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1.
不同利用方式下亚热带花岗岩流域元素收支平衡 及其对土壤酸化的影响 总被引:2,自引:0,他引:2
选取亚热带花岗岩区不同利用方式下的3个相邻小流域(F:100%森林;FA1:82%森林+18%农田;FA2:76%森林+24%农田),通过定期监测与分析雨水和径流水的元素组成,获得了流域尺度元素的降水输入与径流输出特征,在此基础上分析了元素收支平衡及其对土壤酸化的影响。结果表明:雨水中离子输入总量为181.74 kg/(hm~2·a),夏季输入量约占全年输入量的45%,Ca~(2+)、Na~+和NH_4~+约占阳离子输入总量的80%,SO_4~(2–)和NO_3~–约占阴离子输入总量的74%。F、FA1和FA2流域径流水中离子输出总量分别为236.81,153.17和243.36 kg/(hm~2·a),夏季输出量约占全年输出量的39%~47%,Ca~(2+)和Na~+约占阳离子输出总量的81%~86%,SO_4~(2–)和NO_3~–约占阴离子输出总量的65%~70%。降水和径流水的元素收支平衡表明,F、FA1和FA2流域中SO_4~(2–)、NO_3~–、Cl~–、NH_4~+和H~+均表现为净输入,其中SO_4~(2–)的净滞留量最高,分别为13.7、30.43和20.49 kg/(hm~2·a);而Ca~(2+)、Mg~(2+)和Na~+均表现为净输出,其中Na~+的净输出量最高,分别为28.99、14.96和31.76 kg/(hm~2·a)。F、FA1和FA2流域内酸雨直接输入的H~+为818 mol/(hm~2·a),而流域内氮素转化产生的H~+分别为396、389和401 mol/(hm~2·a),占H~+输入总量的32%~33%。F、FA1和FA2流域的土壤酸化速率分别为996、1 069和1 035 mol/(hm~2·a),表明即使不考虑农业施肥的情况下农林复合流域(FA1和FA2)的土壤酸化速率仍高于森林流域(F)。 相似文献
2.
热带亚热带酸性土壤硝化作用与氮淋溶特征 总被引:3,自引:0,他引:3
通过室内好气培养和土柱模拟淋洗培养试验,研究了氨基氮肥加入对热带亚热带4种不同性质和利用方式酸性土壤硝化、氮及盐基离子淋溶、土壤及淋出液酸化的影响。4种土壤分别为采自花岗岩发育的海南林地砖红壤(HR)、玄武岩发育的云南林地砖红壤(YR)、第四纪红黏土发育的江西旱地红壤(RU)和第四纪下蜀黄土发育的江苏旱地黄棕壤(YU)。结果表明:4种土壤硝化作用大小表现为YURUYRHR。HR主要以可溶性有机氮(DON)和NH_4~+-N形态淋失,YU土壤的氮淋溶形态以NO_3~–-N为主,YR和RU土壤的氮淋溶形态NO_3~–-N、NH_4~+-N和DON兼而有之。盐基离子总淋失量与NO_3~–-N淋失量显著正相关,但各盐基离子淋失由于离子本性和土壤性质差异并不完全一致。Ca~(2+)在缓冲外源NH_4~+-N硝化致酸和平衡NO_3~–-N淋失所带负电荷过程中起重要作用。在阳离子交换量小、盐基饱和度低的土壤(如RU土壤),外源NH_4~+-N的硝化和淋失不仅导致盐基离子淋失,而且引发NH_4~+-N、甚至是H~+淋失。综上,热带亚热带地区土壤上外源氮输入的增加可能会在更短的时间内导致氮素向系统外的流失,引发环境问题。 相似文献
3.
建立了测定大量元素水溶肥料中硝态氮(NO_3~--N)的抑制电导离子色谱分析方法。在优化的色谱条件下,NO_3~-与水溶肥料中常见的其他阴离子实现了很好的分离。在0~20 mg/L范围内,NO_3~-的峰面积与其浓度线性关系良好(R~2=0.999 9),相对标准偏差为0.54%(n=7),方法检出限为0.007 mg/L,加标回收率为98.52%~102.10%。样品测定结果与行业标准NY/T 1116-2014进行了比较,结果表明,两种方法的测定结果无显著差异。本方法稳定、可靠、省时且干扰小,适合大量元素水溶肥料中硝态氮含量的批量测定。 相似文献
4.
