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1.
在三江平原上,测定 42 个小区中玉米、大豆、小麦籽实 Fe、Mn、Cu 和 Zn 含量和土壤中各形态 Fe、Mn、Cu 和Zn含量.通过相关分析和通径分析,探讨了土壤中各形态Fe、Mn、Cu 和 Zn 的生物有效性,旨在为该地区合理施用微量元素提供科学依据.试验结果表明,玉米、大豆和小麦籽实含 Fe、Mn、Cu 和 Zn 量与土壤中有效态和交换态 Fe、Mn、Cu和Zn含量呈显著或极显著正相关.有机态 Fe、Mn、Cu 和 Zn含量与玉米、大豆和小麦籽实Fe、Mn、Cu 和 Zn含量也有很好的相关关系.交换态对有效态 Fe、Mn、Cu 和 Zn 影响最大,其次是有机质结合态.铁锰氧化物结合态 Fe、Cu 对有效态 Fe、Cu 及碳酸盐结合态 Mn、Zn 对有效态 Mn、Zn 具有一定正效应.而残留态 Fe、Cu 对有效态 Fe、Cu 和铁锰氧化物结合态 Mn 对有效态 Mn 产生负效应. 相似文献
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3.
以滇西南澜沧县为研究区,研究了滇西南亚热带多年生常绿阔叶林、思茅松林和3 a生人工桉树林土壤中微量元素B,Cu,Zn,Fe,Mn的有效含量、分布规律,以及相似生境条件下三种植被类型对土壤微量元素的消耗状况及在土壤剖面中的垂直分布规律。结果表明:(1)不同植被类型的土壤中,有效Fe含量较为丰富,远高于临界值;而有效Zn,Mn,B含量很低,低于临界值,该地区属于Zn,Mn,B缺乏区;在常绿阔叶林和思茅松林下土壤中有效Cu的含量低于临界值,而在桉树林下土壤基本不缺Cu;(2)不同植被类型林下土壤微量元素的有效量有较大差异。常绿阔叶林下土壤中有效Fe,Zn的含量最高,有效Mn的含量最少;桉树林下土壤中有效Cu,Mn的含量最多,有效Zn的含量最少;松树林下土壤中微量元素都不多,其中有效Fe的含量最少;三种植被类型下土壤都缺少有效B元素;(3)相比较而言,在相似生境条件下,桉树林对有效Fe元素的消耗大于常绿阔叶林和思茅松林,但三种植被土壤中都不缺有效Fe;常绿阔叶林和思茅松林对有效Zn,Cu元素的消耗大于桉树林;常绿阔叶林对有效Mn的消耗大于桉树林,而桉树林对有效Mn的消耗大于思茅松林。且三种植被类型下土壤中都缺Zn,Mn,B,Cu微量元素;(4)各微量元素有效量在研究区土层中的分布规律因元素种类而异,少数元素与植被类型有关;在常绿阔叶林地中,随着土壤深度增加,有效Fe,Mn含量升高,有效Zn含量降低;而在生境条件相似的桉树林地中,随着土壤深度增加,有效Fe,Mn含量降低,其它元素则没有变化规律。在思茅松林地中,随着土壤深度增加,有效Fe,Mn含量降低;而在桉树林地中,随着土壤深度增加,有效Fe,Mn含量升高,其它元素则没有变化规律。 相似文献
4.
《土壤通报》2014,(6):1410-1415
采用ICP-MS和AAS测定了95批当归药材及其产地土壤中8种重金属元素和7种其他无机元素含量,研究药材与产地土壤中无机元素的相关性。结果表明,当归药材中的特征性无机元素是Fe、Mn、Mg、As、Cr及Ni,土壤中的特征性无机元素是Zn、Mn、Pb、Cr及Ni;当归药材中,无机元素Mn与Zn、Cr、Fe、Cu,Ni与Fe、Cd、Sb、Zn,As与Sb、Pb、Cr、Mn,Cu与Mg、Pb、Zn,Cr与Fe、Pb,Mg与Sb、Zn,以及Ca与Na呈显著正相关,而K与Na、Pb、Cd呈显著负相关;当归对土壤中的Na有富集作用;无机元素Sb、Ca和Na在当归药材与土壤中呈显著正相关。研究发现,中药当归含有丰富的有益无机元素,有害重金属元素含量极低,符合相关标准,在国际贸易及GAP种植方面具有明显的优势和广阔的发展前景。 相似文献
5.
