广西常用饲料、牧草中铜、锌、铁、锰、钴、钼含量的初步调查

在广西54个县、市采集了81种常用饲料、牧草778个样本进行铜、锌、铁、锰、钴、钼6种微量元素分析,结果表明,这些微量元素的含量随饲料、牧草种类和地区的不同而有较大的差异。广西大多数饲料、牧草缺锌。铜、锰和铁的含量在谷类籽实较低。钴在大多数饲料中含量正常。钼的含量正常并低于中毒量6mg/kg。     

福建铁观音茶园土壤中铅、镉、砷、铬、汞、铜、氟的环境质量现状分析

为了解福建省铁观音茶园土壤中主要污染元素的含量状况及其对茶叶生产的影响, 采用野外调查和室内分析相结合的方法研究了福建省铁观音茶主产地安溪、华安和永春县150 个茶园土壤中铅、镉、砷、铬、汞、铜、氟的含量, 并进行了环境质量现状评价。结果表明, 所有土壤的镉、铅、氟含量, 97%以上土壤的铬、砷、汞含量均低于茶叶产地环境技术条件(NY/T 853—2004)中相应的限量; 92%以上土壤的镉、铬、砷、汞含量和70%以上土壤的铅含量低于有机茶产地环境条件(NY 5199—2002)中相应的限量。变质岩发育的土壤镉和氟含量较高, 砂岩类发育的土壤铬含量较高, 流纹质凝灰岩类发育的土壤铅含量较高, 流纹岩类发育的土壤砷含量较高, 闪长岩类发育的土壤汞和铜含量较高; 水稻土改种的茶园土壤镉、铅和汞含量较高, 铬和砷含量较低; 赤红壤发育的土壤中铅含量较高, 黄壤发育的土壤中铬和砷含量较高, 红壤发育的土壤中铜含量较高。就所研究的元素而言, 大部分供试茶园土壤是清洁和安全的。     

光倒剌鲃肌肉中钙、磷、铁、锰、锌、铜、硒的初步测定

用常规方法对光倒剌 Spinibarbushollandi Oshima肌肉中几种矿物元素 (亦称生命元素 )进行分析 ,结果表明 :每 1 0 0 g干样中含钙 85.6mg,磷 1 0 0 .4 mg,铁 3.51 mg,锰 2 .4 5mg,锌 5.37mg,铜0 .2 8mg,硒 34 6.3μg。认为光倒剌是一种营养价值较高 ,具有重要开发价值的优质淡水鱼类     

光倒剌繴肌肉中钙、磷、铁、锰、锌、铜、硒的初步测定

用常规方法对光倒剌繵Spinibarbus hollandi Oshima肌肉中几种矿物元素（亦称生命元素）进行分析，结果表明每100g干样中含钙85.6mg,磷100.4mg,铁3.51mg,锰2.45mg,锌5.37mg,铜0.28mg,硒346.3μg。认为光倒剌繵是一种营养价值较高，具有重要开发价值的优质淡水鱼类。     

集约化猪场污染物中铜、锌、铬、砷、铅的检测

通过研究不同的消解体系对集约化猪场污染物猪粪中铜、锌、铬、砷、铅的消解效果,最终确立了以HNO_3-HCl-HF为消解体系的高压密闭消解法,并利用ICP-OES与ICP-MS测定了猪粪中铜、锌、铬、砷、铅5种金属元素。结果表明,本实验的消解方法线性关系均良好,相关系数R均大于0.999 7,ICP-OES精密度为2.2%~9.7%,加标回收率为80.0%~108.9%;ICP-MS精密度为2.0%~10.6%,加标回收率为95.0%~112.5%,说明此方法适用于猪粪中各元素的测定,结果准确可靠。     

我国东部七省（闽、浙、赣、湘、鄂、苏、皖）生态系统对酸沉降的临界负荷的

本用MAGIC区域模型研究了我国东部地区生态系统对酸沉降的临界负荷,并初步编制了临界负荷图。根据模型的预测结果,对不同酸沉降水平下,该地区土壤的酸化趋势进行了讨论。根据所编制的酸沉降临界负荷图,讨论了我国东部七省临界负荷的概况及其实际意义。     

