基于聚类分析法的茶园岩石-土壤-茶叶中物质分布及关键地化组分

为探究茶园地质背景对茶叶生长的影响,分析茶园岩石、土壤和茶叶中矿物质的聚类特征,总结影响茶叶的关键地球化学组分,本文系统采集了云南省双江县冰岛茶园岩石、土壤与茶叶样品,测定34种无机矿质元素及8种有机物的含量,采用R型逐步聚类法对所有指标进行聚类分析。结果表明冰岛茶园的地质背景影响茶叶的关键地球化学组分为Th-Ba-Ti-Ge、Cd-K-Se-Mg、Ca-B-Cs-P,为茶树生长提供了大量的有益元素;物质内相关性由大到小依次为茶叶、岩石、土壤;聚类谱系图中,当以相关系数R=-0.25为分界线时,推测岩石样品因岩浆岩活动、变质作用和高温热液作用而聚类,土壤样品因元素活动性的强弱和氧化还原反应而聚类,茶叶样品因土壤pH值等理化性质对其抑制/促进作用而聚类,为进一步研究地质背景对茶叶物质构成的影响机制奠定基础。

岩石-土壤-植被信息系统建立探讨

岩石 -土壤 -植被信息系统是地球表面分布范围最广的系统之一 ,通过计算机软硬件的支持 ,运用系统工程、信息科学的理论具有空间内涵的岩石、土壤、植被信息对进行了科学管理和综合分析 ,采用遥感、地理信息系统和多学科的交叉与综合等手段 ,利用面向对象的信息提取 ,采集气候信息、地形地貌信息、水资源信息、地质背景信息、土壤信息、植被信息、地面热场信息和水土流失信息等 ,建立空间信息数据库 ,研究岩石、土壤、植被信息之间的信息流关系 ,以供规划、管理、决策和研究所需信息的技术系统。

湖北宜昌鸦鹊岭地区岩石-土壤元素迁移特征及柑橘种植适宜性评价

"宜昌蜜桔"久享盛誉,鸦鹊岭地区是其典型产地之一。本文选取宜昌市鸦鹊岭地区柑橘基地开展岩石-土壤垂向剖面地球化学测量,通过对植物营养有益元素、稀土元素等进行测试分析,调查相关元素由岩石至土壤的迁移特征,评价柑橘生长岩土环境适宜性。结果表明:土壤元素多会继承其在母岩中的含量水平,如相似的稀土元素配分模式,Si、Na、K、Ca、Mg、Mo、Sr等元素相似的相对富集或贫化程度;根据相关性分析及聚类分析,识别出Al-FeGe-Ni-B-K-Si,S-N-Se-P,Cu-Zn-Mo等3类正相关性元素组合;选择种植柑橘土壤所对应的成土母岩适宜性优劣排序依次为,红花套组(K2h)长石石英砂岩>牌楼口组(E2p)钙质砂岩>掇刀石组(Nd)泥灰岩>罗镜滩组(K2l)钙质砾岩,并进一步提出种植优化建议。

辽宁北部地区岩石-土壤-植物中硒元素地球化学研究

通过对辽宁北部地区岩石、土壤和植物中硒元素的地球化学研究,分析了硒元素在岩石-土壤-植物中的释放-迁移-吸收特征与数量变化规律.研究结果表明:岩石样品硒含量平均值为0.08×10^(-6),总体上岩石中硒质量分数呈现火山岩>碳酸盐岩>花岗岩/沉积岩>变质岩的规律;垂向上硒质量分数呈现土壤A层>土壤B层>成土母岩的变化规律;土壤表层硒平均含量0.24×10^(-6),土壤中硒质量分数总体上呈现棕壤(A、B层)>水稻土(A、B层)>草甸土(A、B层)>风砂土(A、B层)的规律;植物中硒平均含量0.07×10^(-6),植物对土壤中硒富集能力大小依次为杂草>榛子>水稻>玉米;土壤和水稻、土壤和榛子之间硒含量存在显著的正相关,土壤和杂草、土壤和玉米之间相关性不明显.

