首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 515 毫秒
1.
秸秆还田条件下内陆盐碱土腐殖质的动态变化   总被引:1,自引:0,他引:1  
采用室内培养试验的方法,研究了秸秆加入条件下内陆盐碱土的腐殖质及其组分(胡敏酸、富里酸)的动态变化。结果表明,在秸秆腐解过程中,盐碱土腐殖质、富里酸、胡敏酸含量均呈现持续上升趋势,分别平均增加了112.5%,269.54%和92.9%富里酸的含量明显高于胡敏酸的含量,是胡敏酸含量的约3~10倍。土壤的HA/FA(腐殖酸/富里酸)呈现出先增长后降低的趋势,并且在90d时达到平均最高值(0.283)。尿素添加量7.2g的处理土壤腐殖质含量在0.19%~0.38%,该处理秸秆分解的速率最快。土壤腐殖质和富里酸随着尿素含量梯度的增加呈现先上升,后下降,再上升的趋势,且分别平均增加了46.7%和55.3%胡敏酸的变化趋势与腐殖质相反,平均减少了14.3%HA/FA呈下降趋势,但下降趋势不明显。  相似文献   

2.
集约经营对山核桃林地土壤腐殖质组分碳含量的影响   总被引:1,自引:0,他引:1  
[目的]研究并探讨土壤腐殖质各组分碳含量的变化规律,为山核桃林地土壤管理提供理论依据。[方法]采集并分析山核桃林经营历史为5,10,15,20a的土壤样品的土壤腐殖质各组分碳含量,并与天然混交林(0a)进行比较。[结果]与天然山核桃—阔叶混交林(0a)相比,随着经营历史的延长,林地土壤腐殖质各组分碳含量的变化主要发生在表层(0—10cm),胡敏酸碳、富里酸碳和胡敏素碳含量均下降。与0a相比,集约经营5a后胡敏酸碳、富里酸碳和胡敏素碳含量分别下降了42.8%,23.9%和21.2%,而集约经营20a后,分别下降了45.3%,39.0%,32.3%。集约经营20a后,亚表层(10—30cm)土壤胡敏素碳含量上升了94.2%。[结论]集约经营降低了山核桃林地土壤表层和亚表层的胡敏酸碳和富里酸碳含量,同时也降低了表层土壤胡敏素碳含量,而提高了亚表层土壤胡敏素碳含量。  相似文献   

3.
通过对华北平原小麦–玉米轮作农田生态系统18年田间施肥试验,研究了长期不同施肥处理对耕层(0—20 cm)土壤腐殖质及活性腐殖质组分碳和氮的影响。试验设化肥NPK不同组合(NPK、NP、NK、PK),全部施用有机肥(OM),一半有机肥+化肥NPK(1/2OMN)及不施肥(CK)共7个处理。结果表明,各施肥处理均能在不同程度上增加土壤腐殖质(胡敏酸、富里酸和胡敏素)及活性腐殖质(活性胡敏酸和活性富里酸)组分碳和氮含量,提高可浸提腐殖质(胡敏酸和富里酸)及活性腐殖质组分碳和氮分配比例;但施肥对土壤活性腐殖质组分碳和氮含量的增加率均分别高于腐殖质组分碳和氮。各处理土壤腐殖质及活性腐殖质组分碳和氮含量均为OM处理最高,且有机肥与化肥NPK配施高于单施化肥各处理;而化肥处理中NPK均衡施用效果最好。说明施用有机肥、有机肥与化肥NPK配施及化肥NPK均衡施用是增加土壤腐殖质及活性腐殖质组分碳和氮的关键;活性腐殖质组分碳和氮较腐殖质组分碳和氮对施肥措施的响应更灵敏。  相似文献   

4.
以黄土丘陵沟壑区的子午岭人工油松林区的土壤为研究对象,综合研究了不同管理措施,不同深度土壤的腐殖质组成、结合形态及胡敏酸的光学特征。结果表明:不同管理方式下土壤腐殖质各组分有机碳含量为胡敏素(HM)富里酸(FA)胡敏酸(HA),其对土壤腐殖质组分和结合形态的影响主要集中在0-40cm土层之间;PQ值天然油松林(N)粗放管理型(E)精细管理型(F),油松林各层土壤的PQ均小于26%;E4/E6和色调系数(ΔlogK)的值为FEN,RF的平均值为NEF。综合研究表明,天然油松林土壤有机碳的腐殖化程度和芳化度较人工油松林显著提高,说明人为干扰不利于土壤腐殖质品质的提高,反而使其腐殖化程度下降,降低土壤胡敏酸的氧化稳定性,不利于森林土壤的肥力发展。  相似文献   

