阿尔泰山西北部土壤垂直带有机质性质的变化特征

本文对阿尔泰山西北部土壤垂直带有机质性质的分析表明:垂直带表土层有机质含量随海拨升高而递增,有机质与全N有很好的相关性,阳离子代换量在有机质和pH双重影响下,以黑钙土最高。在垂直带中,以黑钙土的水热条件对土壤有机质的积累最为合适,表现为有机质含量高,腐殖质层深厚,胡敏酸的分子复杂。     

湖南洞庭湖区Hg元素影响因素分析

汞对土壤污染的隐蔽性、长期性和不可逆转性对陆生生态系统构成巨大威胁,对人类健康造成极大危害,因此必须找出土壤中汞和影响因素关系,为治理土壤中汞的污染提供前提.     

我国南北过渡带土壤简介——以河南省信阳市为例

土壤是自然环境的组成要素之一,土壤的发育受当地自然条件的综合影响,土壤的种类、性质和特点可直接反映自然条件的特点。河南省信阳市地处我国南北过渡带、山地平原的交汇点上,自然环境独特,自然条件多变,再加上多样的耕作方式的影响,本区所形成的土壤种类繁多。按我国现行的土壤分类系统,本区的土壤类型有5大类(见土壤剖面图),包括12个亚类、36个土属、137个土种。     

从土壤腐殖质分组到分子有机质组学认识土壤有机质本质

梳理了与土壤生态系统功能相联系的,特别是对固碳减排的土壤有机质本质认识的研究进展及路径,探讨了经典腐殖质学说存在的问题,概述了新近的有机质保护稳定学说及腐殖质组学学说,并追溯了生物标志物有机质分子研究,最后从土壤学的基本理念和理论出发讨论和重新认识土壤有机质的本质及其价值。从形成条件、分离条件和分子鉴定等多方面分析,土壤腐殖质形成和稳定学说越来越显示出局限性;而面向气候变化的碳固定研究可以深入探析土壤有机质的复杂存在状态。越来越认识到土壤有机质是投入土壤的有机物质经不同程度生物利用或降解的产物残留,只是被土壤不同程度地区隔和封闭,本质上仍是分子量变化极大的生命源有机物的集合。因此,可通过生物标志物分子作为靶标在土壤中提取和识别,该技术的发展将孕育萌生土壤有机质分子组学。后者可以用于判读土壤有机质的结构支撑、反应活性和促生功能等方面的本质差别,这些差别可能是由有机分子组成结构及存在状态所决定而不是由有机分子稳定性决定的。从这个概念出发,类似于土壤微生物分子生态,土壤有机质的丰度、组成、结构与功能间的联系可能是土壤有机质本质的核心问题。对这种关系的量化和参数化表征可用以探索土壤有机质永续固定,且可以保持生命活性的土壤有机质的管理策略及技术,并配合土壤的团聚体理论诠释土壤的本质和生态系统功能服务,这将是未来土壤学服务人类可持续发展的理论立足点。     

石灰土发育过程中土壤腐殖质组成及其与土壤钙赋存形态关系

选取桂林典型石灰土不同发育阶段土样(黑色石灰土、棕色石灰土、黄色石灰土),对土壤中腐殖质组成、土壤钙的形态及其含量进行测定。结果显示:(1)石灰土发育过程中,黑色石灰土、棕色石灰土、黄色石灰土总碳量分别为230.15mg/g、37.49mg/g、17.94mg/g,胡敏酸所占比例分别为31.94%、9.44%、7.25%,富啡酸所占比例为1.04%、36.14%、66.16%,胡敏素为67.02%、54.41%、26.59%;(2)黑色石灰土、棕色石灰土、黄色石灰土中土壤钙全量分别为21486.66mg/kg、6913.33mg/kg、5540.17mg/kg,且三种土壤中均是酸溶态所占比例最高,分别为57.58%、74.69%、80.83%,其次为可还原态、残渣态和可氧化态;(3)相关性分析表明,土壤钙及其各形态均与土壤有机碳总量、胡敏酸、胡敏素成正相关关系,与富啡酸成负相关关系,土壤腐殖质组成及其含量在很大程度上影响着土壤钙含量及赋存形态。      

地球上的土壤究竟是如何形成的？

看看自己的脚下,土壤是多么平凡的东西,似乎在任何地方都可以看到。可土壤到底是由什么东西组成,怎么形成的呢？将这些不起眼的东西放大数十上百倍你就会发现,它们的主要成分是细小的碎石块。此外,空气、水、微小生物也是土壤的重要组成部分,当然,别忘了最重要的部分——腐殖质。     

