Effect of Temperature, pH and Salt on Fluorescent Quality of Water Extractable Organic Matter in Black Soil

Water erosion is the major reason for the loss of soil organic carbon in the Northeast China, which leads to the soil quality deterioration and adjacent water pollution. In this study, the effect of extraction temperature, pH value, and salt on the water extractable organic matter （WEOM） was determined by means of the UV absorbance, fluorescence excitation-emission matrix, and derived fluorescence indexes. In general, the carbon content and aromaticity of WEOM increased with the increasing of extraction temperature, with the exception that there was no significant difference in the amount at 0 and 20℃. More fluorophores, especially microbially-derived organic matter were extracted at high temperature. The pH values of extractant, including 5, 7, and 10, showed no effect on the carbon amount of WEOM, whereas the aromaticity and microbially-derived component gradually increased with the increasing of pH values. The fluorescence intensity of humic acid-like fluorophore was stronger in neutral and alkali condition than that in acidic condition. The addition of 10 mmol L-1 CaCl2 significantly decreased the carbon amount of recovered WEOM. Moreover, it significantly decreased the aromaticity of WEOM and the quantity of fulvic acid-like and humic acid-like fluorophores, whereas increased the percentage of tyrosine-like and tryptophan-like fluorophores in the total fluorophores and the amount of microbially-derived organic matter. Generally, 10 mmol L-1 KCl showed the same influence trend, but with low influence degree.

Profile distribution and seasonal dynamics of water-extractable carbohydrate in soils under mixed broad-leaved Korean pine forest on Changbai Mountain

Carbohydrate represents an important part of the soil labile organic carbon pool. Water soluble carbohydrate drives the C cycle in forest soil by affecting microbial activity and hot water extractable car- bohydrate is thought related to soil carbon sequestration due to the asso- ciation with soil aggregation. In a temperate forest region of northeast China, Changbai Mountain, we investigated the abundance, spatial dis- tribution, and seasonal dynamics of cool and hot-water extractable car- bohydrate in soils under mixed broad-leaved Korean pine forest. The concentrations of cool-water extractable carbohydrate （CWECH） in three soil layers （0-5, 5-10, 10-20 cm） ranged from 4.1 to 193.3 g.kg-1 dry soil, decreasing rapidly with soil depth. On an annual average, the CWECH concentrations in soils at depths of 5-10 and 10-20 cm were 54.2% and 24.0%, respectively, of that in the 0-5 cm soil layer. CWECH showed distinct seasonal dynamics with the highest concentrations in early spring, lowest in summer, and increasing concentrations in autumn. Hot-water extractable carbohydrate （HWECH） concentrations in three soil layers ranged from 121.4 to 2026.2 g.kgq dry soil, which were about one order of magnitude higher than CWECH. The abundance of HWECH was even more profile-dependent than CWECH, and decreased more rapidly with soil depth. On an annual average, the HWECH concentration in soils 10-20 cm deep was about one order of magnitude lower than that in the top 0-5 cm soil. The seasonality of HWECH roughly tracked that of CWECH but with seasonal fluctuations of smaller amplitude. The car- bohydrate concentrations in cool/hot water extracts of soil were positively correlated with UV254 and UV2s0 of the same solution, which has implications for predicting the leaching loss of water soluble organic carbon.

Changes in Soil Hot-Water Extractable C,N and P Fractions During Vegetative Restoration in Zhifanggou Watershed on the Loess Plateau