添加葡萄糖对中亚热带阔叶林土壤氮转化的影响 总被引:1,自引:0,他引:1
针对中亚热带阔叶林(罗浮栲林)土壤,设置7个碳添加梯度(C量分别是0,300,600,900,1 000,1 100,1 300 mg/kg),在25℃、土壤饱和持水量(WHC)的60%条件下室内培养21 d,研究活性碳对阔叶森林土壤氮的影响。结果表明:随着碳添加量增加,NO_3~–-N迅速降低且在C 900 mg/kg水平达到最低,此时NO_3~–-N降低28.35 mg/kg。可溶性有机氮(SON)在第7天随葡萄糖碳添加量而降低,但是到第21天在900~1 300 mg/kg C水平,SON高于第7天,且用氯仿熏蒸提取后来自微生物的SON开始增加;总的SON增加15.09~17.10 mg/kg。可见,通过NO_3~–-N的微生物同化转化为有机氮,使该地区在降雨较多的情况下降低NO_3~–-N的淋溶或反硝化气态损失风险,增加SON的淋溶风险。但是在生态系统氮需求发生改变时SON能迅速响应使该地区森林土壤氮有效矿化,并满足植物生长需求,提高生态系统中氮的可利用性。凋落物残体氮浓度增加,且残余土壤氮增加5.64 mg/kg。红外光谱显示,碳添加量为900 mg/kg降低罗浮栲土壤经K_2SO_4溶液提取后残体在各波数处的吸收峰比例,且在吸收峰最高的426~600 cm~(–1)、900~1 200 cm~(–1)范围内,碳添加的影响最小,表明碳添加使土壤矿物对氮的保持增加,且有机氮变得更加稳定。 相似文献
5.
NH_4~+和NO_3~–是对植物有效的两种主要无机氮源。水稻一般被认为是偏好NH_4~+的植物,但是在NO_3~–条件下,水稻也能良好地生长。大多数关于水稻铵硝营养的报道是在pH 6.0左右的水培条件下开展的,但是对于酸性条件下水稻铵硝营养研究很少。随着土壤酸化的加重及一些边际酸性土壤被用作水稻种植,研究酸性条件下水稻的铵硝营养具有重要意义。本文采用水培试验,在pH 5.0的条件下,通过添加和不添加pH缓冲剂MES(2-(N-吗啡啉)乙磺酸),研究了NH_4~+和NO_3~–对水稻生长、氮效率和矿质养分(N、P、K、Ca、Mg、Fe、Zn、Cu、Mn)吸收的影响。结果表明,在不添加MES的条件下,水稻地上部生长(株高、叶绿素含量、干重)在NH_4~+和NO_3~–之间没有显著差异,而添加MES后,NH_4~+处理的水稻地上部生长优于NO_3~–。不管是否添加MES,NO_3~–处理的水稻地下部生长(根长、根表面积和根物质量)优于NH_4~+。水稻含氮量和氮利用效率在不同NH_4~+和NO_3~–处理之间没有显著差异,但是NH_4~+处理的水稻氮吸收效率高于NO_3~–。与NO_3~–相比,NH_4~+增加了水稻地上部P和Fe含量,而降低了水稻地上部Ca、Mg、Zn、Cu和Mn含量,对K含量影响较小。上述结果表明,NH_4~+有利于改善水稻地上部生长,提高氮吸收效率、地上部P和Fe含量,而NO_3~–则有利于水稻发根,提高地上部Ca、Mg、Zn、Cu和Mn含量。 相似文献
6.