土壤腐殖质提取和分组综述

土壤腐殖质的定量提取、分离与纯化是深入研究土壤腐殖质的重要前提。本文详细综述了国内外腐殖质提取和分组的实验手段和研究进展;以国际腐殖质协会提供的标准方法为参考,对比论述了提取剂种类,提取次数、提取剂用量等的选择;对比讨论了两种主要的土壤腐殖质的分组方法。超滤分离和体积排阻色谱是腐殖质物理化学表征研究中的两种新兴技术,笔者认为组合使用两种实验手段对土壤腐殖质进行细致的分离与分组研究有助于深化理解土壤腐殖质的化学性质和分子结构。     

ON THE DIVISION OF NORTH BOUNDARY OF SUBTROPICAL ZONE ACCORDING TO THE COMPOSITIONS AND PROPERTIES OF SOIL HUMUS

In this paper predecessorsˊ achievements about the division between subtropical zone and warm temperate zone on the south slope of Funiu Mountain are firstly summarized,and the cause why these viewpoints about the division are different also has been presented.Seven soil profiles at different heights above sea level are dug along the south slope of Funiu Mountain.Many compositions and properties of soil humus have been analyzed in laboratory.A comprehensive study has been made about the division according to the compositions and properties of soil humus with mathematical method.During the analysis process eitht indexes have been used,such as altitude,organic carbon,humic acid(HA),fulvic acid(FA),the ratio of humic acid and fulvic acid(HA/FA),two extinction coefficients(E4,E6), and their ratio (E4/E6).The result indicates that the boundary is at about 1000 meters above sea level.     

Optical properties of estuarine dissolved organic matter isolated using cross-flow ultrafiltration

Dissolved organic matter(DOM) from freshwater, mid-salinity, and seawater endmember samples in the Jiulong River Estuary, China were fractionated using cross-flow ultrafiltration with a 10-kDa membrane. The colloidal organic matter(COM; 10 kDa–0.22 μm) retentate, low molecular weight(LMW) DOM(10 kDa) permeate, and bulk samples were analyzed using absorption spectroscopy and three-dimensional fluorescence excitation-emission-matrix spectroscopy. The UV-visible spectra of COM were very similar to those obtained for permeate and bulk samples, decreasing monotonically with increasing wavelength. Most of the chromophoric DOM(CDOM, expressed as the absorption coefficient a355) occurred in the LMW fraction, while the percentage of CDOM in the colloidal fraction was substantially higher in the freshwater endmember(13.4% of the total) than in the seawater endmember(6.8%). The bulk CDOM showed a conservative mixing behavior in the estuary, while there was removal of the COM fraction and a concurrent addition of the permeate fraction in the mid-salinity sample, implying that part of the colloidal CDOM was transformed into LMW CDOM. Two humic-like components(C1: 250, 325/402 nm; and C2: 265, 360/458 nm) and one protein-like component(C3: 275/334 nm) were identified using parallel factor analysis. The contributions of the C1, C2, and C3 components of the COM fraction to the bulk sample were 2.5%–8.7%, 4.8%–12.6%, and 7.4%–14.7%, respectively, revealing that fluorescent DOM occurred mainly in the LMW fraction in the Jiulong River Estuary. The C1 and C2 components in the retentate and permeate samples showed conservative mixing behavior, but the intensity ratio of C2/C1 was higher in the retentate than in the permeate fractions for all salinity samples, showing that the humic component was more enriched in the COM than the fulvic component. The intensity ratio of C3/(C1+C2) was much higher in the retentate than in the permeate fraction for mid-salinity and seawater samples, revealing that the protein-like component was relatively more enriched in COM than the humic-like component. The contribution of the protein-like component(C3) to the total fluorescence in the retentate increased from 14% in the freshwater endmember to 72% for the seawater endmember samples, clearly indicating the variation of dominance by the humic-like component compared to the protein-like component during the estuarine mixing process of COM.     

土壤和水体环境中矿物-腐殖质交互作用的研究进展

矿物-腐殖质间的交互作用是土壤和水体沉积物及悬浮颗粒物中环境物质的重要界面过程。不管是氮、磷植物性营养元素还是有毒的重金属、有机物，它们在表生环境中的迁移转化与归趋受到矿物、腐殖质及其复合体的表面活性和迁移性的调控。矿物-腐殖质体系的界面作用研究是前沿性的研究领域，主要目的是揭示矿物-腐殖质复合体的结构特性(例如颗粒物的圈层结构与表面微形貌)及其与颗粒物表面活性的关系，进而揭示土壤和水体环境中矿物-腐殖质间的交互作用规律。本文对该领域的研究现状进行评述，并提出未来可能的发展趋势。