5.
新疆典型草原土壤腐殖酸组分的变化规律   总被引:1,自引:0,他引:1  
以新疆典型草原黑钙土、栗钙土和棕漠土为对象,研究了3种土壤不同土层腐殖质矿物复合体组分及其垂直分布规律。结果表明:13种典型草原土壤腐殖质总碳量的顺序为黑钙土(35、46g/kg)、栗钙土(31.30g/kg)和棕漠土(0.68g/kg);23种草原土壤都是以胡敏素(HM)含量最高,黑钙土、栗钙土和棕漠土的含量分别为68.17%、65.47%和42.81%;3按照腐殖酸类型分析,黑钙土和栗钙土是以胡敏酸(HA)为主的富啡酸(FA)-胡敏酸(HA)型,CH/CF>1;而棕漠土则相反,是胡敏酸-富啡酸型,CH/CF<1;4黑钙土、栗钙土和棕漠土腐殖质组分中游离R2O3结合的胡敏酸分别为6.85%、5.65%和1.65%,而富啡酸分别为0.53%、0.84%和4.91%;5在3种草原土壤中,游离腐殖酸从0~20cm到40~60cm的垂直变化规律分别为:黑钙土中游离胡敏酸和富啡酸分别从5.74和2.33g/kg降到2.70和0.89g/kg;栗钙土中游离胡敏酸和富啡酸分别从1.88和1.03g/kg降到0.59和0.75g/kg;棕漠土中游离胡敏酸和富啡酸分别由2.10和2.90g/kg降到1.92和0.67g/kg。  相似文献   

6.
四川成都经济区土壤腐殖质重金属元素含量特征研究   总被引:3,自引:1,他引:2  
通过对四川成都经济区16件土壤样品腐殖质组成及其各组分中重金属元素含量的分析表明,胡敏素是土壤腐殖质的主要组成部分,富里酸和胡敏酸次之。土壤腐殖质中重金属元素含量占土壤全量20%~44%,是土壤重金属污染元素主要存在方式。重金属元素在腐殖质不同组分中的含量具有很大的差异,Cr主要赋存在胡敏素中,Cd、As、Cu、Zn等元素主要赋存在富里酸中。各重金属元素在腐殖酸中含量较高,富里酸中的含量均大于胡敏酸,其机理是富里酸对重金属元素的络合是腐殖酸与重金属相互作用的主要方式。  相似文献   

7.
长期施用有机肥和化肥,对土壤腐殖质积累和改善品质的作用研究,于1986~1991在俄罗斯季米里亚捷夫农学院等地进行。主要结果如下:.1.有机肥对土壤腐殖质的积累作用大于NPK化肥。施肥所增加的土壤腐殖质,除了砂壤土外,主要是在0~60cm土层,60cm以下土层施肥效果不明显。.2.长期施用有机肥和NPK化肥,提高了胡敏酸组分Ⅰ(游离的及与活性R2O3结合态)的含量和腐殖酸相对迁移率,而与Ca++离子结合的胡敏酸组分Ⅱ含量下降。由于胡敏酸组分Ⅱ与Ca++离子结合减弱,增加了腐殖质在水中的溶解,使之在大雨或大量灌水时易于淋失。.3.施用有机肥和NPK化肥,水溶性腐殖物质的含量明显提高,缓解了干旱条件下土壤高浓度矿物盐的影响。.4.长期施肥提高了土壤的亲水性;其膨胀容积、膨胀速度常数、土壤吸水量、土壤表面积等指标均不同程度的提高,但砂壤土增加了幅度低于粉砂壤土和粘壤土。.5.胡敏酸甲氧基功能团的含量多寡是衡量土壤腐殖质化的重要指标。试验表明,长期施肥下低肥力酸性土壤中胡敏酸甲氧基含量提高了46%~300%,高肥力非酸性土壤提高了17%~32%。  相似文献   

8.
红松人工林腐殖质组成及其结合形态研究   总被引:4,自引:0,他引:4       下载免费PDF全文
 运用野外调查与实验分析相结合的方法,对不同生长发育阶段红松人工林(林龄25、45、58、68 a)和红松混交林(林龄60a)根际与非根际土壤有机质含碳量、腐殖质组成与结合形态进行了研究。结果表明:不同年龄阶段红松人工纯林、红松混交林土壤有机质含碳量、腐殖质各组分含碳量随土层深度的加深而降低,并且根际土壤高于非根际土壤。就土壤腐殖质组成而言,除林龄58a红松人工林根际土壤和45a红松人工林非根际土壤外,其他林型土壤胡敏酸含碳量均高于富里酸含碳量;胡敏酸与富里酸比值(HA/FA)在1.00~2.45之间;土壤重组腐殖质、松结态腐殖质、稳结态腐殖质含碳量大小顺序为林龄58>68>25>45a;红松混交林除紧结态腐殖质外,其他腐殖质各组分含碳量均高于红松人工林。  相似文献   

9.
西北黄土地区土壤腐殖物质的研究   总被引:2,自引:0,他引:2  
李香兰  刘玉民 《土壤学报》1989,26(3):298-304
本研究了西北黄土地区土壤腐殖质的含量、组成、性质与分布。其结果是:1.土壤腐殖质含量,是从东南向西北呈由高到低的分布规律。2.胡敏酸的含量、胡敏酸/富里酸的比值及胡敏酸的芳构化程度,均以陕西靖边县草原植被下的轻黑垆土为中心,向西和西北荒漠草原植被下的棕钙土与白绵土;向南森林草原与森林植被下的滕土和褐土;向东是黄绵土逐渐降低。胡敏素的含量是向西、北、南及东逐渐增加。3.与钙结合的胡敏酸,以黑垆土为中心是向西、北、南和东递减;与铁铝结合的胡敏酸是向西、北、南和东递加。4.胡敏酸芳构化程度:草原土壤>干草原与森林草原土壤>荒漠草原和森林土壤。  相似文献   

