良剂对重金属污染土壤中小麦镉吸收的影响

为探讨不同改良剂及用量对重金属污染土壤的修复作用和效果,采用土壤盆栽试验,研究不同改良剂(K2HPO4、鸡粪、Na2S)对小麦生物量、不同组织镉吸收量、土壤pH及土壤有效态镉含量的影响。结果表明:3种改良剂均增加了小麦籽粒和茎秆重,对小麦的生长起到了促进作用,24g/kg鸡粪(B3)处理下,小麦籽粒重和茎秆重最高;不同改良剂均可降低小麦地上部和根系镉含量,0.004 8g/kg Na_2S(C3)处理水平下,地上部和根系镉含量与对照相比分别下降了69.72%,59.42%,下降幅度最大。其中,24g/kg鸡粪(B3)处理水平下转运系数最小,对重金属从根系向地上部迁移的抑制力最强;鸡粪(B)、Na_2S(C)可显著降低小麦籽粒中的镉浓度,K2HPO4(A)对降低小麦籽粒镉浓度无显著影响,但随着用量的增加,小麦籽粒镉浓度呈现降低的趋势,3种改良剂对降低小麦籽粒镉浓度的作用效果为Na_2S鸡粪K_2HPO_4;施加改良剂增加了土壤pH,土壤有效态镉含量随改良剂用量的增加呈下降趋势,24g/kg鸡粪(B3)与对照相比下降幅度最大,达48%。     

施用不同磷肥对海泡石钝化修复镉污染土壤影响的研究

通过油菜盆栽试验研究了添加不同剂量磷肥对重金属Cd污染土壤海泡石钝化修复效应的影响。结果表明:海泡石(S)、海泡石钝化的基础上施钙镁磷肥(S+CMP)和普钙(S+SSP)均显著降低了油菜地上部位和根部中Cd含量(P0.05),其中地上部位中Cd含量的降低率分别为74.73%、8.80%~62.63%和67.58%~70.33%;根部中Cd含量的降低率分别为84.40%、33.67%~79.37%和73.79%~92.16%,S处理和S+CMP处理均能显著的增加油菜的生物量(P0.05),但S+SSP处理对油菜生物量影响不明显。与CK相比,S、S+SSP和S+CMP处理均显著提高了土壤pH值,且显著降低了TCLP(Toxicity characteristic leaching procedure,TCLP)浸提态Cd含量(P0.05),其降低率分别为43.86%、36.84%~52.63%和26.32%~31.58%。S处理和S+CMP处理显著的增加了土壤脲酶活性,且S、S+SSP和S+CMP处理均不同程度的增加了土壤过氧化氢酶活性,在一定程度上改善了土壤环境质量。     

Removal of Lead from Contaminated Soils by Typha Angustifolia

A greenhouse study was demonstrated for removal of lead (Pb) from contaminated soil by the narrow — leaved cattail, Typha angustifolia. The plants were grown in sandy loam soil containing various concentrations of Pb(NO₃)₂ (53.3, 106.7, 160, 213.3, and 266.7 mg Pb kg^-1 soil). Most lead was accumulated in roots and then transported to leaves. In soil contaminated with 266.7 mg kg^-1 of lead, the plants accumulated 7492.6 mg Pb kg^-1 dry weight in the roots and 167 mg Pb kg^-1 dry weight in the leaves. Yet, no growth retardation from lead was detected. T. angustifolia has high potential as a plant to clean up lead contaminated soil due to its vigorous growth, high biomass productivity, and because it is a perennial in nature. Further work is required to study on the iron plaque formation and its role in metal immobilization.     

Remediation of Lead Contaminated Soils by Stabilization/Solidification

Most available remediation technologies for treatment of heavymetal contaminated soils are very expensive and result in residues requiring further treatment. Stabilization/solidification (immobilization) techniques however, which aredesigned to decrease leaching potential of heavy metals from soil by addition of chemical additives, provide very cost-effective solutions for heavy metal contaminated soils. Thisstudy investigates the most efficient additive for immobilization of lead. To achieve this goal, several leachingexperiments were conducted for mixtures of different additives(lime, activated carbon, clay, zeolite, sand and cement) withartificially Pb contaminated (spiked) soil samples in accordancewith the Toxicity Characterization Leaching Procedure (TCLP) developed by U.S. EPA. Results showed that among the additivestried, activated carbon, clay, zeolite and sand are not very efficient for Pb immobilization. On the other hand, lime andcement are significantly effective in Pb immobilization with 88% efficiency at 1:21 lime:soil ratio and 99% efficiency at1:15 cement:soil ratio, respectively.     