鲍放养密度对循环水养殖水质的影响及生物滤器净化效果 总被引:1,自引:1,他引:0
该文以皱纹盘鲍(Haliotis discus hannai Ino)循环水养殖的排放水体为研究对象,以提高水循环系统综合利用率为目标,比较了鲍(壳长为(38.34±1.63)mm,体质量(7.97±0.42)g)在高(500个/m~2)、中(300个/m~2)、低(100个/m~2)密度下养殖水环境的变化特点,并综合评价了移动床曝气生物滤器的水处理效果。研究表明:放养密度对水体中总氨氮(TAN)、亚硝酸盐氮(NO_2~–-N)、总氮(TN)、总磷(TP)、磷酸盐(PO_4~(3–)-P)浓度和可培养异养细菌总数均有显著影响(P0.05),依次表现为高密度组中等密度组低密度组。中、高密度组硝酸盐氮(NO_3~–-N)、化学需氧量(COD)浓度和弧菌总数并没有显著差异(P0.05),但均显著高于低密度组(P0.05)。现行工况下(水循环率、温度、水力负荷等),生物滤器对TAN、NO_2~–-N、NO_3~–-N、TN、PO_4~(3–)-P、TP、COD的平均去除率分别为16.40%、15.81%、2.93%、12.22%、2.91%、6.48%、9.47%。该生物滤器对养殖排放水中能够对鲍产生明显毒害作用的TAN、NO_2~–-N处理效果较好,使其均维持在安全的浓度范围内,满足实际生产需求。但对NO_3~–-N、TN的脱除以及低浓度PO_4~(3–)-P和COD的处理效率相对较低。因此,综合经济和生态效益等多方面因素,在该试验的多层、立体循环水养殖系统内,将皱纹盘鲍的密度设定为500个/m~2时是较为合适的。 相似文献
7.
非损伤微测技术(Non-invasive Micro-test Technology, NMT)是一种通过微电极实时测定进出活体材料离子和小分子流速的技术,已广泛应用于植物的生长发育和逆境胁迫等研究领域中。目前该技术专用的重金属微电极种类非常少,因此其在重金属胁迫研究中的应用也受到了限制。本文在前期工作的基础上开发了一种基于非损伤微测技术的Zn~(2+)选择性微电极,首次实现了活体条件下植物根际Zn~(2+)离子流的实时、动态检测。研发的微电极在去离子水中对Zn~(2+)的线性响应范围为10–6~10~(–1) mol/L,能斯特斜率为30.2mV/decade(浓度每增加或减少10倍电位值的变化),响应时间t_(95%)≤1s,正常工作pH范围为3.5~7.0;在简易模拟土壤溶液(0.1mmol/L Ca(NO_3)_2、0.1 mmol/L KNO_3、0.1 mmol/L Mg(NO_3)_2和1 mmol/L NaNO_3)中,其线性响应范围变为5×10~(-5)~10~(-1) mol/L,能斯特斜率为28.1mV/decade,对土壤溶液中的共存阳离子具有较好的抗干扰性。利用构建的非损伤微测Zn~(2+)选择性微电极对Zn/Cd超积累植物伴矿景天(Sedum plumbizincicola)根际不同微区的Zn~(2+)离子流进行了实时检测。该技术的成功研发为活体条件下深入认识Zn~(2+)在植物根际的微界面过程与机制提供了一种强有力的研究手段。 相似文献
8.
分别采用离子色谱法(IC)、毛细管电泳法(CE)两种仪器方法对不同pH土壤中Cl~–、SO_4~(2–)含量进行测定,并对其结果进行差异性分析。结果显示:参照标准物质的参考值(滴定法),IC与CE测定值的准确度、回收率均满足实验分析要求,但精密度差异较大,IC(RSD,3.61%)的稳定性优于CE(RSD,8.97%)。据差异性(F与t检验)分析,两种仪器方法测定酸性土壤中Cl~–、SO_4~(2–)含量存在显著性差异,而碱性、中性土壤的测定结果保持一致。对比4个被测样品基本性质发现,酸性土壤的pH与离子强度均低于其他样品,从而影响了石英毛细管的电渗流,最终改变了CE分离过程,这可能是Cl~–结果偏离的主要因素。同时,对于IC,酸性土壤较中性、碱性土壤更易由于离子交换效应产生次级保留(拖尾)。此外,采用碱性分离体系分离酸性样品易形成结晶,从而导致SO_4~(2–)含量的偏离。可见,两种方法各有优缺点。但是,IC较经典,而CE是一种新兴的仪器方法。测定像土壤这样基体较复杂的样品(特别是酸性土壤)中阴离子的仪器条件还需要进行更多摸索与优化,以促进这两种方法在土壤领域的推广与应用。 相似文献
9.