长期施肥对关中土微量元素有效性的影响 总被引:6,自引:0,他引:6
以28年的长期肥料定位试验为基础,探讨了对照不施肥(CK),单施有机肥(M2),单施氮、磷肥(N2P2),有机肥+氮、磷肥配合施用(M2N1P1和M2N2P2)5个施肥处理对关中土微量元素Fe,Mn,Zn,Cu有效性的影响。结果表明,长期施肥对耕层土壤有效Fe,Mn,Cu,Zn含量影响较大,在耕层土壤(0—20cm)中,长期不施肥土壤有效Fe,Mn,Cu,Zn含量均处于亏缺边缘; 长期单施氮、磷化肥处理的土壤Fe,Cu,Zn也接近亏缺边缘; 而长期单施有机肥、有机肥与氮、磷化肥配合处理,土壤有效Fe,Mn,Cu,Zn含量丰富。与CK相比,M2、M2N1P1、M2N2P2均可显著增加0—10 cm土层中有效Fe、Mn、Cu和Zn含量, 10 cm以下土层中,土壤有效Fe、Mn、Cu、Zn在一定程度上也有增加趋势; N2P2也可增加0—10 cm土层中土壤有效Fe和Mn含量(有效Mn达到显著水平),有效Cu含量降低,对有效Zn含量没有影响,而10 cm以下土层中土壤有效Fe,Mn,Cu,Zn与CK无明显差异。因此,土在不施用有机肥的情况下,应施用微肥以保证作物需求; 即使施用有机肥,也应适当补充铁肥和锰肥。有机肥和氮、磷化肥配合施用的土壤微量元素养分状况较好。 相似文献
6.
《植物营养与肥料学报》2010,(6)
以28年的长期肥料定位试验为基础,探讨了对照不施肥(CK),单施有机肥(M2),单施氮、磷肥(N2P2),有机肥+氮、磷肥配合施用(M2N1P1和M2N2P2)5个施肥处理对关中塿土微量元素Fe,Mn,Zn,Cu有效性的影响。结果表明,长期施肥对耕层土壤有效Fe,Mn,Cu,Zn含量影响较大,在耕层土壤(0—20 cm)中,长期不施肥土壤有效Fe,Mn,Cu,Zn含量均处于亏缺边缘;长期单施氮、磷化肥处理的土壤Fe,Cu,Zn也接近亏缺边缘;而长期单施有机肥、有机肥与氮、磷化肥配合处理,土壤有效Fe,Mn,Cu,Zn含量丰富。与CK相比,M2、M2N1P1、M2N2P2均可显著增加0—10 cm土层中有效Fe、Mn、Cu和Zn含量,10 cm以下土层中,土壤有效Fe、Mn、Cu、Zn在一定程度上也有增加趋势;N2P2也可增加0—10 cm土层中土壤有效Fe和Mn含量(有效Mn达到显著水平),有效Cu含量降低,对有效Zn含量没有影响,而10 cm以下土层中土壤有效Fe,Mn,Cu,Zn与CK无明显差异。因此,塿土在不施用有机肥的情况下,应施用微肥以保证作物需求;即使施用有机肥,也应适当补充铁肥和锰肥。有机肥和氮、磷化肥配合施用的土壤微量元素养分状况较好。 相似文献
7.
纳米TiO_2对土壤中Al、Fe和Mn释放及形态的影响 总被引:1,自引:0,他引:1
为了研究纳米TiO2对土壤中Al、Fe和Mn形态转化的影响,以三峡水库消落区土壤为研究对象,采用室外模拟淹水试验,分析不同浓度的2种纳米TiO2对土壤中Al、Fe和Mn释放及形态的影响。结果表明,淹水2个月后,纳米TiO2颗粒处理引起上覆水Al和Fe浓度显著升高;促进土壤残渣态和可氧化态Al的释放,且锐钛矿颗粒的作用大于金红石颗粒,高浓度锐钛矿颗粒处理导致12.31%的Al释放到水中;纳米TiO2颗粒对土壤Fe和Mn总量影响较小,但对Fe形态转化影响较大,主要表现为可还原态和可氧化态Fe转化为酸可交换态Fe,促进Fe的活化,其中低浓度金红石颗粒与高浓度锐钛矿颗粒影响相对较大;纳米TiO2颗粒对Mn形态转化影响较小,仅低浓度金红石颗粒与高浓度锐钛矿颗粒处理组促进少量可还原态Mn的转化,其他均无明显变化。因此,不同结构纳米TiO2对土壤中Al、Fe和Mn形态转化的影响存在较大差异,在进行纳米TiO2的环境风险评估时需要区别对待。 相似文献
8.