有机酸和磷对两种污染土壤铅的释放作用研究

用土壤培养和化学浸提法研究了不同低分子量有机酸和磷对污染土壤中铅释放的影响。结果表明,随有机酸浓度增加,铅污染红壤、棕壤中可溶出铅量均增加。当供试有机酸浓度≥1mmol·L-1时,相同浓度有机酸溶出铅量为柠檬酸〉乙酸〉草酸;当有机酸浓度≤0.5mmol·L-1时,溶出铅量为草酸〉柠檬酸〉乙酸。将2g·kg-1磷及50mmol·kg-1有机酸与铅污染红壤以不同方式混合后,柠檬酸处理的溶出铅比率（在污染土壤中加入P、有机酸后溶出铅含量与单加有机酸溶出铅含量之比）为66%（先加有机酸再加磷）、58%（有机酸与磷同时加入）、70%（先加磷再加有机酸）,草酸处理（方式同上）的溶出铅比率为90%、89%、94%,乙酸处理（方式同上）的为10%、8%、10%。铅污染棕壤上,以上处理的溶出铅比率分别为106.46%、104.43%、105.19%（柠檬酸）;43%、48%、58%（草酸）;38%、42%、55%（乙酸）。供试条件下,红壤最低溶出铅比率低于棕壤。     

Organic and Inorganic Amendments Affect Soil Concentration and Accumulation of Cadmium and Lead in Wheat in Calcareous Alkaline Soils

Irrigation with untreated effluent in periurban agriculture could result in accumulation and bioconcentrations of cadmium (Cd) and lead (Pb). Different amendments were used to investigate their effect on availability, concentration, and uptake of metals by wheat in texturally different soils. Crop was irrigated with water containing Cd and Pb at 20 mg L^?1, thereby adding 260 mg pot^?1 of each metal. Amendments included calcium carbonate at 6 or 12%, gypsum at 50 or 100% of the soil gypsum requirement, farm manure at 7.50 or 15.00 g kg^?1 soil, and a control. Amendments decreased ammonium bicarbonate diethylenetriaminepentaacetic acid (AB-DTPA)–extractable Cd and Pb concentrations and uptake by wheat. Dry matter, concentration, uptake, and extractability of Cd and Pb were greater in sandy loam soil compared with those in sandy clay loam soil irrespective of amendments. Sequential extraction showed that more metals were extracted from the control in all fractions and that predominantly metals were found in the carbonate fraction.     

土壤主要理化性质对湘粤污染农田镉稳定效果的影响

利用盆栽试验研究了稳定剂(石灰、海泡石联合施用)对湖南、广东两省区不同性质土壤上生长的小青菜(Brassica chinensis L.)生物量、重金属吸收以及土壤pH和重金属提取态含量的影响,探讨了影响镉(Cd)稳定修复效果的土壤性质参数。结果表明:施加稳定剂对增加酸性土壤上小青菜生物量效果显著,土壤pH、有机质(OM)、全量Cd和黏粒是影响小青菜生物量变化的主要因素;土壤pH、阳离子交换量(CEC)、OM、黏粒是影响小青菜Cd含量变化的主要因素;土壤pH、CEC、全量Cd和黏粒是影响土壤提取态Cd含量变化的主要因素。     

Plant Availability and Uptake of Lead, Zinc, and Cadmium in Soils Contaminated with Anti-corrosion Paint from Pylons in Comparison to Heavy Metal Contaminated Urban Soils

Red lead (Pb₃O₄) has been used extensively in the past as an anti-corrosion paint for the protection of steel constructions. Prominent examples being some of the 200,000 high-voltage pylons in Germany which have been treated with red lead anti-corrosion paints until about 1970. Through weathering and maintenance work, paint compounds and particles are deposited on the soils beneath these constructions. In the present study, six such “pylon soils” were investigated in order to characterize the plant availability and plant uptake of Pb, Cd, and Zn. For comparison, three urban soils with similar levels of heavy metal contamination were included. One phase extractions with 1 M NH₄NO₃, sequential extractions (seven steps), and extractions at different soil pH were used to evaluate the heavy metal binding forms in the soil and availability to plants. Greenhouse experiments were conducted to determine heavy metal uptake by Lolium multiflorum and Lactuca sativa var. crispa in untreated and limed red lead paint contaminated soils. Concentrations of Pb and Zn in the pylon soils were elevated with maximum values of 783 mg Pb kg⁻¹ and 635 Zn mg kg⁻¹ while the soil Cd content was similar to nearby reference soils. The pylon soils were characterized by exceptionally high proportions of NH₄NO₃-extractable Pb reaching up to 17% of total Pb. Even if the relatively low pH of the soils is considered (pH 4.3–4.9), this appears to be a specific feature of the red lead contamination since similarly contaminated urban soils have to be acidified to pH 2.5 to achieve a similarly high Pb extractability. The Pb content in L. multiflorum shoots reached maximum values of 73 mg kg⁻¹ after a cultivation time of 4 weeks in pylon soil. Lime amendment reduced the plant uptake of Pb and Zn significantly by up to 91%. But L. sativa var. crispa cultivated on soils limed to neutral pH still contained critical Pb concentrations (up to 0.6 mg kg⁻¹ fresh weight). Possible mechanisms for the exceptionally high plant availability of soil Pb derived from red lead paint are discussed.     

