施氮量对豫北冬小麦产量及子粒主要矿质元素含量的影响

以兰考矮早8、豫麦49-198和平安8号为材料,设置5个氮素水平（0、120、180、240、360kg/hm ²）,研究不同施氮量对豫北冬小麦子粒产量及其N、P、K、Ca、Mg、Fe、Mn、Cu、Zn、B等矿质元素含量的影响。结果表明：子粒中N与B（r=0.879）、N与Mg（r=0.858）、Mg与Zn（r=0.871）、Mg与B（r=0.877）含量间相关系数较高。施氮显著提高了子粒N、Ca、Fe、Cu、Zn、B含量,K、Mg含量受施氮量影响较小,但P和Mn含量明显下降。兰考矮早8子粒中各种矿质元素（除B外）含量明显高于平安8号,豫麦49-198介于二者之间。施氮在提高小麦子粒产量的同时降低了P/Ca、P/Mg、P/Fe和P/Zn的值,增强了Ca、Mg、Fe、Zn的生物有效性。此外,研究发现施氮量达到180kg/hm ²后,继续增施氮肥小麦产量难以提升。可见,合理的氮肥管理可以提高豫北地区冬小麦产量及子粒中微量元素的含量;过量施氮不仅难以提高子粒产量,还会降低子粒P和Mn的含量。     

潮间带沉积物中重金属污染评价及生物有效性研究进展

潮间带是一个典型的环境脆弱带和敏感带,极易受到人类活动的破坏.潮间带重金属除了直接对潮间带生物有影响外,还可以通过过食物链的富集和放大作用影响人类健康,同时由于潮间带水动力和生物活动的影响,造成重金属的重新分布和释放,产生重金属的"二次污染",直接危害近岸环境.开展重金属元素在潮间带沉积物中含量、赋存形态、污染评价及其生物有效性已成为目前环境科学领域中十分重要的研究内容和任务,国内外学者均对河流沉积物重金属污染开展了大量的研究.文章从这4个方面阐述了潮间带沉积物重金属研究进展,以期为潮间带沉积物重金属研究提供一定的参考.     

腐殖酸结合汞对多年生植物(Citrus Sinensis L. Osbeck)的生物有效性初探

野外采集广柑树及供其生长的土壤,研究多年生植物对土壤Hg的吸收及与土壤理化性质、腐殖酸结合汞（HS—Hg）的关系。结果表明,在酸性土壤环境中,酸性过强,果树吸收Hg量会更低;果实部分Hg含量与土壤的有机质或腐殖酸含量呈现负相关关系;HS—Hg特别是FA—Hg（富啡酸结合汞）组分是果树吸收、积累Hg的重要来源,其与根Hg的相关系数达到0．700^＊-0．759^＊＊,且以表层土壤更能提供有效的HS—Hg。     

除草剂污染堆肥用量对黄瓜生物有效性的影响

化学除草已成为确保现代农业生产不可或缺的技术，但因除草剂会在非靶标植物中残留，进
而导致堆肥和有机肥料产品被除草剂污染，为避免堆肥及其产品在不合理应用时对后茬植物的生长产生不
良影响，造成不可挽回的损失，本试验采用市售基质、普通堆肥和受除草剂污染的堆肥为试材，设置无污
染堆肥处理（C1）、氯氨吡啶酸污染堆肥处理（C2）和二氯吡啶酸污染堆肥处理（C3）3 个处理，在0、5%、
10% 和20% 堆肥不同用量条件下，以黄瓜的出苗率和播种后45 d 时植株的节间距、株高、茎粗、植株干质量、
叶片数、叶面积、叶片卷曲情况和壮苗指数为评价指标。结果表明，受除草剂污染的堆肥对黄瓜种子的萌
发有抑制作用，且堆肥用量越大，出苗率越低，而且黄瓜幼苗表现出严重的除草剂药害症状，植株纤弱，
叶片狭小、卷曲。两种除草剂污染堆肥对黄瓜的影响呈现不同的规律，在堆肥用量相同的条件下，氯氨吡
啶酸比二氯吡啶酸对黄瓜的药害严重，这表明越高效的除草剂随堆肥或有机肥的施用对后茬敏感植物的药
害风险越大。     

合成Fe-EDDHA化学结构分析及其生物有效性研究初报

通过对合成的Fe -EDDHA与荷兰AkzoNobel化学公司产品叶绿灵的红外光谱及核磁共振氢谱图谱分析比较 ,初步确定两者主体化学结构一致。田间生物有效性试验表明 ,合成有机螯合铁肥及荷兰产叶绿灵均可显著提高花生叶绿素含量 ,改善花生铁素营养 ,提高花生产量     

Effects of modified Pb-, Zn-, and Cd- availability on the microbial communities and on the degradation of isoproturon in a heavy metal contaminated soil

The effects of modified heavy metal (HM) availability on the microbial community structure and on the microbe-mediated degradation of herbicide isoproturon (IPU) were evaluated in soil with a long-term HM contamination. The fate of ¹⁴C-ring labelled IPU was investigated for over 60 days under controlled microcosm conditions. Phosphate mineral apatite and a water solution of Pb, Zn, and Cd salts were previously homogeneously mixed into the soil material to reduce and to increase the proportion of bioavailable HM, respectively. The availability of Pb, Zn, and Cd was determined by HM fractionation and plant uptake 110 days after the addition of amendments, shortly before IPU addition. Apatite treatment reduced the availability of HM, but did not affect the microbial biomass and the microbial community structure on the genotype level (total soil DNA-RAPD). However, it changed the microbial community structure on the phenotype level, based on the composition of phospholipid fatty acids (PLFA) at the end of the degradation experiment. The degradation of IPU did not change. In contrast to apatite treatment, HM supplementation increased the bioavailability of Pb, Zn and Cd, which resulted in biomass reduction and changes of microbial community structure on the genotypic (total soil DNA-RAPD) and phenotypic (PLFA) level. Increased bioavailability of HM also significantly reduced the rate of IPU degradation and mineralisation. The total mineralisation over a period of 60 days decreased from 12 to 5% of initial ¹⁴C. Increased HM bioavailability did not influence the degradation pathways and kinetics of IPU.     