湖北秭归地区岩石-土壤-脐橙树系统中铜、锌元素的分布特征

对湖北秭归地区脐橙生态区岩石-土壤-脐橙树系统中Cu、Zn元素分布特征的研究表明:脐橙果实中Cu和Zn的含量变化与母岩中的变化趋势相反,与土壤中Cu和Zn的变化趋势相关性不明显;系统中Cu和Zn的分布普遍存在偶数规律,且Zn/Cu有岩石→土壤→脐橙果实→干逐渐增大的变化特征,Zn和Cu元素在脐橙植物系统中生物地球化学循环发生了分异,其方向是喜Zn厌Cu。不同地区脐橙果实中Cu和Zn元素的生物富集系数之间存在明显线性关系,其回归方程为:Zn=0.006+0.024×Cu(R=0.96)。

深圳杨梅坑地区岩石-土壤-植物系统中重金属元素的迁移特征

本文以广东省深圳杨梅坑地区为研究对象,在详细的野外调查和系统的资料搜集的基础上,采集土壤、岩石和芒萁植物样品,研究深圳杨梅坑地区不同地层岩石-土壤-植物系统中重金属元素的含量及分配特征,并揭示重金属元素在岩石-土壤-植物系统中的迁移累积规律。结果表明:(1)从岩石到土壤,春湾组土壤富集Cu、Ni、Cr,南山组土壤富集Pb、Zn、Cd、Hg。土壤在区域上富集特征,与岩石富集特征基本一致,表明地质背景是影响土壤重金属分布的主要因素之一。(2)芒萁对土壤中Cu、Cd元素吸收程度最强,而对As元素吸收程度最低。植物体内重金属的转移能力趋势为Zn>Hg>Cd>Pb>Cu>Ni>Cr>As。(3)在岩石-土壤-植物系统中,As元素的迁移能力极弱,主要集中于土壤和成土母岩中;Pb、Zn、Hg、Cr、Ni在岩石-土壤-植物系统中的迁移较弱,较少受成土母质和母岩的影响;Cd、Cu在岩石-土壤-植物系统中的迁移较强,存在人为引起的来源。

喀斯特关键带不同干扰梯度下土壤-岩石界面对土壤有机质水解酶活性的影响

土壤酶在土壤生态系统的物质循环和能量流动中具有重要作用,受土地利用方式影响强烈。喀斯特地区具有岩石出露面积广和土层浅薄不连续的特点,且随着人为干扰强度的增加而加剧。但是目前关于土壤碳氮循环酶活性对出露岩石(土壤-岩石界面)的响应受土地利用变化的影响的研究还较为薄弱。以贵州省喀斯特地区陈旗和天龙山流域为研究区域,探讨了原生林、次生林、弃耕地和耕地4种不同干扰梯度下土壤-岩石界面的土壤有机质水解酶活性的差异以及影响机制。研究结果表明:(1)当土地利用方式从森林转化为弃耕地或耕地后,土壤有机碳(SOC)、全氮(TN)、硝态氮(NO3^——N)、铵态氮(NH4^+-N)含量和SOC/TN随着人为干扰强度的增加呈现降低的趋势。在4种不同干扰强度的土地中,岩土界面的pH、SOC和NH4^+-N含量较高。(2)土壤酶活性在不同干扰梯度下土壤-岩石界面和非交界处有明显的分异。与碳循环有关的β-1,4-葡萄糖苷酶(βG)、β-1,4-木糖苷酶(βX)、纤维素二糖水解酶(CBH)和α-1,4-葡萄糖苷酶(αG)酶活性均表现为弃耕地和耕地高于原生林和次生林。与氮循环有关的β-1,4-N-乙酰葡糖氨糖苷酶(NAG)和亮氨酸氨基肽酶(LAP)在原生林和弃耕地中表现出更高的活性。所有水解酶均在弃耕地的土壤-岩石交界处活性最高。(3)RDA分析表明,可溶性有机碳(DOC)的含量对土壤水解酶活性影响最大,贡献率为33.4%(P=0.002)。土壤pH、SOC和NH4^+-N与酶活性显著相关。综上,土地利用方式和岩石裸露显著影响土壤的理化性质和水解酶活性;同时弃耕地的土壤-岩石界面维持了较高的碳氮周转酶活性,反映出长期恢复下土壤的养分循环功能仍然存在,表明退耕还林还草对喀斯特地区生态系统恢复和土地资源可持续利用具有重要意义。

Effect of soil-rock system on speleothems weathering in Bailong Cave,Yunnan Province,China

Bailong Cave with its well-developed Middle Triassic calcareous dolomite’s system was opened as a show cave for visitors in 1988. The speleothem scenery has been strongly weathered as white powder on the outer layers. Study of the cave winds, permeability of soil-rock system and the chemical compositions of the dripping water indicated: (1) The cave dimension structure distinctively affects the cave winds, which were stronger at narrow places. (2) Based on the different soil grain size distribution, clay was the highest in composition in the soil. The response sense of dripping water to the rainwater percolation was slow. The density of joints and other openings in dolomite make the dolomite as mesh seepage body forming piles of thin and high columns and stalactites. (3) Study of 9 dripping water samples by HYDROWIN computer program showed that the major mineral in the water was dolomite.

