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江苏省几种低硒土壤中硒的形态分布及生物有效性 总被引:22,自引:3,他引:22
利用连续浸提技术研究了江苏省低Se地区 3种土壤 (旱作土和太湖地区水稻土 )的Se含量及其形态分布。结果表明 ,3种土壤Se含量均偏低 ,尤其是长江沉积物发育的砂土属于贫Se土壤。对土壤Se形态分析表明有机物 硫化物结合及元素态Se是这些土壤中Se的主要存在形态 ,其次是残渣态 ,二者之和约占土壤总Se含量的 70 %~ 80 %。 5种形态中 ,除盐酸可提态Se趋向于向犁底层富集外 ,其他几种形态均为耕作层接近或高于犁底层。可溶态Se含量受其他形态Se影响较小 ,受土壤 pH值的影响较大 ;可交换态Se则相反 ,与除可溶态Se外的其他形态和土壤全Se含量均有显著正相关关系 ,但与土壤 pH值和土壤有机质无关。 5种有效Se浸提剂中 ,0.5mol/LNaHCO3浸提的Se与植株含Se量有极显著正相关关系 ,可作为低Se土壤的有效Se浸提剂 相似文献
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土壤性质对土壤–水稻系统中硒迁移的影响 总被引:4,自引:0,他引:4
采集浙江省北部水稻种植区成熟期水稻和对应的土壤样品,分析土壤中硒(Se)总量和7种形态Se的含量以及水稻根、茎、叶、谷各部位的Se含量。结果表明:研究区土壤Se平均含量0.344 mg/kg,达到中Se土壤水平,并且与土壤有机质含量呈显著正相关。7种Se形态中,强有机结合态和腐植酸结合态是主要的两种形态,占Se全量的75.92%;离子交换态、水溶态的含量在1.7%左右;碳酸盐结合态为3.2%。水稻根部富集了大部分的Se(73%),其各部位中Se含量随根、叶、茎、谷的顺序依次减少。将土壤按有机质和p H的大小进行分区分析后发现,当有机质含量小于25 g/kg时,土壤铁锰氧化物结合态Se与水稻根部Se呈显著正相关;当有机质含量大于35 g/kg时,土壤铁锰氧化物结合态Se与谷Se呈显著正相关;当p H7时,碳酸盐态Se与谷Se呈显著负相关。水溶态Se和离子交换态Se与水稻各部位Se含量之间并未呈现明显的相关性。水稻各器官Se含量受土壤p H、有机质含量、各形态Se含量等土壤性质的交互作用影响。 相似文献
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硅酸盐调控抑制水稻对富硒水稻土中Cd吸收 总被引:3,自引:2,他引:1
研究目的:通过水稻盆栽试验,探讨了海泡石(SP)、硅钙复合矿物(CS)和水溶性叶面硅肥(YS)3种硅酸盐不同复配处理对富Se水稻土中Cd的迁移和转运和Se的生物有效性的调控效果,以及对糙米中矿质元素吸收的影响。结果表明,海泡石(SP)、海泡石-硅钙复合矿物(SPC)和海泡石-硅钙复合矿物-水溶硅肥(SCY)处理水稻根际土pH值增加0.15~0.31个单位,使土壤Cd由可交换态向碳酸盐结合态和有机结合态转变,而土壤Se由残渣态向生物可利用态转变。与对照(CK)相比,SP、SPC和SCY处理水稻根际土CaCl2-Cd含量降低了19.5%~34.0%,而土壤有效态Se的含量增加了17.8%~36.8%。且SPC和SCY处理糙米中的Cd含量显著降低,比食品安全国家标准(0.2mg/kg)降低了25.0%~90.0%。各处理在降低糙米中Cd的同时,对糙米中Se含量和各矿质元素(Cu、Fe、Zn、Mg和Mn)无显著影响。该研究可为进一步利用SP有效修复富Se水稻土中Cd污染和提高土壤Se的生物有效性提供了有益途径。 相似文献
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基于通径分析的土壤性质与硒形态的关系——以黑龙江省主要类型土壤为例 总被引:2,自引:0,他引:2
黑龙江省是缺硒(Se)比较严重的省份之一,位于全国低Se带的始端。本文选择黑龙江省不同类型土壤,采用连续浸提法测定了土壤中Se的形态,并运用通径分析法研究了土壤理化性质对土壤Se形态、全Se的影响。结果表明:总Se含量在不同类型土壤中差异较大,整体上处于中等偏低水平;各结合态Se中以有机态和残渣态为主,分别占8.16%~50.5%和26.32%~70.90%,酸溶态占0.80%~33.97%,而水溶态与交换态仅占0.70%~7.18%和0.75%~9.37%。通径分析显示,土壤理化性质通过直接和间接作用共同影响着土壤各赋存形态Se的含量和分解转化方向,但其各自的作用机理和影响强度不同。在土壤各性质中,土壤有效铁、锰和黏粒以及它们间的共同作用决定了土壤Se形态分布,其中,土壤有效铁对于除残渣态Se之外的4种形态Se的生成转化起到了主导作用,而土壤有机碳、pH等其他性质主要通过正或负的间接作用影响Se形态。土壤总Se方面,土壤有效铁、锰及黏粒含量对总Se有较强的富集作用,但土壤有机碳和pH等因素间的相互作用也不可忽略。 相似文献