农田土壤微量元素含量的空间变异特征和影响因素 总被引:7,自引:1,他引:6
以浙江乐清市乐成镇为研究区域,采用地统计学和地理信息系统(GIS)相结合的方法,对土壤中有效态Fe、Mn、Cu、Zn和B含量的空间变异规律及其影响因素进行研究。描述性统计结果表明,土壤中微量元素Fe、Mn、B含量属于中等变异,Cu、Zn属于强变异。描述空间变异的半方差函数分析表明,Fe、Zn和B的最适模型是球状模型,Mn为指数模型,Cu为线性模型;Fe、Mn、Zn和B的块基比均小于25%,表明具有强烈的空间相关性,Cu的块基比大于75%,表明Cu含量具有较弱的空间相关性。土壤微量元素含量空间分布总体上呈现由东部向西部递减的趋势,其中Fe、Mn和B明显表现出连续分布的特点,Cu、Zn的分布没有明显的规律。土壤类型对Mn、Cu的含量有着显著影响,水稻土中Mn、Cu的含量显著高于红壤;土壤养分和微量元素的相关性分析可知,Fe与土壤pH、OM、全氮、碱解氮以及速效钾呈极显著相关,Mn、B与pH、速效磷和速效钾之间有显著或者极显著的相关性,Cu仅与速效钾显著相关,Zn的含量受土壤养分的影响较小,没有达到显著水平。 相似文献
9.
植稻年限对土壤铁锰氧化物的影响 总被引:5,自引:1,他引:4
以浙江不同耕作年限水田和旱地为研究对象,探讨了植稻年限对土壤铁锰氧化物的影响,并揭示了水稻土发育过程中铁锰氧化物的剖面运移规律和诊断意义。结果表明:①土壤剖面中,全Fe、游离Fe及全Mn的变异随着种稻时间的延长而增大。种植达到一定年限时,全Fe、全Mn以及游离Fe在土壤剖面下层出现淀积。在各种铁锰氧化物中,对水稻土最具诊断意义的是游离Fe和全Fe。②无定形Fe以及络合态Fe、Mn与有机质呈显著正相关。植稻年限对它们的影响是通过对有机质的影响达到的。 相似文献
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三工河流域绿洲土壤微量元素有效含量特征分析 总被引:13,自引:2,他引:11
土壤微量元素的含量与分布特征是反映特定地区环境状况的一个重要因素,对土地资源的合理开发和利用具有重要意义.本研究以天山北坡三工河流域冲积平原型绿洲为研究区,选择盐土、潮土和灰漠土3种土壤类型,分析其B、Mn、Zn、Fe、Cu等微量元素的有效含量特征.结果表明:⑴以"全国农业系统的土壤速效微量元素丰缺指标"为标准,土壤有效Mn含量属于极低水平,有效Zn和Fe含量属于中等水平,有效Cu属于丰富水平,有效B属于极富水平;⑵三工河流域绿洲土壤中有效Mn、Zn、Fe、Cu含量与土壤pH呈负相关关系;土壤有机质对有效Fe、Cu含量影响很大;有机质和Mn的关系不明显,这和湿润地区研究结果存在显著差异;⑶不同的土壤类型对于土壤有效B、Zn和Fe的含量影响显著;潮土中微量元素的有效含量与盐土、灰漠土中含量相比有显著差异. 相似文献
11.
Shazia Ramzan 《Communications in Soil Science and Plant Analysis》2018,49(4):463-477
Knowledge of spatial variability of soil properties is critical for precision farming and identification of pollution hot spots. This study examined the spatial dependence and variability of microelements to produce nutrient maps for site-specific nutrient management and for environmental modeling. A total of 94 grid samples (50 × 50 m2) were collected and analyzed for available zinc (Zn), copper (Cu), manganese (Mn), iron (Fe), nickel (Ni), cadmium (Cd), and lead (Pb) using an atomic absorption spectrometer. Coefficient of variation (CV) indicated that all the microelements were high in heterogeneity (CV > 35%). Available Zn was found deficient in 66.4% of soil samples and might be one of the limiting nutrients for crop growth, Cu and Ni were in medium, and Fe and Mn in very high range. Pb and Cd were lower than standard values, but careful management will avoid toxicity. Significant correlation was found between Zn with Fe (r = 0.377); Ni with Mn and Fe (r = 0.350 and 0.205, respectively); and Pb with Mn and Ni (r = 0.298 and 0.221, respectively). Spatial variability of soil microelements was mapped by ordinary kriging using exponential model for Fe, Mn, Ni, Cd, and Pb; Gaussian model for Cu, and spherical model for Zn. Semivariogram showed strong to weak degree of spatial dependence for all microelements. The study highlighted the importance for the creation of nutrient management zones for Zn availability. The spatial variability maps generated could be used as a guide for precise and site-specific micronutrient management in the study region. 相似文献
12.