The study was conducted in Zhifanggou Watershed,Shaanxi Province,China,to evaluate the effect of different vegetation types on hot-water extractable C,N and P fractions,with the aim to determine whether hot-water extractable fractions could be used as indicators of soil quality change in Loess Plateau.The six vegetation types established in 1975 were（i） Robinia pseudoacacia L.,（ii） Caragana korshinkii Kom.,（iii） Pinus tabulaeformis Carr.,（iv） P.tabulaeformis-Amorpha fruticosa L.,（v） R.pseudoacacia-A.fruticosa,and（vi） grassland.A cropped hillslope plot and a Platycladus orientalis L.native forest plot were used as references.The results indicated that the conversion of native forest to cropland resulted in a significant decline in the hot-water extractable C,N and P fractions.Hot-water extractable C,N,and P increased when cultivated land was revegetated,but after 30 years the amount of hot-water extractable C,N,and P in revegetated fields was still much lower compared to native forest.Hot-water extractable fractions increased more under mixed-forest than under pure-forest stands.Furthermore,there was a significant correlation between the hot-water extractable fractions and soil chemical and microbiological properties.The results showed that hot-water extractable fractions could be used as indicators of soil quality change on the Loess Plateau.

Effects of Aggregate Extraction on Water Storage in the Pepin Creek Watershed, British Columbia, Canada

Aggregate extraction in the Lower Fraser Valley of British Columbia, Canada, has affected the soil water storage of the Pepin Creek watershed. Although local government has set regulations for aggregate extraction projects to avoid negative environmental impacts, the gradual loss of soil materials and associated changes in vegetative cover has led to an alteration of the water balance within the watershed, which may affect surface or groundwater levels, and aquatic habitats. The study assessed the effects of aggregate extraction on the water storage of the Pepin Creek watershed and estimated that 25% of the surface area of the Canadian portion of the watershed has been affected by aggregate mining with an estimated loss of water storage of 10%. Evapotranspiration has decreased as a result of the removal of the vegetative cover. Precipitation has remained relatively constant over the study period but the annual discharge measured at Pepin Creek has decreased. Recommendations for enhancing environmental monitoring to better measure and understand ecological functions of the watershed during aggregate extraction are provided.

月面原位水资源获取技术与发展趋势

随着深空探测活动的持续推进,月球探测已成为开展行星际探测的重要部分.月球原位资源利用是保障载人月球探测及月面长期驻留的关键技术途径,中国已将月面原位水获取方法列为月球探测的关键技术之一.月面原位水获取方法主要分为极区水冰勘探开采和月壤氢还原制水两种技术途径.现有勘探到的水冰资源主要位于月球极区,分布不均匀,开采难度大.目前研究提出了多种不同类型的极区水冰勘探开采方法,但实际效果有待月面原位试验验证.月壤加氢还原制水技术方法工作条件不受区域限制,应用范围较广,但仍存在反应条件要求高、能耗大等技术限制,未来需在节能和有效矿物成分富集等方面有所突破.

高效液相色谱-质谱法测定油藏地层水和土壤中甜菜碱型表面活性剂的样品处理

比较了测定油藏地层水和土壤这类复杂基质中3种甜菜碱型表面活性剂的样品净化方法。选用直接过微孔滤膜、活性炭固相萃取柱、碱性氧化铝固相萃取柱、HLB固相萃取柱、MCX固相萃取柱、WCX固相萃取柱,对10、50、100 mg/L质量浓度下的回收率对比分析,并结合高效液相色谱-质谱联用全扫描质谱图甄选较优净化手段。分析结果显示,采用混合型强阳离子交换柱(MCX固相萃取柱)进行净化提取后,用高效液相色谱-质谱联用法进行检测,3种甜菜碱型表面活性剂在质量浓度10~50 mg/L内与色谱峰面积线性良好,相关系数均达到0.99以上,检出限为0.01 mg/L。加标回收率为96.9%~100.5%,相对标准偏差为0.7%~2.1%(n=7)。该方法操作简单,特异性强,作为复杂基质中甜菜碱型表面活性剂净化最佳方法,为甜菜碱型表面活性剂的检测提供坚实的基础。