Cd、Pb、Cu、Zn、As复合污染对龙须草生长的影响

本文研究了不同处理水平下Cd、Pb、Cu、Zn、As复合污染对龙须草生长的影响。结果表明,龙须草地下部对重金属的抗性大于地上部。在接近土壤环境质量二级标准上限值时,龙须草生长正常,减产幅度<10%;在含Cd5mgkg-1、Pb600mgkg-1、Cu125mgkg-1、Zn300mgkg-1、As50mgkg-1的复合污染土壤上,龙须草地下部干重与对照相比较差异性不显著(α=0.01);在含矿毒水河水污染土壤和尾矿砂污染水稻土壤上,龙须草地下部干重与对照相当,且地上部干重分别为对照的61.58%和40.64%。这些说明龙须草在土壤重金属复合污染修复中具有良好的应用前景。     

原子吸收光谱法测定土壤中铜、锌、镍、钴、铅的背景校正

近年来,由于原子吸收分光光度计的不断改进和完善,测量精度已有很大的提高,致使能直接地在土壤消化液中测量微量的Cu、Zn、Ni、Co、Pb等元素。     

生物炭及生物炭-矿物复合物对菌根侵染、小麦和高粱营养的影响

The high price of synthetic fertilisers and the price barrier for biochar as a soil amendment have encouraged the exploration of using biochar in fertiliser replacement formulations. Biochars coupled with fertilisers can be applied at lower application rates to achieve benefits in plant growth and nutrition, as well as soil biological fertility.~It is necessary to evaluate the use of biochar as a fertiliser substitute.~Therefore, this study investigated the comparative influences of biochars, including {\it Acacia saligna} (AS), Simcoa jarrah (SJ) and Wundowie jarrah (WJ), mineral fertiliser with microbes (MF + M), biochar-mineral complex (BMC) and their combination on mycorrhizal colonisation, growth and nutrition of wheat in a glasshouse experiment and sorghum in field conditions. BMC + MF + M treatment produced higher mycorrhizal colonisation than MF + M alone, indicating that BMC had a significant role in increasing mycorrhizal colonisation.~SJ (treated with acetic acid) and MF + M treatments, as well as AS + MF + M application, showed si\-milar effects on mycorrhizal colonisation, but lower colonisation than the BMC~+~MF~+~M treatment.~Overall, the BMC + MF + M treatment supported the maximum shoot, root and total plant dry weight followed by AS + MF + M and WJ + MF + M. The~MF + M treatment had the maximum shoot N and K concentrations, while BMC + MF + M application had the maximum shoot P concentration. AS + MF + M and WJ + MF + M treatments supported the maximum N uptake by wheat shoots, while BMC + MF + M supported the maximum P uptake.~The results showed that biochars and BMCs could increase mycorrhizal colonisation, plant growth and nutrient uptake of wheat, particularly N, P, K, S and Zn. The field experiment confirmed that BMC application at a rate of 300 kg ha$^{-1}$ could increase the yield of irrigated sorghum on a loam soil and provide better applied P use efficiency compared to a water-soluble fertiliser alone. These results indicated that biochar-based fertilisers might increase the resilience and sustainability of dryland cropping in environments such as in Western Australia and warrant further field evaluation.     

开发更高效的生物炭肥料提高辣椒产量和质量

Utilization of biochar at high application rates can increase soil C and crop yields, decrease greenhouse gas emissions and reduce nutrient run-off from soils. However, the high application rate of 10 t ha-1may not return a profit to the farmer due to the high cost of biochar. In this study biochar was modified through pre-treating the biomass and post-treating with phosphoric acid, minerals and different chemical fertilisers to study the effects of two new enhanced biochar fertilisers on the yield and quality of green pepper in a field experiment with 5 fertilisation treatments and 3 replications. The two new biochar fertilisers significantly(P 0.05) increased the yield of green pepper(11.33–11.47 t ha-1), compared with the conventional chemical fertiliser(9.72 t ha-1). The biochar fertiliser treatments improved the vitamin C content of green pepper from 236.99 to 278.28 mg kg-1, and also significantly(P 0.05) reduced the nitrate content from 132.32 to 101.92 mg kg-1, compared with chemical fertiliser. This study indicated that, compared to the use of conventional chemical fertiliser, all of the biochar fertiliser treatments could significantly improve the yield and quality of green pepper.     