1,9-癸二醇是由水稻根系分泌物中发现的一种新型生物硝化抑制剂,在农业生产中可提高氮肥利用率,减少氮素损失。为建立一套超声波提取-气相色谱检测土壤中1,9-癸二醇的方法,分别对超声波提取条件(提取剂、提取次数、液料比、超声时间)和气相色谱检测参数(进样口温度、检测器温度、升温程序)进行研究。结果表明,超声波提取土壤1,9-癸二醇的最佳方法为甲醇作为提取剂超声提取1次,液料比40mL·g~(–1),超声时间30 min。气相色谱Agilent8890测定1,9-癸二醇的最佳条件为进样口温度250℃;氢火焰离子化检测器(FID)温度310℃;升温程序:初始柱温60℃,保持2 min,以20℃·min~(–1)的速率升至150℃,然后以3℃·min~(–1)的速率升至180℃,保持2 min,最后以20℃·min~(–1)的速率升至270℃。在最佳提取和测定条件下,不同浓度1,9-癸二醇的加标回收率为90.58%~94.55%。超声提取-气相色谱法检测限低、灵敏度和精密度高,快速高效、重复性好,为今后1,9-癸二醇的实际应用工作奠定了基础。 相似文献
10.
为研究土壤中盐分离子对小白菜Pb含量的影响,采取正交试验L_(16)4~5和盆栽试验方法,分析了5种阳离子(Ca~(2+)、Mg~(2+)、K~+、Na~+、Pb~(2+))和3种阴离子(SO_4~(2-)、Cl~-、NO_3~-)对小白菜地上部和根系中Pb含量的影响。结果表明,试验条件下小白菜地上部Pb含量为0.215~0.930 mg·kg~(-1),根系中Pb含量为1.648~24.33 mg·kg~(-1),可食用部分超标率达81.3%。土壤盐分离子对小白菜地上部Pb含量影响顺序为:Ca~(2+)Mg~(2+)Na~+Pb~(2+)K~+。根据相关性分析,土壤中Ca~(2+)与小白菜地上部Pb含量呈显著负相关(r=-0.540 3,P0.05),Na~+和Pb~(2+)呈正相关但不显著。Mg~(2+)和K~+呈负相关,也不显著。Cl~-和NO_3~-与小白菜地上部Pb含量呈显著负相关(r=-0.540,P0.05),SO_4~(2-)呈正相关,但不显著。对小白菜根系Pb含量影响顺序为:Pb~(2+)K~+Na~+Ca~(2+)Mg~(2+),土壤中Pb~(2+)对小白菜根系Pb的含量呈显著正相关(r=0.483,P0.05),Ca~(2+)、Mg~(2+)、K~+、Na~+、SO_4~(2-)、Cl~-和NO_3~-相关性不显著。乌鲁木齐土壤中固有的盐分离子对小白菜可食用部分Pb的吸收没有抑制作用。 相似文献
11.
【目的】以富士(Fuji)、 秦冠(Qinguan)嫁接在平邑甜茶(Malus hupehensis Rehd.)上的当年生盆栽苗为试验材料,采用砂培方法,研究了缺氮胁迫和干旱对富士和秦冠生长情况、 光合参数、 植株各部位氮磷钾含量及氮素利用效率的影响,分析比较了低氮干旱条件下富士和秦冠生长及氮素利用的差异,以期为果树生产高效肥水利用提供理论指导。【方法】试验共设四个处理: 正常氮正常水(ZZ)、 低氮正常水(DZ)、 正常氮干旱(ZG)、 低氮干旱(DG)。氮素和水分均设置两个水平,分别为正常氮(6 mmol/L NO-3-N)、 低氮(0.3 mmol/LNO-3-N)、 正常供水(保持盆中砂子相对含水量为饱和含水量的80%~85%)、 干旱处理(保持盆中砂子相对含水量为饱和含水量的60%~65%)。【结果】富士和秦冠的生物量(茎和叶)、 株高茎粗等生长指标以及光合速率、 气孔导度、 蒸腾速率均为正常氮正常水(ZZ)>低氮正常水(DZ)>正常氮干旱(ZG)>低氮干旱(DG),并且相对应处理下秦冠的以上指标均高于富士;正常供水下,缺氮处理使富士、 秦冠的根冠比比正常氮处理均有所增加,富士提高了2.05%,秦冠提高了22.40%。富士和秦冠的氮、 磷、 钾含量均表现出正常氮正常水(ZZ)>低氮正常水(DZ)>正常氮干旱(ZG)>低氮干旱(DG); 氮、 钾元素含量在植株各部位的分布顺序依次是叶>根>茎,磷元素则是根>叶>茎;光合氮素利用效率(PNUE)和氮素利用效率表现为秦冠处理之间差异极显著,富士处理之间差异不显著;秦冠的PNUE和NUE明显高于富士,在低氮正常水(DZ)处理下,秦冠氮肥利用率比富士高42.07%,在低氮干旱(DG)处理下高64.14%;低氮胁迫下富士和秦冠的NUE显著提高,并且秦冠提高的幅度高于富士。【结论】施用氮肥能够显著提高富士与秦冠的干物质量,同等水肥条件下,秦冠生长优于富士;水分亏缺会减少叶片对氮的吸收,干旱条件下适度增施氮肥,可提高果树的抗旱能力;低氮干旱胁迫下秦冠的生长指标、 光合指标及氮素利用效率指标均优于富士,表现出较强的抗低氮干旱胁迫的能力。 相似文献
12.