日本落叶松根际土壤水浸提液对林下山参的化感作用

目的探讨日本落叶松根际土壤水浸提液对林下山参的化感作用,为提高林下山参道地药材的品质以及规范化栽培与选址提供参考。方法研究了3种不同浓度(0.25、0.05、0.01 g·mL^(-1))的日本落叶松根际土壤水浸提液对林下山参种子萌发(发芽率、发芽势、发芽指数)、3年生林下山参显微性状(主根木质部、韧皮部、周皮及皮层)、人参皂苷含量[人参皂苷-Rg1、-Re、-Rf、-Rb1、-Rg2、-Rc、-Rb2、-Rb3、-Rd以及原人参三醇型人参皂苷(PPT)、原人参二醇型人参皂苷(PPD)和9种人参皂苷总量]的影响,结合液质联用技术对化感物质进行分析,并查阅相关文献对化感物质进行筛选。结果日本落叶松根际土壤水浸提液对林下山参的发芽指标有显著化感抑制作用,且随浓度增加抑制作用增强;化感作用会导致林下山参主根发生腐烂病变、皮层木栓化程度增强;化感作用对人参皂苷含量的积累具有显著促进作用。通过结果分析结合文献查阅,认为根皮素等5种物质可能是日本落叶松对林下山参作用的化感物质。结论结合上述研究结果,考虑到林下山参苗成活率、药材性状、劳动力成本、农药残留等因素,不建议在日本落叶松纯林下生产高品质林下山参。

不同作物土壤水浸提液对远志的化感效应

[目的]建立远志合理的耕作制度,筛选远志最佳的轮作作物。[方法]选取8种远志产地常种作物,研究不同作物土壤水浸提液对远志种子萌发及幼苗生长的影响。[结果]不同作物土壤水浸提液对远志种子萌发均有抑制作用,浸提液浓度越大,抑制作用越强,平均总抑制率从小到大依次是大豆、谷子、玉米、小麦、高粱、蓖麻、油葵、芝麻。不同作物土壤水浸提液对远志幼苗的生长大部分出现了促进作用,各处理浓度间相比表现为随着浓度的增大幼苗及根生长逐渐受到抑制。各处理远志幼苗和根的生长整体呈负相关;蓖麻、芝麻处理,远志苗高、根短;大豆、玉米和谷子处理,远志根长、苗低、生长差。大豆、玉米、小麦、高粱和谷子处理的根长和根重高于CK。远志幼苗POD活性除芝麻和蓖麻外均随着浓度的增大而增强,MDA含量整体呈现随着浓度的增大而增加的趋势,SOD活性则随着浸提液浓度的增大先增加后降低。[结论]综合生长指标和生理指标,大豆、玉米、小麦和谷子是比较适合远志的轮作作物。

用纯水提取-草酸冷冻还原法修复Cr(Ⅵ)污染土壤

通过实验室模拟研究将纯水提取与冷冻法相结合修复Cr(Ⅵ)污染土壤的可行性.结果表明,对于1000 mg/kg Cr(Ⅵ)污染土壤,利用纯水进行提取,总铬的提取率约为35%,该结果与常规的草酸提取法相近.向纯水提取液中加入草酸,使其浓度为500μmol/L,冷冻结冰后,提取液中Cr(Ⅵ)的还原率达97%.NaCl,NaNO_(3),Na_(2)SO_(4)对Cr(Ⅵ)的去除效果有微弱的抑制作用.紫外吸收光谱、X射线光电子能谱、红外光谱和三维荧光光谱测试结果表明,该方法的作用原理为草酸提供H+,土壤中的溶解性有机质(DOM)作为还原剂,通过冷冻浓缩效应使土壤提取液中六价铬被还原.可见,纯水提取与草酸冷冻法相结合可用于异位修复Cr(Ⅵ)污染土壤,并可减少化学试剂的用量,有利于维护土壤理化性质的稳定.