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为探究有机质在酸性富硒土吸附Se(Ⅳ)过程中的作用,以广西典型富硒区的赤红壤为材料,研究了酸性富硒土去除有机质后,土壤硒的赋存形态、土壤对Se(Ⅳ)的吸附解吸特征及吸附前后土壤基团的变化。结果表明:(1)去除有机质后,土壤中有机结合态硒大幅度减少,铁锰结合态硒成为土壤硒的主要赋存形态。(2)吸附试验表明,土壤对Se(Ⅳ)吸附过程以多分子层的不均质表面吸附为主,吸附过程受控于化学反应与化学吸附;去除有机质后,土壤对Se(Ⅳ)吸附量和吸附强度均显著下降。(3)解吸试验表明,吸附以难解吸的专性吸附为主;去除有机质后,解吸量与解吸率下降,固液分配系数Kd值下降。(4)傅里叶变换红外光谱表明,土壤吸附Se(Ⅳ)与静电引力、络合反应和配位体交换有关;去除有机质减少了有机官能团的数量,导致吸附量减少。综上,有机质的存在,提升了酸性富硒土对Se(Ⅳ)的吸附容量和吸附强度,是造成酸性富硒土硒有效性较低的重要因素。 相似文献
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海南岛砖红壤中铅、镉的化学形态与转化 总被引:2,自引:1,他引:1
采用土培实验和连续提取.原子吸收分光光度法,研究了重金属Pb、Cd在海南岛花岗岩砖红壤中的形态组成、外源Pb、Cd污染及化学修复剂磷、钙、硫对土壤重金属形态的影响.结果表明:在供试原土壤中,重金属Pb的化学形态以结合态和残余态为主,土壤有效态Pb含量较低,其中残余态Pb>有机质结合态Pb>铁锰氧化物结合态Pb>碳酸盐结合态Pb>交换态Pb>水溶态Pb,说明土壤Pb的环境风险较低;重金属Cd的化学形态以铁锰氧化物结合态和碳酸盐结合态为主,土壤中交换态Cd含量较高,其中铁锰氧化物结合态Cd>碳酸盐结合态Cd>交换态Cd>有机结合态Cd>残余态Cd>水溶态Cd,说明土壤Cd的环境风险较高.当外源Pb、Cd污染土壤时,有铁锰结合态Pb>残余态Pb>有机态Pb>碳酸盐结合态Pb>交换态Pb>水溶态Pb,交换态Cd>铁锰氧化物结合态Cd>碳酸盐结合态Cd>残余态Cd>有机态Cd>水溶态Cd的趋势.向污染土壤施加化学改良剂过磷酸钙、硫化钠和石灰,能显著降低水溶态Pb、Cd和交换态Pb、Cd的含量,并使有机结合态Pb、碳酸盐结合态Pb和铁锰氧化物结合态Pb含量下降,但残余态Pb、碳酸盐结合态Cd、铁锰氧化物结合态Cd和有机态Cd有增加的趋势,残余态Cd的含量基本稳定. 相似文献
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按照生态地球化学土壤样品元素形态分析方法,将土壤无机砷分成水溶态、离子交换态、碳酸盐态、腐植酸结合态、铁锰氧化物结合态、强有机结合态和残渣态。通过对吉林西部36个表层土壤样品的测试,分析了土壤不同形态砷的分布和不同形态砷与土壤性质的关系。研究表明,洮南市不同形态砷的分布为:残渣态(65.30%)〉腐植酸结合态(17.39%)〉铁锰氧化物结合态(10.70%)〉碳酸盐态(2.23%)〉水溶态(2.17%)〉强有机结合态(1.17%)〉离子交换态(1.04%)。通榆县不同形态砷的分布为:残渣态(56.66%)〉腐植酸结合态(23.82%)〉铁锰氧化物结合态(11.08%)〉碳酸盐态(2.81%)〉水溶态(2.18%)〉离子交换态(1.98%)〉强有机结合态(1.46%)。残渣态砷是吉林西部土壤砷的主要形态。土壤水溶态砷和铁锰氧化物结合态砷与土壤pH值皆呈极显著正相关;残渣态砷与土壤有机质皆呈极显著负相关,而与土壤阳离子交换量呈极显著正相关。离子交换态砷、碳酸盐态砷、铁锰氧化物结合态砷和强有机结合态砷与土壤矿质元素的关系不大,而水溶态砷、腐植酸结合态砷和残渣态砷与土壤矿质元素的关系密切。 相似文献