Kyle Devey Michael Mucalo Gordon Rajendram Joseph Lane 《Communications in Soil Science and Plant Analysis》2015,46(4):72-80
Laser-induced breakdown spectroscopy (LIBS) is a new technique for the analysis of plant material. This study investigates the application of LIBS to pasture-based plant samples. The LIBS measurements were obtained from pelletized pasture samples (100 samples) that had been also analyzed by inductively coupled plasma–optical emission spectroscopy (ICP-OES) following microwave digestion for calibration and comparison purposes. Comparisons for elements sodium (Na), potassium (K), magnesium (Mg), calcium (Ca), manganese (Mn), iron (Fe), copper (Cu), zinc (Zn), boron (B), phosphorus (P), and sulfur (S) showed that LIBS could be used for almost all the standard profile total elements with concentrations down to low mg/kg levels (observed error of Na: 0.024 percent, K: 0.18 percent, Mg: 0.016 percent, Ca: 0.073 percent, P: 0.017 percent, Mn: 31 mg/kg, Fe: 150 mg/kg, Zn: 6.6 mg/kg, and B: 1.1 mg/kg). Elemental analysis at less than mg/kg levels was not possible using LIBS. The elements S and Cu were particularly difficult to analyze with reliability using LIBS at the concentration levels found in the plant samples. Replacing microwave digestion and subsequent ICP analysis with a direct analysis of dried plant samples using LIBS has the potential to improve the productivity and reduce the cost of testing. 相似文献
13.
《中国生态农业学报》2014,(8)
正The Center for Agricultural Resources Research(CARR),the Institute of Genetics and Developmental Biology(IGDB),Chinese Academy of Sciences,invites applicants for several research group leader positions.CARR is one of the research organizations in Chinese Academy of Sciences(CAS).We seek nominations and applications from individuals who have expertise and a record of accomplishment in research areas related to ecology,agro-hydrology, 相似文献
14.
M.A. Callaham Jr. J.M. BlairT.C. Todd D.J. KitchenM.R. Whiles 《Soil biology & biochemistry》2003,35(8):1079-1093
The responses of tallgrass prairie plant communities and ecosystem processes to fire and grazing are well characterized. However, responses of invertebrate consumer groups, and particularly soil-dwelling organisms, to these disturbances are not well known. At Konza Prairie Biological Station, we sampled soil macroinvertebrates in 1994 and 1999 as part of a long-term experiment designed to examine the effects and interactions of annual fire, mowing, and fertilization (N and P) on prairie soil communities and processes. For nearly all taxa, in both years, responses were characterized by significant treatment interactions, but some general patterns were evident. Introduced European earthworms (Aporrectodea spp. and Octolasion spp.) were most abundant in plots where fire was excluded, and the proportion of the total earthworm community consisting of introduced earthworms was greater in unburned, unmowed, and fertilized plots. Nymphs of two Cicada genera were collected (Cicadetta spp. and Tibicen spp.). Cicadetta nymphs were more abundant in burned plots, but mowing reduced their abundance. Tibicen nymphs were collected almost exclusively from unburned plots. Treatment effects on herbivorous beetle larvae (Scarabaeidae, Elateridae, and Curculionidae) were variable, but nutrient additions (N or P) usually resulted in greater densities, whereas mowing usually resulted in lower densities. Our results suggest that departures from historical disturbance regimes (i.e. frequent fire and grazing) may render soils more susceptible to increased numbers of European earthworms, and that interactions between fire, aboveground biomass removal, and vegetation responses affect the structure and composition of invertebrate communities in tallgrass prairie soils. 相似文献
15.