高密市高氟地下水成因研究

高密市曾经是全国氟中毒较为严重的地区之一,浅层高氟地下水是病区居民致病的主要原因。在系统环境地球化学调查的基础上,研究了当地高氟地下水的成因,认为岩石、土壤是当地高氟浅层地下水的主要来源。探讨了地下水中氟富集的因素与过程,提出了地氟病的防治措施。

寿光市高氟地下水的分布规律和成因

寿光市曾经是山东省地氟病防治的重点地区,通过在病区开展野外调查和岩土、水样测试等工作,总结了该区地氟病分布及地球化学环境特征,探讨了地氟病与地层岩性、土壤、地形地貌、浅层地下水、生活用水等的关系。在系统环境地球化学调查的基础上,研究了当地高氟地下水的成因,认为岩石、土壤、海水是高氟浅层地下水的主要来源,高氟浅层地下水形成可能有海侵富集型和蒸发浓缩型。分析了地下水中氟富集的因素与过程,提出了地氟病的防治措施。

福建龙海杨梅产地元素地球化学特征

福建省是中国杨梅重要产地,其中龙海市浮宫杨梅因其独特品质而名扬海外,是当地的名特优农产品。以龙海杨梅产地为研究区,系统采集了35套岩石-土壤-杨梅果实样品,测定了主量组分、植物营养有益元素、有害元素以及土壤部分营养元素有效态含量。研究表明:受地质背景影响,浮宫镇及其周边杨梅产地土壤中植物营养有益元素的有效度及其有效量普遍高于东泗镇,而有害元素含量较低,为浮宫杨梅的优质高产、富硒杨梅产出提供了地质地球化学条件;土壤中植物营养元素P、Mn、Cu、Zn、S有效态含量与其全量显著正相关;研究区岩石、土壤Se含量均远高于全国平均水平,采集的35件杨梅果实样品富硒率高达74.3%;植物营养有益元素的富集系数明显高于有害元素,显示出杨梅对营养有益元素的选择性吸收以及对有害元素的阻遏作用。

安溪县光德村地氟病区生态地球化学特征

在安溪县光德村地氟病区进行生态地球化学调查发现,岩石、土壤、饮用水、水稻、蔬菜中F含量较高,而Cu、Mo、Ca等人体必需的元素严重缺乏;饮用水中F严重超标,F-高达4.18 mg/L,达地下水Ⅲ类标准的4倍之多,且水质pH低于饮用水标准的下限6.5,属酸性水质,不适合饮用,该地区特殊的生态地球化学环境是导致地氟病的主要原因。

花岗岩地区地下水溶质的形成机制探讨

过对吉林省东部花岗岩地区水 -土壤 -岩石相互作用过程中地质地球化学特征的研究分析 ,阐明了花岗石地区地下水的水化学特征 ,并指出花岗岩地区地下水溶质主要来源于土壤与水的相互作用 .

Geographical Tendencies of Trace Element Contents in Soils Derived from Granite,Basalt and Limestone of Eastern China

92 soil samples were collected from granite, basalt and limestone areas of eastern China and determined for 13 trace element contents. The geographical tendencies of and factors affecting trace element contents in soils were studied.The sequences of soil trace element contents (especially the transitional elements in the 4th period) were: basalt soils > limestone soils > granite soils.The contents of trace elements in soils of granite areas and basalt areas showed great inheritance of trace element contents from the relevant parent rocks. The contents of trace elements in limestones were very low, but they became very high in limestone soils. Trace element contents of soils derived from limestone and basalt'increased significantly from north to south, these tendencies were similar to the tendency of ferric oxide contents in soils.There were differences of contents of trace elements bound to ferric oxide in different kinds of parent material and in different types of soil. The correlations between the contents of trace elements and the contents of ferric oxide were better in basalt soils than in granite soils.