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旱改水对土壤Cu含量及其有效性的影响研究结果表明 ,代换态铜是土壤中Cu的强度因子 ,而晶形铁结合态铜和残留态铜为植物无效态铜且需经形态转化才有效 ,其他形态铜既是容量因子也是强度因子 ,其有效程度大致为无定形铁结合态铜 >有机结合态铜 >氧化锰结合态铜 >碳酸盐结合态铜。旱改水促进碳酸盐结合态铜、氧化锰结合态铜尤其是残留态铜向代换态铜、无定形铁结合态铜和有机态铜转化 ,提高土壤铜有效性和可移动性 ,并使Cu淋溶损失 ,导致水旱轮作土壤耕层全Cu贫化 相似文献
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苏南经济快速发展区土壤Cu、Ni、Pb、Zn形态及其有效性定量分析——以昆山市为例 总被引:1,自引:0,他引:1
研究了江苏省昆山市农田土壤有效态Cu、Ni、Pb、Zn各形态含量及其有效性。结果表明,土壤重金属Cu、Ni、Pb、Zn各形态含量以残渣态有机质结合态铁锰氧化物结合态碳酸盐结合态、可交换态,残渣态含量明显高于其他形态。Cu和Pb有机质结合态所占比例相对也较高,分别达36.09%和28.30%。土壤可交换态含量、碳酸盐结合态含量、Fe-Mn氧化物结合态含量及残渣态含量均以Zn最高;土壤有机质结合态含量以Cu最高;土壤可交换态含量变异系数、土壤碳酸盐结合态含量变异系数及土壤Fe-Mn氧化物结合态含量变异系数以Ni为最大;土壤有机质结合态含量变异系数以Zn最大;土壤残渣态含量变异系数以Pb最大。土壤铁锰氧化物结合态铜和可交换态铜对土壤有效态铜含量影响最大;土壤可交换态镍含量对土壤有效态镍含量最大;土壤铁锰氧化物结合态铅和有机质结合态铅对土壤有效态铅含量影响最大;土壤可交换态锌和碳酸盐结合态锌对土壤有效态锌含量影响最大。 相似文献
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为了解云南耕地土壤硒含量状况,采集了640个云南代表性耕地表层土壤样品,对土壤硒含量空间分布特征及其影响因素进行研究。结果表明:(1)云南省耕地土壤硒总量变幅在0.05~7.12 mg/kg,平均含量为0.51 mg/kg,达到富硒水平;(2)不同成土母质发育的土壤硒含量差异较大,基型结晶盐类的玄武岩等发育的土壤硒含量最高,平均为0.77 mg/kg;(3)土壤类型对硒的含量影响明显,其中棕壤硒含量平均为1.24mg/kg,显著高于其他土壤类型,石灰(岩)土硒含量最低仅为0.21mg/kg;从行政区看位于滇东的曲靖市和昭通市土壤硒平均含量明显高于其他州市;(4)相关分析表明,土壤硒含量与土壤p H之间的相关性均没有达到显著水平;而土壤硒含量与土壤有机质呈极显著的正相关性(r=0.110,P 0.001),说明有机质影响土壤硒的含量。 相似文献
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磷对富硒赤红壤与红壤上小白菜硒吸收及土壤硒形态的影响 总被引:2,自引:0,他引:2
采用土培盆栽试验方法,研究了广西两种主要富硒土壤施入不同水平磷对小白菜硒吸收积累的影响及土壤硒形态转化规律,旨在为提高土壤有效形态硒含量及植物硒含量提供理论依据。试验采集广西具有代表性的富硒赤红壤(贵港市桂平市)和富硒红壤(桂林市永福县),设置4个磷梯度盆栽试验。结果表明:相同的磷处理在不同土壤上对小白菜硒吸收效果不同。在富硒赤红壤上低磷处理(P50,50 mg/kg)有利于小白菜地上部和地下部对硒的吸收;在富硒红壤上中磷处理(P110,110 mg/kg)小白菜地上部硒含量最高,地下部施入磷则硒含量均显著低于对照。同时,磷的施入对硒在小白菜体内的转运在两种土壤上也存在差异。在富硒赤红壤上当磷施入量在80 mg/kg以下时,磷的施入会抑制硒从地下部向地上部的转运;在富硒红壤上磷的施入则均能促进硒的转运;但二者均在中磷处理时达到峰值。植株体内硒含量间的差异取决于土壤有效形态硒含量。研究结果显示磷的施入均显著增加了土壤中水溶态和交换态硒的含量,且小白菜硒的含量与土壤中水溶态硒规律一致。研究还发现在两种土壤上不同磷处理对土壤硒形态转化规律不同,这为进一步研究磷与土壤硒间的互作关系提供了参考。 相似文献