温州蜜柑叶片黄化果园土壤及叶片的养分含量特征 总被引:4,自引:0,他引:4
弄清叶片黄化柑橘园土壤与叶片的养分含量特征,为改善柑橘园营养状况,提高柑橘产量和品质提供理论与技术支撑。通过对黄化和无黄化温州蜜柑园土壤、叶片的养分含量进行分析,研究影响温州蜜柑叶片黄化的关键因子。结果表明,温州蜜柑叶片的钙、镁、硼含量与SPAD值呈显著或极显著正相关,叶片黄化是由叶片中钙、镁、硼含量不足所造成的,属于综合缺素型,同时叶片中钾、铁、锰含量较高,叶片对钙、镁、硼的吸收与对钾、铁、锰的吸收之间存在相互拮抗的关系;土壤酸化是叶片黄化的主要驱动因子,pH值较低一方面降低了土壤中钙、镁、硼的有效性,另一方面,土壤中较高的铁、锰含量抑制了柑橘对钙、镁、硼的吸收,最终导致叶片因缺钙、缺镁、缺硼而出现黄化。喷施含钙、镁、硼的叶面肥料,防止土壤酸化是改善温州蜜柑叶片黄化的有效措施。 相似文献
13.
Rice (Oryza Sativa L.) nutrition is influenced by the interactions of (Iron) Fe, (Manganese) Mn, and (Silicon) Si in the rhizosphere. A greenhouse experiment was carried out with rice grown in four low‐pH soils (a granitic lateritic red earth, a paddy soil from the red earth, a basaltic latosol, and a paddy soil from the latosol). Rice was grown in pots with the roots confined in rhizobags and the rhizosphere soil and nonrhizosphere soil were analyzed separately for active Si, Fe, and Mn by Tamm's solution. Silicon and Mn concentrations were lower in the rhizosphere soil indicating a depletion which was higher for the basaltic soils and for the paddy soils. Iron concentrations were higher in the rhizosphere soil indicating an accumulation that was higher for granitic soils and for the upland soils. Plant growth response was due mostly to Mn with the basaltic soils supplying toxic amounts and the granitic soils being deficient. Iron accumulation in the rhizosphere caused lower plant uptake of Si, phosphorus (P), and calcium (Ca) and higher Fe and aluminum (Al) absorption leading to the conclusion that Fe deposition on plant roots and in rhizosphere may block the uptake of other nutrients. 相似文献
14.
《Communications in Soil Science and Plant Analysis》2012,43(5):627-632
A study was conducted for comparative evaluation of atomic absorption spectrophotometry (AAS) and inductively coupled plasma–optical emission spectroscopy (ICP-OES) for determining extractable zinc (Zn), copper (Cu), manganese (Mn), and iron (Fe) in sixty diverse soil samples having a wide range in pH and organic carbon (C). The results were significantly affected by the method of analysis and soil type but generally did not follow a definite trend. Results for extractable Fe in Alfisol samples were significantly greater when using ICP-OES than AAS; and the results for Zn, Cu, and Mn were not significantly different for the two methods. For Vertisol samples, the results for extractable Cu were significantly greater by ICP-OES than by AAS, whereas extractable Fe and Zn were significantly greater by AAS than by ICP-OES, and the results for Mn were not significantly different for the two methods. The results are discussed relative to soil type and differences in soil organic carbon and pH of the samples used in the study. 相似文献
15.
J. Frommer A. Voegelin J. Dittmar M. A. Marcus R. Kretzschmar 《European Journal of Soil Science》2011,62(2):305-317
The spatial distribution and speciation of iron (Fe), manganese (Mn) and arsenic (As) around rice roots grown in an As‐affected paddy field in Bangladesh were investigated on soil sampled after rice harvest. Synchrotron micro‐X‐ray fluorescence spectrometry on soil thin sections revealed that roots influence soil Fe, Mn and As distribution up to 1 mm away from the root–soil interface. Around thick roots (diameter around 500 µm), Mn was concentrated in discrete enrichments close to the root surface without associated As, whereas concentric Fe accumulations formed farther away and were closely correlated with As accumulations. Near thin roots (diameter < 100 µm), in contrast, a pronounced enrichment of Fe and As next to the root surface and a lack of Mn enrichments was observed. X‐ray absorption fine structure spectroscopy suggested that (i) accumulated Fe was mainly contained in a two‐line ferrihydrite‐like phase, (ii) associated As was mostly As(V) and (iii) Mn enrichments consisted of Mn(III/IV) oxyhydroxides. The distinct enrichment patterns can be related to the extent of O2 release from primary and lateral rice roots and the thermodynamics and kinetics of Fe, Mn and As redox transformations. Our results suggest that in addition to Fe(III) plaque at the root surface, element accumulation and speciation in the surrounding rhizosphere soil must be taken into account when addressing the transfer of nutrients or contaminants into rice roots. 相似文献
16.