Nutrient Release from Weathering of Purplish Rocks in the Sichuan Basin,China

Purplish soils having high fertility with mineral nutrients inherited from the parent rock are widely distributed in the hills along the Yangtze River,especially in the Sichuan Basin.Pot and field weathering experiments were conducted to mimic rock weathering and nutrient release processes in order to better understand soil fertility and nutrient compensation. Three types of purplish rock formations formed in the Jurassic period,Shaximiao(J_2s),Suining(J_3s),and Penglaizhen (J_3p),as well as one type formed in the Cretaceous period,the Chengqiangyan group(K_1c),were used in this study. Results showed that the soil formation rate was in the range from 11.2 to 19.6 mm every year,and rock weathering was in the order of J_3s>J_3p>J_2s>K_1c.Because more rock surface was exposed to sunlight and rainfall in field conditions,pot weathering was slower than field weathering.Nutrient release rates increased with rock weathering and was in the order similar to that of rock weathering:J_3p>J_3s>J_2s>K_1c.Potassium release was the most important in all rocks;after 2 years of weathering,19.4% to 46.9% of K was released from the initial parent rocks,which suggested that K release from weathering could meet most of the crop K requirement in purplish soils.Thus,rapid release of nutrients from weathering of purplish rocks was key to nutrient replenishment and fertility of purplish soils.

Solubilization of Rock Phosphate in Liquid Culture by Fungal Isolates from Rhizosphere Soil

Rock phosphate （RP） is a low efficiency P fertilizer that is directly applied to the soil and can be solubilized by phosphate-solubilizing microorganisms （PSMs） in fermentation or soil conditions. This study investigated dynamic solubilization of 2 concentrations of rock phosphate in a liquid culture with different dosages of glucose by two fungal isolates,Aspergillus niger P39 and Penicillium oxalicum P66, from soybean and wheat rhizosphere soil. Although during the 20 day culture period A. niger P39 had a stronger ability to acidify the culture media than P. ozalicum P66, soluble P concentrations at glucose dosages of 30 and 50 g L^-1 with RP of 15 g L^-1 in the culture solution were much higher by P. oxalicum P66. The greater effectiveness of P. oxalicum P66 compared to A. niger P39 in the solubilization of RP was strongly associated with the production of organic acids. This study suggested that for RP solubilization the type rather than the concentration of PSM-produced organic acids was more important.

Effects of Trichoderma harzianum YC_(459) and soil types on seed germination and seedling growth in rock slope restoration

We carried out experiments with various concentrations of Trichoderma harzianum YC459 in different soil types(forest soil, mixed soil,merchantable soil, and leaf mold soil) to evaluate its effect on seed germination and seedling establishment of four species(Festuca arundinacea Schreb., Dianthus barbatus var. asiaticus Nakai,Lespedeza cyrtobotrya Miq., and Parthenocissus tricuspidata Planch) for rock slope restoration. We also investigated the use of drilled slanted holes on the rock slopes for seedling establishment. The results showed that T. harzianum concentration had significant effects on seed germination, seedling growth, and seedling survival for all the species with different soil types. Seed germination and survival rates peaked at 5% T. harzianum concentration with leaf mold soil and decreased as T. harzianum concentration increased from 5% to 10%. Seedling survival rates of all four species were generally lowest at 0% T. harzianum concentration in all soil types.The height of F. arundinacea and L. cyrtobotrya peaked at 5% T. harzianum concentration whereas that of D. barbatus and P. tricuspidata peaked at 10%T. harzianum concentration. We concluded that 5% T. harzianum concentration with leaf mold soil is appropriate for seed germination and seedling survival rates of most species, thus enhancing seedling establishment. Practical application of the findings of this study will contribute in the vegetation restoration of steep rocks in mountain environments.