生物炭和高吸水性树脂对栽培基质性状及空心菜生长的影响

Most previous researches have focused on biochar application in agricultural soils; however, limited information is available concerning the effects of biochar amendment on greenhouse substrate properties. A greenhouse experiment was conducted to investigate effects of wheat straw biochar(0–160 m L L-1) and super absorbent polymer(SAP, 0.8 g L-1) on physical and chemical properties of a substrate based on spent pig litter compost and the growth of water spinach(Ipomoea aquatica Forsk). Total porosity, water-holding capacity, p H and electrical conductivity(EC) of the substrate significantly increased with increasing biochar rates, especially in the substrate without SAP. The values of p H and EC were significantly lower in the substrate with SAP than those without SAP at the high biochar application rates(100–160 m L L-1). The germination rates of water spinach decreased with increasing biochar rates when biochar was added alone(76.9%–83.7%), whereas the rates increased to 83.6%–85.8% when biochar was added in combination with SAP. Growth parameters of water spinach and nutrient uptake by shoots and roots increased with increasing biochar rates and reached the maximum values at the biochar rate of 100 m L L-1. There were significant cubic relationships between the uptake of nutrients(N, P, and K) and biochar rates, both with and without SAP addition. In order to avoid negative effects on plant growth,the biochar application rate should be controlled at an optimal level(100 m L L-1). The SAP addition not only enhanced the positive effects of biochar application on the properties of the substrate, but also inhibited the excessive rise of p H and EC following biochar additions, which led to better plant growth and enhanced nutrient uptakes by water spinach.     

废水污泥生物炭对圣女果生长、产量及重金属累积效应的对比评估

To investigate the potential effects of wastewater sludge and sludge biochar on growth, yield and metal bioaccumulation of cherry tomato ({\it Lycopersicon esculentum} L.), a pot experiment was carried out under greenhouse environment with three different treatments, control soil (CP), soil with wastewater sludge (SS) and soil with sludge biochar (SB), to reveal the comparative effect between the amendments of wastewater sludge and sludge biochar.~The soil used for pot experiment was Chromosol.~Wastewater sludge and sludge biochar produced through pyrolysis process at 550 $^\circ$C were applied at 10 t ha$^{-1}$. No significant difference was found in growth and production of cherry tomatoes between wastewater sludge and sludge biochar applications to the soil. The accumulation rates of metals in the fruits were lower in the treatment with sludge biochar than in the treatment with wastewater sludge. The study highlights the benefits of risk mitigation from toxic metal accumulation in fruits using wastewater sludge and sludge biochar as soil conditioners.     

碱性土壤中生物炭和NPK肥对大豆产量的协同效应

Biochar effects on legume growth and biological nitrogen fixation have been studied extensively, mostly in acidic soils with laboratory produced biochar. In the present study, a pot experiment in a full factorial experimental design was performed to examine soybean yield and nodulation of three genotypes grown with or without biochar and NPK fertilizers in an alkaline soil. We observed synergistic effects of biochar and NPK fertilizer applications on biomass and seed yields for all three soybean genotypes. Total biomass production and seed yield increased on average by 67\% and 54\%, respectively, with biochar and by 201\% and 182\% with NPK fertilizer application compared to the control. When applications of biochar and NPK fertilizer were combined, the increases were 391\% and 367\%, respectively. However, the biomass production in the control was very low (692 kg ha$^{-1}$) due to a high soil pH (8.80).~The nodulation increased with biochar and NPK fertilizer applications, and was largest with the combined application. A correlation was found between leaf chlorophyll content (single photon avalanche diode value) and nodule number. We suggested that the synergistic increase in yield was due to a decrease in soil pH caused by biochar and NPK fertilizer applications thereby increasing P availability in this alkaline soil.     