Hydrolase activity, microbial biomass and community structure in long-term Cd-contaminated soils

Long-term effects of high Cd concentrations on enzyme activities, microbial biomass and respiration and bacterial community structure of soils were assessed in sandy soils where Cd was added between 1988 and 1990 as Cd(NO₃)₂ to reach concentrations ranging from 0 to 0.36 mmol Cd kg⁻¹ dry weight soil. Soils were mantained under maize and grass cultivation, or ‘set-aside’ regimes, for 1 year. Solubility of Cd and its bioavailability were measured by chemical extractions or by the BIOMET bacterial biosensor system. Cadmium solubility was very low, and Cd bioavailability was barely detectable even in soils polluted with 0.36 mmol Cd kg⁻¹. Soil microbial biomass carbon (B_C) was slightly decreased and respiration was increased significantly even at the lower Cd concentration and as a consequence the metabolic quotient (qCO₂) was increased, indicating a stressful condition for soil microflora. However, Cd-contaminated soils also had a lower total organic C (TOC) content and thus the microbial biomass C-to-TOC ratio was unaffected by Cd. Alkaline phosphomonoesterase, arylsulphatase and protease activities were significantly reduced in all Cd-contaminated soils whereas acid phosphomonoesterase, β-glucosidase and urease activites were unaffected by Cd. Neither changes in physiological groups of bacteria, nor of Cd resistant bacteria could be detected in numbers of the culturable bacterial community. Denaturing gradient gel electrophoresis analysis of the bacterial community showed slight changes in maize cropped soils containing 0.18 and 0.36 mmol Cd kg⁻¹ soil as compared to the control. It was concluded that high Cd concentrations induced mainly physiological adaptations rather than selection for metal-resistant culturable soil microflora, regardless of Cd concentration, and that some biochemical parameters were more sensitive to stress than others.     

Critical body residues (CBRs) for ecotoxicological soil quality assessment: copper in earthworms

The term ‘critical body residue’ (CBR) was defined as the lowest observed total body concentration of a contaminant in an organism, which is associated with the occurrence of adverse toxic effects in either individuals or populations of a defined age or stage of development. In this study, internal toxicity thresholds were determined for copper in the clitellated adult stage of earthworms (Lumbricus rubellus and Aporrectodea caliginosa). The objective was to assess the applicability of CBRs as a practical tool in soil quality assessment of contaminated sites and as a means of a sustainable protection of earthworm fauna. Laboratory studies showed that body concentrations of Cu were generally in agreement with the chemically available CaCl₂-extractable fraction in soil, but that there was also some evidence of internal pH-related homeostatic regulation. Toxicological correlates of body Cu concentrations with adverse effects on cocoon production (fecundity) suggested an approximate sublethal internal threshold of about 40 mg kg⁻¹, with mortality occurring at about 60 mg kg⁻¹. Adult L. rubellus sampled from areas with a wide range of metal pollution showed body Cu concentrations with a minimum of 8 mg kg⁻¹ and a maximum of 60 mg kg⁻¹. Beyond this apparent physiological tolerance range, environmental management directed at optimal earthworm population survival may not be sustainable in contaminated fields. Studies of L. rubellus colonizing a metal-contaminated experimental sludge-treated field showed that a reduced rate of colonization can already be associated with an average body Cu concentration of 25 mg kg⁻¹. However, in this particular field situation mixture effects of other metals that were also present in the soil and the occurrence of avoidance behaviour during colonization may have contributed to this low internal toxicity threshold. It is concluded that the CBR approach seems to be a feasible option for use as a tool in a bioavailability-based soil quality assessment, even for essential trace metals like copper, but that further insight may be needed to establish the uncertainty and reliability of the application in environmental quality assessment and decision making.     

Biological evaluation of iron availability from pre-adolescent diets by using anaemic rats

The bioavailability of iron from habitually consumed diet by pre-adolescent children of low socio-economic group and the diet supplemented with additional 8 g of protein supplied by 34 g legumes (Green gram and Moth bean 1:1) or 195 ml of buffalo's milk to per day diet was studied in anaemic rats using haemoglobin regeneration method. The bioavailability of iron for haemoglobin regeneration relative to FeSO₄ was 69.5 percent from milk supplemented diet as compared to 47.5 percent from the diet normally consumed by pre-adolescent children of low socio-economic group while legume supplementation to the diet showed no improvement.     

The toxicants and phosphorus content of some Nigerian vegetables

The oxalate, hydrocyanic acid, phytic acid and phosphorus contents of twelve leafy vegetables were determined. The values ranged from 47.7–194.3 mg/100 g DM, 4.32–23.8 mg/100 g DM, 90–260 mg/100 g DM and 215–1110 mg/100 g DM, respectively. The ratio of phytic acid to phosphorus ranged from 13.9–90.7. The leaves contained low levels of hydrocyanic acid, while the oxalate, phytic acid and phosphorus contents were high. The results are discussed in terms of their clinical implications and nutritive values.