不同钝化剂对铜污染土壤原位钝化修复

考察了磷酸二氢钾、碳酸钙、硅酸钠、自制草木灰和自制生物质炭5种钝化剂对Cu污染土壤的钝化修复效果,对修复后的土壤进行了X射线衍射(XRD)分析;同时,对欧共体标准物质局提出的三步提取法(简称BCR法)进行了适当的改进,并运用改进的BCR法对Cu在土壤中的形态进行分析,以探讨不同钝化剂的作用机理。结果表明,5种钝化剂的投加量分别为50、100、20、20和20 g/kg时,对土壤钝化修复效果最佳,投加钝化剂后,土壤中可交换态Cu含量快速减少、残渣态Cu含量快速增加。其中,自制草木灰由于提高土壤p H更易与Cu生成沉淀,对Cu的钝化效果最佳,该钝化剂使有效态Cu含量减少53%,可交换态Cu含量减少49.2%,残渣态Cu含量增加4.7倍,有效地降低了Cu的生物毒性。     

水分调控和钝化剂处理对水稻土镉的钝化效应及其机理

采用盆栽试验,研究了水分管理和钝化剂处理对红壤性水稻土重金属镉的钝化效应及其作用机理。结果表明,在土壤镉含量为0．75mg·kg。下,添加海泡石复配磷肥可以显著提高土壤pH值,长期淹水、常规管理水分条件下,土壤交换态cd分别降低了20．4％和15．7％,碳酸盐结合态cd分别下降了15．5％和14．1％,糙米cd分别降低了52．3％和46．O％。未添加钝化剂条件下,长期淹水处理的根表Fe（Ⅱ）含量比常规处理增加了1．2倍,根表cd含量则是常规处理的82．6％。土壤经钝化处理后,长期淹水和常规管理水分条件下,根表Fe（Ⅱ）分别增加了40．1％和70．0％,而根表cd分别降低了35．3％和42．4％。糙米cd含量与根表Fe（Ⅱ）含量呈显著负相关,与根表cd含量呈显著正相关。土壤Fe“和cd“对水稻根表吸附点位的竞争以及土壤镉较低的生物有效性是钝化处理组糙米镉含量下降的主要原因。     

Remediation of Soils Contaminated with Molybdenum using Soil Amendments and Phytoremediation

For ruminants, there is a narrow span betweennutritional deficiency of Molybdenum and its potential toxicity. Molybdenosis occurs among cattlefeeding on forage with Mo concentrations above10 μg g^-1 or a Cu:Mo ratio <2. In the areaunder investigation forage Mo contents in the valleyare as high as 180 μg g^-1 due to industrialpollution, while the alpine pastures, where cattlegraze during summer, are nutrient (e.g. Cu) deficient.When driven to the valley pastures in fall, animalsoften fell ill with molybdenosis, and several died.The aim of the study was to remediate this 300 ha area. Two approaches were attempted: (1) to reduce theMo contents of the forage by immobilizing soil Mo, and(2) to increase plant Mo contents by mobilizing soilMo to increase plant Mo which may then be removed fromthe system (phytoremediation).In a soil extraction experiment we demonstrated thatphosphate fertilization, ammonium sulfate amendment,vermiculite, humic acid and sewage sludge increased Moleaching by 30 to 110%. Fe-humate and Mn-humateapplication decreased Mo in the leachate from96 μg L^-1 to 55 and 7 μg L^-1,respectively. Plant Mo contents were increased up to170% by P-fertilizer and up to 150% by vermiculite.Conversely, sewage sludge, Fe- and Mn-humate decreasedplant Mo contents by 60, 40 and 75% in thegreenhouse. In the field study, the effects weresmaller, but Mo export through plant harvest increasedby 88% after P-fertilization and 84% aftervermiculite amendment. Mn-humate and sewage sludgedecreased plant Mo content by 25 and 40%,respectively, rendering the forage suitable forfeeding of ruminants. P-fertilization and vermiculitemay thus be recommended for the severely contaminatedsites to enhance phytoremediation through Mo export,and Mn-humate and sewage sludge application appearsuited to remediate the less severely contaminated sites.     

不同改良剂施用对污染土壤养分转化及砷和铅生物有效性的影响

为比较不同小龙虾壳基土壤改良剂对砷、铅复合污染土壤的修复效果,通过盆栽试验,探究施用1％(w/w)小龙虾壳粉(CSP)、甲壳素(CT)、小龙虾壳炭(CSB)及甲壳素-小龙虾壳炭配施(CT-CSB,CT∶CSB为1∶1)对土壤养分、酶活性、重金属生物有效性及青菜生长的影响.结果 表明,不同改良剂施用均可显著提高土壤pH和...