沸水振荡浸提-电感耦合等离子体质谱(ICP-MS)法测定土壤中有效硼

传统的土壤有效硼提取和测定的方法具有前处理操作繁琐、实验流程长,检测结果误差较大且双样平行性较差等问题。为提高检测效率、降低操作难度,通过对浸提时间、振荡频率、提取器皿、分析同位素和内标元素选择等因素的考察,确定了最优条件,建立了沸水振荡浸提-电感耦合等离子体质谱(ICP-MS)法测定土壤中有效硼的方法。结果显示,在选用100 mL具盖聚乙烯离心管中沸水浸提13 min、振荡频率为180 r/min前处理条件下,使用电感耦合等离子质谱(ICP-MS)仪,以11 B为目标同位素、6 Li为内标元素进行测定,不同酸碱性土壤中的有效硼测定结果均在标准物质不确定度范围内。测定元素在浓度0~2.0μg/mL呈良好的线性关系,相关系数r为0.9998,方法的检出限为0.004 mg/kg,相对标准偏差RSD(n=7)为1.9%~4.7%。采用6种土壤有效态成分分析标准物质按照建立的方法进行处理,测定结果均在认定值的误差范围内。方法具有精密度好、操作简单、分析快速、绿色环保等特点,适用于大批量样品的检测,大大提高了检测分析效率,为土壤重金属污染检测及防治工作提供理论支撑及科学依据。

不同类型土壤中挥发酚前处理方法的比对研究

以土壤中挥发酚的前处理为研究对象,针对不同类型的土壤样品,对加水提取法和加碱提取法进行对比研究。结果表明:通过方法检出限、精密度、回收率等方面的比较,加碱提取法的加标回收率较好,更能够满足土壤中挥发酚的日常分析需求。

滴灌模式和土壤水分对冬小麦土壤水提取量和水分利用的影响

为探索高效的灌溉策略以减少灌水量并提高作物水分利用效率以缓解黄淮海冬麦区水资源短缺。采用田间裂区试验设计,探究地表滴灌(DI)和地下滴灌(SDI)条件下不同土壤水分状况(分别为田间持水量的50%~60%,60%~70%,70%~80%,记为W_(50)、W_(60)和W_(70))对冬小麦产量、土壤水提取量、蒸散量和水分利用效率的影响。结果表明,对于整个生长季,与DI处理相比,SDI处理降低0~0.8 m土层土壤水提取比降低11.8%~21.8%,但SDI处理0.8~1.6 m土层土壤水提取量增加28.4%~29.8%。SDI处理的平均土面蒸发量和灌溉量分别比DI处理减少23.1%,8.9%。虽然花后SDI和DI处理间蒸腾速率的差异不显著,但在W_(50)和W_(60)条件下(亏缺灌溉),SDI处理的净光合速率和叶面积指数均高于DI处理。与DI处理相比,在亏缺灌溉条件下,SDI处理的产量增加14.5%~29.3%,水分利用效率增加13.9%~25.9%。与DI处理相比,在W_(70)条件下,SDI处理更多灌溉水下渗到0.8 m以下土层,从而显著降低上层土壤的土壤水提取量及叶片的净光合速率,导致产量降低4.1%~8.9%。SDI处理在W_(60)条件下能够从深层土壤提取更多水分,并调控冬小麦的光合特性,从而提高冬小麦的产量和水分利用效率。

八角金盘水浸提液与柠檬酸复合淋洗修复镉锰污染土壤

采用八角金盘水浸提液(FaWE)与柠檬酸(CA)复合淋洗去除污染土壤中的Cd和Mn。在FaWE质量浓度为50 g/L、CA浓度为0.4 mol/L、FaWE与CA体积比为1∶2、淋洗剂pH为2、淋洗时间为4 h的优化条件下,复合淋洗剂对Cd和Mn的去除率分别为89%和52%。污染土壤中Cd、Mn的复合淋洗过程可用Elovich方程和准二级动力学方程较好地拟合,该复合淋洗过程发生了络合反应且主要为非均相扩散过程。复合淋洗可有效降低土壤中Cd的弱酸可提取态含量和Mn的可还原态含量。经复合淋洗后Cd的潜在生态风险指数显著降低。