土壤生物炭的生产：三种窑模型的比较研究

Biochar has potentials for soil fertility improvement, climate change mitigation and environmental reclamation, and charred biomass can be deliberately incorporated into soil for long-term carbon stabilization and soil amendment. Many different methods have been used for biochar production ranging from laboratory to industrial scales. However, in countryside of developing countries,biomass is generally used for cooking but not charred. Biochar production techniques at farmer scale have remained poorly developed.We developed and tested biochar production kilns for farmers with a dimension of 50.8 cm × 38.1 cm(height × diameter), using three different setups for optimizing oxygen(O2) limitation and syngas circulation: airtight with no syngas circulation(Model I),semi-airtight with external syngas circulation(Model II) and semi-airtight with internal syngas circulation(Model III). A comparative assessment of these biochar production kiln models was made considering biochar pyrolysis time, fuel to biomass ratio, biochar to feedstock ratio and thermogravimetric index(TGI). Among the models, the best quality biochar(TGI = 0.15) was obtained from Model I kiln taking the longest time for pyrolysis(12.5 h) and the highest amount of fuel wood(1.22 kg kg-1biomass). Model III kiln produced comparatively good quality biochar(TGI = 0.11), but with less fuel wood requirement(0.33 kg kg-1biomass) and shorter pyrolysis time(8.5 h). We also tested Model III kiln in a three times larger size under two situations(steel kiln and pit kiln). The biochar to feedstock ratio(0.38) and quality(TGI = 0.14) increased slightly for the larger kilns. Quality of biochar was found to be mainly related to pyrolysis time. The costs for the biochar stove and pit kiln were US$ 65–77, while it was US$ 154 for the large size steel kiln. Model III kiln can potentially be used for both cooking and biochar production at farmer scale.     

Rice Straw-Derived Biochar Properties and Functions as Cu(Ⅱ) and Cyromazine Sorbents as Influenced by Pyrolysis Temperature

In this study, biochars from rice straw(Oryza sativa L.) were prepared at 200–600?C by oxygen-limited pyrolysis to investigate the changes in properties of rice straw biochars produced at different temperatures, and to examine the adsorption capacities of the biochars for a heavy metal, copper(Ⅱ)(Cu(Ⅱ)), and an organic insecticide of cyromazine, as well as to further reveal the adsorption mechanisms.The results obtained with batch experiments showed that the amount of Cu(Ⅱ) adsorbed varied with the pyrolysis temperatures of rice straw biochar. The biochar produced at 400?C had the largest adsorption capacity for Cu(Ⅱ)(0.37 mol kg-1) among the biochars,with the non-electrostatic adsorption as the main adsorption mechanism. The highest adsorption capacity for cyromazine(156.42 g kg-1) was found in the rice straw biochar produced at 600?C, and cyromazine adsorption was exclusively predominated by surface adsorption. An obvious competitive adsorption was found between 5 mmol L-1Cu(II) and 2 g L-1cyromazine when they were in the binary solute system. Biochar may be used to remediate heavy metal- and organic insecticide-contaminated water, while the pyrolysis temperature of feedstocks for producing biochar should be considered for the restoration of multi-contamination.     

生物炭和堆肥提高西澳大利亚沙质平原土壤上的作物产量但这种效应是短期的

Sandplain soils on the south coast of Western Australia have low inherent fertility, which is mainly due to poor nutrient retention caused by insufficient clay and organic colloidal material. Previous research has shown the benefits in nutrient levels and retention from adding clay to sandplain soils; however, there is almost no information on the addition of organic amendments. A field experiment was established at the Esperance Downs Research Station, Western Australian, in May 2010, to assess the effects of wheat straw (WS) and chicken manure (CM) biochars and compost with and without phosphorus (P) addition on soil properties and crop production over five growing seasons. The five seasons alternated between winter and summer crops.~The CM and WS biochar and compost treatments significantly increased crop yields and P uptake in 3, 2 and 1 of the five seasons, respectively. The yield increases $(P<0.05)$ were no more than 8\%. By the end of the third season, no differences in crop yields were found that could be attributed to the organic amendments. The addition of P increased crop yields in each winter cropping season. Phosphorus addition explained more than 30\% of the variation in crop yields. Despite marginal P levels and summer drought conditions, arbuscular mycorrhizal root colonisation was not affected by the organic amendments. There were no significant interactions between the organic amendments and P addition in terms of crop yields, P uptake or P uptake efficiency. We conclude that much of the effect of the organic amendments was due to direct nutrient addition which dissipated over time.     