Grete Skrede Berit Karoline Martinsen Anne-Berit Wold Stein-Erik Birkeland Kjersti Aaby 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(3):193-208
Abstract A 3-year study was carried out to investigate quality parameters in 14 tree fruit and berry species grown in southern Norway. The species were blueberry, apple, aronia, sour cherry, sweet cherry, red raspberry, strawberry, blackcurrant, gooseberry, red currant and elderberry, harvested along with wild bilberry, cloudberry and lingonberry. Significant differences between species were identified for all quality parameters. The coefficient of variation between species was lowest for pH (12.5%), dry matter (18.9%) and soluble solids (25.3%), followed by titratable acids (59.3%), total phenolics (83.8%), antioxidant capacity FRAP (85.7%) and antiradical power by the DPPH-assay (97.8%), total monomeric anthocyanins (132%) and ascorbic acid (137%). Average coefficient of variation within species were lower and ranged from 4 (pH) to 62% (ascorbic acid). Only the FRAP values were significantly affected by harvesting year with lower levels in 2004 than in 2005 and 2006. There were significant interactions between species and harvesting year for dry matter, soluble solids, pH, ascorbic acid and FRAP. The results indicate generic ranges in composition within species independent upon growing location and climate, and the composition of the tree fruits and berries is not likely to deviate from these ranges. It is concluded that desirable composition of tree fruits and berries and their products should primarily be achieved by selection among species rather than searching fors broadened variation within individual species. 相似文献
16.
《Communications in Soil Science and Plant Analysis》2012,43(7):865-877
Potassium (K) fixation and release in soil are important factors in the long-term sustainability of a cropping system. Changes in K concentration and characteristics of K fixation and release in rhizosphere and nonrhizosphere soils in the rapeseed (Brassica napus L.)–rice (Oryza sativa L.) rotation were investigated using a rhizobox system. The concentrations of different forms of K in both rhizosphere and nonrhizosphere soils decreased with plants compared to without plants, regardless of K fertilizer application. Potassium uptake by crops mainly came from the rhizosphere soil. In the treatment without K fertilizer (–K), the main form of K supplied by the soil to the crops was 1.0 mol L?1 nitric acid (HNO3) nonextractable K, followed by nonexchangeable K, and then exchangeable K. In the treatment with K fertilizer (+K), the main K forms supplied by the soil to the crops were exchangeable K and nonexchangeable K. The amount and rate of K fixation after one cycle of the rapeseed–rice rotation was greater in rhizosphere soil than in nonrhizosphere soil. The amount and rate of K fixation of soil in the +K treatment were significantly less than in the –K treatment. The cumulative amounts of K released with 1.0 mol L?1 ammonium acetate (NH4OAc) and 1.0 mol L?1 HNO3 extraction increased with the increasing numbers of extractions, but the K-releasing power of soil by successive extraction decreased gradually and finally became almost constant. The release of K was less in rhizosphere soil than in nonrhizosphere soil. The release of K in the +K treatment was similar to that in the –K treatment in rhizosphere soil, but the K release in nonrhizosphere soil was greater with the +K than the –K treatment. Overall, the information obtained in this study will be helpful in formulating more precise K fertilizer recommendations for certain soils. 相似文献
17.
Electron donor and pH relationships for biologically enhanced dissolution of chlorinated solvent DNAPL in groundwater 总被引:3,自引:0,他引:3
Biologically enhanced dissolution offers a method to speed removal of chlorinated solvent dense non-aqueous-phase liquid (DNAPL) sources such as tetrachloroethene (PCE) and trichoroethene (TCE) from aquifers. Bioremediation is accomplished by adding an electron donor to the source zone where fermentation to intermediates leading to acetic acid and hydrogen results. The hydrogen and possibly acetic acid are used by dehalogenating bacteria to convert PCE and TCE to ethene and hydrochloric acid. Reductive dehalogenation is thus an acid forming process, and sufficient alkalinity must be present to maintain a near neutral pH. The bicarbonate alkalinity required to maintain pH above 6.5 is a function of the electron donor: 800 mg/L of bicarbonate alkalinity is sufficient to achieve about 1.2 mM TCE dechlorination with glucose, 1.7 mM with lactate, and a much higher 3.3 mM with formate. Laboratory studies indicate that in mixed culture, formate can be used as an electron donor for complete conversion to ethene, contrary to pure cultures studies indicating it cannot. Various strategies can be used to add electron donor to an aquifer for DNAPL dehalogenation while minimizing pH problems and excessive electron donor usage, including use of injection-extraction wells, dual recirculation wells, and nested injection-extraction wells. 相似文献
18.