超声波-水浴提取-电感耦合等离子体质谱法测定土壤中有效硼

本文建立了一种超声波-水浴提取-电感耦合等离子体质谱法测定土壤中有效硼的方法。以超声波辅助沸水浴提取土壤中的有效硼,在6 min后达到提取平衡;采用聚四氟乙烯螺纹管代替玻璃烧杯可有效降低空白测试值,空白测试均值为0.003 4 mg/kg;在提取液中滴加适量硝酸可大幅度提高测试液的稳定性,在常温放置50 h其测试结果仅下降约3%;实际样品测试结果显示,本文方法具有更低检出限和更好的精密度,RSD仅为0.9%。

气相色谱-质谱联用法测定水体和土壤中3种环状挥发性甲基硅氧烷

建立了水体和土壤中3种环状挥发性甲基硅氧烷类化合物(cVMSs)的气相色谱-质谱(GC-MS)分析方法。水样中加入低密度聚乙烯(LDPE)后采用正己烷/乙酸乙酯(1∶1,V/V)液液萃取,土壤样品采用正己烷超声提取,提取液浓缩后采用VF-WAXms(30 m×0.25 mm×0.5μm)色谱柱分离,在电子轰击离子源(EI源)、选择离子(SIM)监测模式下外标法定量。结果显示,3种cVMSs在2~500μg·L^(-1)的浓度范围内,各目标化合物的回归方程均具有良好的线性关系,相关系数(R^(2))>0.99。水样平均加标回收率为65.4%~121.0%,相对标准偏差为6.0%~20.0%,方法定量限(LOQ)为0.011~0.015μg·L^(-1);土壤样品平均加标回收率为75.4%~106.0%,相对标准偏差为5.1%~19.3%,方法定量限(LOQ)为2.19~2.99μg·kg^(-1)。对江苏与安徽地区的两个化工园区及周边环境水样与土壤样品中目标物的定量分析显示,不同样品中均检测到3种cVMSs,水样中cVMSs的浓度为0.5~3.2μg·L^(-1),土壤样品中cVMSs的浓度为555.9~847.8μg·kg^(-1)。该方法操作简便、重现性好,适用于水样以及土壤中环状挥发性甲基硅氧烷的分析检测。

结合水域变化的土壤湿度监测

针对现有土壤湿度监测方法受地表粗糙程度与植被覆盖影响大,导致土壤水分反演精度有待提升的问题,以康平地区为研究区域,提出了一种基于改进U-Net水域自适应提取模型的土壤湿度反演方法。该方法首先根据辽宁省多年份Sentinel-2影像制作遥感影像水体智能提取数据集,并在预设不同网络深度的自适应U-Net模型上进行训练;然后基于颜色熵阈值对影像进行复杂程度判断;最后将研究区多时相水域面积与同期实测土壤湿度数据进行回归分析,构建研究区水域面积与土壤湿度之间的内在联系。选用测试集影像,分别从提取精度和提取速度两个方面验证该方法和U-Net模型的水域提取性能。该方法水域轮廓提取更加精细,训练及预测时间分别缩短了25.65%和32.19%。此外,文章以14个时相的康平地区水域面积数据及同期实测土壤湿度数据,基于三次多项式拟合构建土壤湿度反演方法。结果表明,该反演方法在10 cm深度的土壤湿度反演实验中R 2为0.7234;在40 cm深度的土壤湿度反演实验中R^(2)为0.5689。该方法能够较准确地反演区域土壤湿度,进而为农业大范围土壤湿度的监测提供支持。