不同生物炭对中国亚热带地区湿地松生长、氮肥利用率、土壤N2O和CH4排放以及碳变化的影响

Intensive management of planted forests may result in soil degradation and decline in timber yield with successive rotations.Biochars may be beneficial for plant production,nutrient uptake and greenhouse gas mitigation.Biochar properties vary widely and are known to be highly dependent on feedstocks,but their effects on planted forest ecosystem are elusive.This study investigated the effects of chicken manure biochar,sawdust biochar and their feedstocks on 2-year-old Pinus elliottii growth,fertilizer N use efficiency (NUE),soil N2O and CH4 emissions,and C storage in an acidic forest soil in a subtropical area of China for one year.The soil was mixed with materials in a total of 8 treatments:non-amended control (CK);sawdust at 2.16 kg m-2 (SD);chicken manure at 1.26 kg m-2 (CM);sawdust biochar at 2.4 kg m-2 (SDB);chicken manure biochar at 2.4 kg m-2 (CMB);15N-fertilizer alone (10.23 atom％ 15N) (NF);sawdust biochar at 2.4 kg m-2 plus 15N-fertilizer (SDBN) and chicken manure biochar at 2.4 kg m-2 plus 15N-fertilizer (CMBN).Results showed that the CMB treatment increased P.elliottii net primary production (aboveground biomass plus litterfall) and annual net C fixation (ANCF) by about 180％ and 157％,respectively,while the the SDB treatment had little effect on P.elliottii growth.The 15N stable isotope labelling technique revealed that fertilizer NUE was 22.7％ in CK,25.5％ in the NF treatment,and 37.0％ in the CMB treatment.Chicken manure biochar significantly increased soil pH,total N,total P,total K,available P and available K.Only 2％ of the N in chicken manure biochar was available to the tree.The soil N2O emission and CH4 uptake showed no significant differences among the treatments.The apparent C losses from the SD and CM treatments were 35％ and 61％,respectively;while those from the CMB and SDB treatments were negligible.These demonstrated that it is crucial to consider biochar properties while evaluating their effects on plant growth and C sequestration.     

生物炭和其他有机土壤改良剂对Ustoxic Quartzipsamment土壤上植物养分有效性的影响

A sandy soil, Nampong soil(classified as Ustoxic Quartzipsamment), was incubated under controlled condition i) to compare the mineralization of major plant nutrients derived from different types of biochars and other organic soil amendments; ii) to examine their effects on soil properties and plant nutrient availability; and iii) to evaluate the plant nutrient losses in leachate from the rooting zone of soil incorporated with the different amendments. The experiment was arranged in a completely randomized design with 3 replications.Five treatments of soil amendments used were cassava stem base biochar(CSB), rice husk biochar(RHB), chicken manure(CM),compost(CP), and no amendment application(control). The RHB treatment released the highest amounts of mineralized NO-3-N,available P and K(2.30–17.26, 5.50–42.90 and 43.00–187.63 mg kg-1, respectively) while the CM treatment releasing the highest NH+4-N in the range of 1.86–53.67 mg kg-1. The CSB and RHB treatments showed better continuity of mineralization of nutrients than the treatments of CM and CP, particularly in the case of the CSB treatment. In the soil column incubation experiment, the amounts of NH+4-N and NO-3-N in all treatments barely changed on Day 1 to Day 30 of incubation and then the amounts increased markedly on Day 60. On Day 60, the RHB treatment contained a very high amount of NO-3-N( 250 mg kg-1). This suggests that N would become more available 30 d after the incorporation. The CM treatment gave the highest amounts of organic matter and available P in the ranges of 4.64–8.94 g kg-1and 14.41–36.33 mg kg-1, respectively, during the 60-d column incubation. The CSB treatment tended to have higher available K throughout the measuring period. The NO-3-N was leached from the soil column quite quickly on Day 1 of incubation while the loss of NH+4-N decreased slightly from Day 1 until the end of the measurement. The amounts of P and K losses varied with the type of soil amendments, and the pattern of the loss was irregular.