Aleš Lebeda Ivana Doležalová Eva Křístková Barbora Mieslerová 《Genetic Resources and Crop Evolution》2001,48(2):153-164
Staff members of the Department of Botany of Palacký University in Olomouc and Gene Bank Department – Workplace Olomouc, Research Institute of Crop Production in Prague, Czech Republic, conducted an expedition in seven European countries (Austria, Czech Republic, France, Germany, Italy, the Netherlands, Switzerland) in August/September 1999 to collect wild Lactuca spp. germplasm and study its geographic distribution, ecology and biodiversity. During the mission, more than 600 locations were visited resulting in the collection of 602 seed samples (accessions) of wild Lactuca species and 13 seed samples of related genera (Chondrilla and Mycelis). Lactuca serriola f. serriola, L. serriola f. integrifolia, L. saligna and L. viminea subsp. chondrilliflora were prevalent in southern Europe (Italy, France), however, only L. serriola was common in central and western Europe (Austria, Czech Republic, Germany, Netherlands, Switzerland). The greatest diversity of Lactuca species was found in France, where also the most seed samples (165) were collected. The most characteristic habitats with a high density of Lactuca spp. populations were observed along roads and highways, grassy ditches, ruderal communities, and dust-heaps. Natural infections by powdery mildew (Erysiphe cichoracearum) and downy mildew (Bremia lactucae) on some wild Lactuca spp. were observed. Recent observations concerning the geographic distribution, population structure, habitats, and natural occurrence of diseases of Lactuca spp. are discussed. This assemblage of genetic resources of Lactuca spp. can serve as the basis of future studies of species diversification, spatial population structure, plant microevolution, domestication processes, and genetic variability of host-parasite interactions. 相似文献
19.
Y. Bashan J. J. Bustillos L. A. Leyva J.-P. Hernandez M. Bacilio 《Biology and Fertility of Soils》2006,42(4):279-285
Inoculation of wheat seedlings with the plant growth-promoting bacterium Azospirillum brasilense Cd was immobilized in alginate microbeads and, without applying any stress, significantly increased the quantity of several
photosynthetic pigments, such as chlorophyll a, chlorophyll b, and the auxiliary photoprotective pigments violaxanthin, zeaxanthin, antheroxanthin, lutein, neoxanthin, and β-carotene.
This resulted in greener plants with no apparent visible stress. After monitoring the quantity of photosynthetic pigments
for 4 weeks, we observed that inoculated plants had higher quantities of pigments in shoot and stem. The greatest difference
in the quantity of all pigments between inoculated and noninoculated plants occurred in the first week of growth. Regardless
of treatment, the quantity of pigments in stems was three to four times less than the quantity of these pigments in shoots.
Application of Azospirillum, either as liquid inoculant or as alginate microbeads, did not alter the positive effect of the bacteria on pigment production
or the positive response of the plants towards A. brasilense Cd inoculation. 相似文献
20.
Three slow-growing legume trees used for desert reforestation and urban gardening in the Sonoran Desert of Northwestern Mexico
and the Southwestern USA were evaluated whether their growth can be promoted by inoculation with plant growth-promoting bacteria
(Azospirillum brasilense and Bacillus pumilus), unidentified arbuscular mycorrhizal (AM) fungi (mainly Glomus sp.), and supplementation with common compost under regular screenhouse cultivation common to these trees in nurseries. Mesquite
amargo (Prosopis articulata) and yellow palo verde (Parkinsonia microphylla) had different positive responses to several of the parameters tested while blue palo verde (Parkinsonia florida) did not respond. Survival of all tree species was over 80% and survival of mesquite was almost 100% after 10 months of cultivation.
Inoculation with growth-promoting microorganisms induced significant effects on the leaf gas exchange of these trees, measured
as transpiration and diffusive resistance, when these trees were cultivated without water restrictions. 相似文献