水溶剂快速萃取-超高效液相-串联质谱测定土壤中磺胺类抗生素

建立了水溶剂萃取-超高效液相色谱-串联质谱测定土壤中10种磺胺类抗生素的方法。使用加速溶剂萃取仪高温高压条件下萃取,HLB小柱富集净化,经ACQUITY UPLC BEH C_(18)(2.1 mm×100 mm×1.7μm)色谱柱分离,MRM模式监测,内标法定量。10种磺胺类在0.1~50μg/L的范围内具有良好的线性,相关系数均>0.997,方法检出限为0.03~0.06μg/kg,实际土壤样品的3个加标水平样品的平均回收率在63.1%~112%之间,测定结果的相对标准偏差为0.70%~14.7%(n=6)。该方法前处理简单,分离效果好,灵敏度高,准确、稳定,能够满足土壤中痕量磺胺类抗生素的测定。

盐渍化土壤光谱特征的区域异质性及盐分反演

该文通过分析中国新疆、浙江、吉林3个不同地区盐渍化土壤的高光谱特征,研究了盐渍化土壤高光谱特征的区域异质性,并对构建高精度的跨区域土壤盐分高光谱定量反演模型,应用25种数据处理方式来提高全局建模的精度,旨在提高具有光谱异质性土壤的盐分反演精度。结果表明:不同地区的盐渍化土壤,无论是反射率还是光谱曲线形态方面,均存在较明显的差异,但经过一阶微分处理后,光谱差异有所降低;对3个地区土壤盐分含量局部建模与全局建模的精度进行比较,在所选用的直线回归、主成分回归、多元线性回归、偏最小二乘回归4种建模方法中,全局建模精度均低于局部建模精度;不同地区盐渍化土壤的盐分敏感波段不一致,在所采用的25种数据处理方式中,SG3点一阶微分(savitzky golay)、SG5点一阶微分、SG7点一阶微分、线性基线校正+SG3点一阶微分、SG平滑+SG3点一阶微分、SG平滑+线性基线校正+SG3点一阶微分这6种数据处理方式对全局建模的建模精度有明显改善作用,模型的相对分析误差均达到2.0以上,其中以SG平滑+SG3点一阶微分为最佳,其决定系数、均方根误差、相对分析误差分别为0.80、0.43、2.23。研究结果为跨区域土壤盐渍化的航天高光谱遥感监测提供了一定的参考依据。

真空蒸馏技术提取土壤水实验研究

简要介绍共沸蒸馏、真空蒸馏、离心分离、锌的微量蒸馏4种土壤水提取技术,并对其优缺点进行了比较.对黏土含量较高且达到田间持水量的土壤在提取温度为100℃、连续加热5 h条件下,真空蒸馏提取土壤水进行氢氧稳定同位素分析.结果表明:真空蒸馏技术在提取温度为100℃和连续加热5 h条件下,土壤水提取百分比接近100%;土壤中有部分弱束缚水被提取出来,约占提取水分的0.45%;对土壤含水量较高的黏土,δ(D)和δ(18O)最大提取误差(提取的土壤水与加入水同位素的差值)分别为-1.2%和-0.07%,提取的土壤水同位素都贫化.

酸性土壤水溶性氟浸提方法的研究

本文比较研究了振荡、超声、沸水浴和烘箱4种浸提酸性土壤水溶性氟的方法,然后采用离子色谱法对浸提液进行测定,并通过对测定数据进行统计与方差分析来确定最佳浸提方式。结果显示,水土比5:1,浸提时间20 min、温度60℃是振荡法与超声法浸提酸性土壤水溶性氟含量的最佳条件。在此条件下,振荡法与超声法浸提的土壤水溶性氟含量无显著差异,标准偏差均小于0.3%。超声法浸提的酸性土壤水溶性氟含量显著高于各自最佳处理条件下的沸水浴法与烘箱法浸提的水溶性氟含量。在离子色谱测定水溶性氟过程中,质量控制样品均在1倍标准偏差范围内。因此,采用离子色谱法测定超声法或振荡法浸提的酸性土壤水溶性氟是一种可行的、准确的试验方法,特别对于批量土壤样品的测定具有重要意义。