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Three soils were incubated for 4-day periods with selenite (0-5 mg Se kg−1) and the effect of straw amendment was also studied for one of these soils. The same soil was also incubated for up to 6 weeks, with and without straw and selenite (0-2 mg Se kg−1). Changes in microbial activity (oxygen respiration) and dynamics (total, fungal biomass; bacterial density number) were assessed. Selenium fractionation and volatilization were also quantified. Selenium addition had no marked effect on respiratory activity, total and fungal biomass whatever the incubation period, but inhibited the growth of heterotrophic bacteria in the longer term. When straw was added, the same trend was observed with more variability. The volatilization losses of Se differed between soils but did not vary significantly over the 6-week period and were not affected by straw addition. Freshly added Se was more easily extracted than native soil Se and its extractability decreased with time, whereas no change in the fractionation of native Se was observed. This study shows that moderate additions of Se may influence microbial dynamics in aerated soil but could not establish a causal link with changes in Se fractionation. 相似文献
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硒是人体的必需元素,硒缺乏会造成多种疾病。通过摄入农产品适量补充硒,能保证人体健康。对作物补充适量硒肥,是增加农产品硒含量的有效措施。作物吸收硒与土壤因素及肥料因素关系密切,判断哪个因素是影响作物吸收硒最关键的因素值得探讨。通过对文献系统调研发现,影响作物吸收硒的土肥因素中,土壤本身的硒含量及硒肥量最关键,土壤pH及有机质含量为活化土壤硒的间接因素,硒肥种类及施肥方式为配合硒肥量的补充因素。促进作物对硒的吸收要结合土壤性质、硒肥量、施肥方式等因素综合考虑,以达到富硒农产品高产高效的目的。 相似文献
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青海东部农田土壤硒分布特征及其影响因素 总被引:2,自引:2,他引:0
植物中硒被认为是人体摄入硒的主要来源,而且大多数植物是从土壤中吸收硒。因此,不同地区土壤硒含量的高低直接影响到该地区食物中的硒含量。本研究以青海省平安地区农田土壤为研究对象,用原子荧光光谱法进行了土壤全硒含量和形态及价态的测定,对平安地区农田土壤全硒含量分布特征及其与成土母质、土壤类型的关系进行了研究。结果表明,平安地区土壤全硒含量变化范围为0.089~0.782 mg/kg,平均值为0.418 mg/kg,其中58%的土壤属于富硒土壤范畴。研究区域耕种淡栗钙土全硒含量最高,平均值为0.574 mg/kg;而灌淤黄土全硒含量最低,平均值为0.293 mg/kg。成土母质中,古近–新近系西宁群红色泥岩中硒含量最高,平均值为0.82 mg/kg。平安地区富硒土壤中硒的富集主要来源于古近–新近系西宁群红色泥岩风化。土壤中硒的赋存形态主要以有机结合态为主,铁锰氧化物结合态硒含量最少。可溶态硒和可交换态及碳酸盐结合态硒均以六价硒为主要赋存价态。平安地区富硒土壤中硒含量适宜,供硒潜力较大,且该地区受外界环境污染较少,具有良好的开发利用前景。 相似文献
17.