Characteristics of rock fragments in different forest stony soil and its relationship with macropore characteristics in mountain area, northern China

Rock fragments have major effect on soil macropores and water movement. However, the characteristics of rock fragments and their relationship with macropore characteristics remain elusive in forest stony soils in northern mountainous area of China. The objectives of this study are to(1) use Industrial Computed Tomography(CT) scanning to quantitatively analyze rock fragment characteristics in intact soil columns in different forest lands and(2) identify the relationship between characteristics of rock fragments and that of the macropores. Intact soil columns that were 100 mm in diameter and 300 mm long were randomly taken from six local forest stony soils in Wuzuolou Forest Station in Miyun, Beijing. Industrial CT was used to scan all soil column samples, and then the scanned images were utilized to obtain the three-dimensional(3 D) images of rock fragments and macropore structures. Next, theparameters of the rock fragments and macropore structure were measured, including the volume, diameter, surface area, and number of rock fragments, as well as the volume, diameter, surface area, length, angle, tortuosity and number of macropores. The results showed that no significant difference was found in soil rock fragments content in the 10-30 cm layer between mixed forest and pure forest, but in the 0-10 cm soil layer, the rock fragments in mixed forest were significantly less than in pure forest. The number density of macropores has significant negative correlation with the number of rock fragments in the 0-10 cm soil layer, whereas this correlation is not significant in 10-20 cm and 20-30 cm soil layers. The volume density of macropore was not correlated with the volume density of rock fragments, and there is no correlation between the density of macropore surface area and the density of rock fragment surface area. Industrial CT scanning combined with image processing technology canprovide a better way to explore 3 D distribution of rock fragments in soil. The content of rock fragments in soil is mainly determined by parent rocks. The surface soil(0-10 cm) of forest contains fewer rock fragments and more macropores, which may be caused by bioturbation, root systems, gravitational settling and faunal undermining.

桂林岩溶试验场植被水文过程总有机碳通量垂直变化特征

该研究以广西桂林岩溶石山区的两种典型植被(香椿林和云实灌丛)为例,利用野外长期定位监测降雨、穿透雨、树干径流、钻孔和表层岩溶水中总有机碳(TOC)的变化特征,探讨不同植被林冠层TOC浓度和通量的年变化特征。结果表明:在降雨通过大气-植被-土壤/岩石的过程,TOC浓度变化趋势为树干径流>穿透雨>钻孔水>泉水>大气降雨;穿透雨和树干径流中TOC浓度呈现为雨季大旱季小的趋势,钻孔水和泉水的TOC浓度月变化则相对稳定; TOC浓度的增幅不同,穿透雨和树干径流TOC浓度的平均增量和变化幅度比钻孔水和泉水的大;香椿林树干径流TOC浓度与树干径流量呈负相关关系; TOC月平均通量为云实穿透雨>香椿穿透雨>降雨>泉水>香椿树干径流>云实树干径流;云实灌丛林下降雨(204.86 kg·hm^(-2)的TOC通量是香椿林(153.48 kg·hm^(-2)的1.3倍;观测期间,大气降雨输入的TOC通量为63.06 kg·hm^(-2),表层岩溶泉水输出为48.29 kg·hm^(-2),TOC输入输出之差为14.77 kg·hm^(-2),系统TOC为正平衡;降雨进入植被内部后时,植被林冠层作为"TOC活库"具有增加TOC通量的"源"作用,而表层岩溶带的土壤/岩石系统作为"TOC死库"具有吸收、过滤和固定TOC的"汇"作用。

Characteristics and distributions of humic acids in two soil profiles of the southwest China Karst area

Characteristics and distributions of humic acid(HA) and soil organic matter(SOM) in a yellow soil profile and a limestone soil profile of the southwest China Karst area were systematically investigated to reveal their evolutions in different soils of the study area. The results showed that characteristics and distribution of SOM along the two soil profiles were notably different. Total organic carbon(TOC) contents of soil samples decreased just slightly along the limestone soil profile but sharply along the yellow soil profile. TOCs of the limestone soils were significantly higher than those of the corresponding yellow soils, and C/N ratios of SOMs showed a similar variation trend to that of TOCs, indicating that SOM can be better conserved in the limestone soil than in the yellow soil. The soil humic acids were exhaustively extracted and further fractionated according to their apparent molecular weights using ultrafiltration techniques to explore underlying conservation mechanisms. The result showed that C/N ratios of HAs from different limestone soil layers were relatively stable and that large molecular HA fractions predominated the bulk HA of the top soil, indicating that HA in the limestone profile was protected while bio and chemical degradations were retarded. Combined with organic elements contents and mineral contents of two soils, weconcluded that high calcium contents in limestone soils may play a key role in SOM conservation by forming complexation compounds with HAs or/and enclosing SOMs with hypergene CaCO_3 precipitation.