Dicotyledonous plants had significantly higher Mn and Fe intake rates on a near neutral soil, had a significantly higher Mn intake rate on a slightly calcareous soil, but had lower Mn and Fe intake rates on a calcareous soil, than monocotyledonous plants. This dependency on soil reaction suggests that dicots utilize primarily a chemical reduction mechanism, whereas monocots utilize some less pH‐dependent mechanism (possibly Mn(III)‐, Fe(III)‐organic complexation) to mobilize soil Mn and Fe. Soluble soil Mn and Fe fractions in the rhizosphere were consistently positively correlated with each other, as were Mn and Fe intake rates. These results suggest that for soil‐grown plants, Mn and Fe uptake was positively interrelated because both Mn and Fe were mobilized by similar root processes. 相似文献
17.
《Communications in Soil Science and Plant Analysis》2012,43(6):1092-1096
Glyphosate is largely used to control weeds in wetland soils of Brazil. We investigated changes in the chemistry of soluble manganese (Mn) and iron (Fe) in these soils as affected by glyphosate dosage. Triplicate samples of the A horizon of wetland soils with different organic-matter contents were incubated with deionized water (1:2) for 1, 3, and 30 days under flooding. Three different glyphosate doses (0, 0.048, and 0.096 g L?1 m?2) were spiked on the flooded water at the beginning of the incubation periods. After incubation, pH was measured and samples of the supernatant were collected for determination of Mn/Fe concentrations by atomic absorption. Glyphosate application impacted Mn but had no effect on pH and Fe. Soluble Mn concentrations decreased as glyphosate dosage increased for the high organic-matter soil after 3 days of incubation. It indicated that glyphosate application can change the chemistry of soil metals. The intensity of these changes depends on the glyphosate dosage, evolved metal, incubation time, and soil properties. 相似文献
18.
Edwards Sion C. MacLeod Cecilia L. Lester John N. 《Water, air, and soil pollution》1998,102(1-2):75-90
The contaminants Hg and Cu, as well as Fe, Mn and K were sequentially extracted from upland disposed dredge spoil using DTPA and 10% nitric acid. Concentrations of these metals in aerial plant tissue and roots of Urtica dioica growing on the dredge spoil were also determined and used to correlate the biological absorption coefficients (BACs) and mobile element absorption coefficients (MACs) with soil extractable metals. DTPA extractions were most suitable for prediction of aerial plant tissue uptake of Cu, Mn and K whilst total Hg and Fe soil concentrations were correlated with plant root BACs and MACs. A laboratory bioassay using Eisenia fetida was also used to assess the potential biological uptake of the contaminants. Both Hg and Cu were accumulated by the worms, but interpretation of the results was hampered by the inherent difficulties of such active biomonitoring. 相似文献
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A total of 400 surface soil(0–15 cm) samples were collected from cultivated soils representing four soil series,namely,Hariharapur,Debatoli,Rajpora and Neeleswaram in Orissa,Jharkhand,Himachal Pradesh and Kerala states of India,respectively,and were analyzed to measure the contents of total and extractable Mn and Fe,to establish the relationship among total and extractable Mn and Fe and soil properties,and to characterize the spatial distribution pattern of Mn and Fe in some cultivated acid soils of India. The contents of total as well as extractable Mn and Fe varied widely with extractants and soil series. However,the amounts of Mn or Fe extracted by diethylene triamine penta-acetic acid(DTPA),Mehlich 1,Mehlich 3,0.1 mol L-1 HCl and ammonium bicarbonate DTPA(ABDTPA) were significantly correlated with each other(P 0.01). Based on the DTPA-extractable contents and the critical limits(2 mg Mn kg-1soil and 4.5 mg Fe kg-1 soil) published in the literature,Mn and Fe deficiencies were observed in 7%–23% and 1%–3% of the soil samples,respectively. The content of soil organic carbon(SOC) had greater influence on total and DTPA-extractable Fe than did soil pH. Geostatistical analysis revealed that total and DTPA-extractable Mn and Fe contents in the acid soils were influenced by soil pH,SOC content,and exchangeable cations like potassium,calcium and magnesium. Spatial distribution maps of total and DTPA-extractable Mn and Fe in soil indicated different distribution patterns. 相似文献