《Communications in Soil Science and Plant Analysis》2012,43(11):1362-1375
Selenium (Se) is an essential nutrient for humans and is beneficial for plant growth. To investigate the transformation and bioavailability of Se in tobacco planting soil, selenite and selenate were applied. A pot experiment and sequential extraction scheme were used to investigate the Se contents in different forms in soils treated with Se. A series of equations were applied to model the transformation behavior of Se in this study. The results showed that the forms of selenium were increased significantly by applying the different valence state of water-soluble selenium. The carbonate-bound and iron-manganese (Fe-Mn) oxide–bound species were improved in selenite-added soil, whereas the soluble and exchangeable forms were increased in selenate-added soil. Michaelis-Menten equation fitting results indicated that estimated maximal selenium contents of leaves, stems, and roots in selenate-added soils were 1.83, 15.81, and 20.98 times larger than in selenite-added soils. The utilization levels of selenate were 4.3 to 7.9 times larger than selenite for Nicotiana tabacum L. In conclusion, the bioavailability and mobility of selenate were greater than selenite in Nicotiana tabacum L. planting soil. 相似文献
18.
《Communications in Soil Science and Plant Analysis》2012,43(12):1147-1156
Abstract This study was carried out to determine if ammonium bicarbonate‐DTPA soil test (AB‐DTPA) of Soltanpour and Schwab for simultaneous extraction of P, K, Zn, Fe, Cu and Mn can be used to determine the availability index for Se. Five Mollisols from North Dakota were treated with sodium selenate and were subjected to several wetting and drying cycles. These soils were extracted with hot water and with ammonium bicarbonate‐DTPA (AB‐DTPA) solution for Se analysis. Alfalfa plants were grown in these soils in a growth chamber to determine plant uptake of Se. In addition to the above experiment, coal mine soil and overburden materials from Western Colorado were extracted and analyzed as mentioned above. It was found that hot water and AB‐DTPA extracted approximately equal amounts of Se from Mollisols. A high degree of correlation (r =0.96) was found between Se uptake by plants and AB‐DTPA extractable Se. Extractable level of Se in treated soils was decreased with time due to change of selenate to less soluble Se forms and plant uptake of Se. An AB‐DTPA extractable Se level of over 100 ppb produced alfalfa plants containing 5 ppm or higher levels of Se that can be considered toxic to animals. Soils with about 2000 ppb of extractable Se were highly toxic to alfalfa plants and resulted in plant concentrations of over 1000 ppm of Se. The high rate of selenate (4ppm Se) was less toxic to alfalfa plants in soils of high organic matter content. This lower toxicity was accompanied with lower extractable levels of Se. The AB‐DTPA solution extracted on the average about 31% more Se than hot water from the mine and overburden samples and was highly correlated with the latter (r =0.92). The results indicated the presence of bicarbonate‐exchangeable Se in these materials. 相似文献
19.
Soil-solid phase associations of Se in seleniferous soils of Punjab were investigated by following sequential extraction procedures involving multiple extractions with 0.2 M K2SO4 (2 times), 0.1 M Na2SeO3 (4 times), 0.05 M NH4OH (4 times), 6 M HCl (2 times) and 9 M HNO3 (2 times) vis-a-vis single extractions with 0.25 M KCl, 0.1 M KH2PO4, 4 M HCl and concentrated HCl. Soil samples were equilibrated with 75Se (as Na2SSeO3) @ 9.25 kBq g - 1 soil by incubating at field capacity moisture regime and subjecting to alternate wetting and drying cycles. Following multiple extraction procedure, out of total 75Se added, 8.8 - 26.1% was present in readily available form (0.2 M K2SO4 extractable); 27.6 - 49.0% as isotopically exchangeable (0.1M Na2SeO3 extractable) and 5.3 - 12.0% as organic Se (0.05 M NH4OH extractable). Selenium extractable in K2SO4 was significantly correlated with free iron (r = - 0.774, p < 0.05) and CaCO3 (r = 0.670, p <0.10) content of the soils. Negative relationship was observed between Se uptake by maize (Zea mays L.) and ammonium hydroxide extractable (r = - 0.752, p <0.05) as well as residual Se (r = - 0.726, p <0.05) in soils. Highly positive coefficients of correlation between isotopically exchangeable Se and Se content (r = 0.851, p <0.01) as well as its uptake by maize (r = 0.841, p <0.01) indicated that the isotopically exchangeable form of Se may be considered as an index of bioavailable Se in seleniferous soils of Punjab. None of the fractions defined by following single extraction procedure was correlated with either the soil characteristics or Se uptake by maize plants. Multiple extraction procedure could, thus, better explain the distribution of Se in different fractions and uptake by plants. 相似文献