10.
通过研究滨海水稻土腐殖质各成分的组成及性质,结果表明各组分有机碳及氮含量均为表层最高,C/N在结构相对稳定的结合态腐殖质和胡敏酸(HA)中波动较小,而在游离态腐殖质和富里酸(FA)中变化较大。随着种稻时间变长,结合态的腐殖质和胡敏酸有在土壤中积累的趋势,在1 000 a水稻土中腐殖质的芳香化程度最高、结构最复杂。  相似文献   

11.
The vertical distribution and bioavailability of 137Cs in Histosols and mineral soils with different physicochemical properties from the southeast of Bavaria (Germany) more than ten years after the Chernobyl accident were the focus of this study. The vertical distribution of 137Cs was low in the investigated soils. About 85–98 % of the total 137Cs was located in the upper 10 cm of the mineral soils. Slightly higher 137Cs percentages were observed in deeper soil layers of the peat soils. Although the organic matter is assumed to enhance 137Cs mobility in soils, 137Cs was also located in the upper 10 cm of the peat soils (73–85 %). The highest 137Cs‐activities were found in the humus layers of forest soils, where 45–93 % of the total 137Cs soil inventories were observed. To determine the bioavailability of radiocesium, the soil‐to‐plant transfer of 137Cs and additionally added 134Cs was investigated under controlled conditions. The results revealed that the 134+137Cs soil‐to‐plant transfer factors as well as the percentages of NH4‐exchangeable 134+137Cs were much higher for the peat soils and humus layers than for the mineral soils. Nevertheless, the migration of 137Cs from the humus layers to the underlying soils was low. Considering the high bioavailability and low migration of radiocesium in the humus layers, it is suggested that radiocesium is involved in a shortcut element cycle in the system humus layer‐plant uptake‐litter. Furthermore, the organic matter has to be taken into account for radiocesium immobilization.  相似文献   

12.
作物秸秆碳在土壤中分解和转化规律的研究   总被引:12,自引:4,他引:12  
采用14C标记秸秆,在大田和实验室的研究结果表明,秸秆的分解速率主要取决于C/N比。施入土壤后,土壤微生物迅速增加,尤其是细菌。秸秆降解首先形成非结构物质,其中大部分转化为富里酸,进而转化为胡敏酸。分解产物对土壤腐殖质的更新,从腐殖质表面官能团或分子断片开始,逐步进行。非结构物质可与腐殖酸的单个分子产生交联作用,在一定条件下,交联的复合分子可进入腐殖质分子核心的成分中。腐殖酸单个组分在土壤中的转化和重新分配,仅仅与腐殖质表面官能团的反交换过程密切相关。粘土矿物选择性吸附胡敏酸,而且优先吸附胡敏酸中低分子成分。  相似文献   

13.
利用液培方法研究胡敏酸钠等有机酸盐作用下玉米幼苗对放射性核元素137Cs和90Sr的吸收速率。研究结果表明:利用有机酸盐可以降低玉米幼苗对放射性核元素的吸收速率。1低活度放射性核素水平下,对照(不加有机酸盐)的玉米幼苗中发现了97%放射性核元素137Cs,而高活度放射性核素水平中为61%;有机酸盐不同程度地降低了玉米幼苗中放射性核元素137Cs的量。在低活度水平中四苯硼钠降低137Cs的量最多, 玉米仅吸收12%,而酒石酸钾钠处理中玉米吸收量最高,为45.5%。对137Cs的吸收率,在胡敏酸钠处理中为23.9%, EDTA-Na处理中为41.3%;在高活度放射性核素水平中吸收率的顺序为四苯硼钠11%,胡敏酸钠26%,酒石酸钾钠28.7%,EDTA-Na 37%。2低活度水平下,对照中放射性核元素90Sr的56%被玉米幼苗吸收,而高活度水平中达61%。有机酸盐在低活度水平中降低放射性核元素90Sr的顺序为胡敏酸钠 23.9%,EDTA-Na 26%,酒石酸钾钠28%和四苯硼钠36%;在高活度水平中为四苯硼钠11%,EDTA-Na 24%,胡敏酸钠26%,酒石酸钾钠 31%。3低活度和高活度水平中,四苯硼钠和胡敏酸钠降低玉米幼苗体内的放射性核元素性质为最佳。4所有有机酸盐处理与对照之间的差异都达到极显著水平。  相似文献   

14.
Effects of humus fractions (fulvic acid, brown humic acid and grey humic acid) on the leachability and transferring activity of five types of mineral-bound Hg were investigated. Under the acid leaching condition; fulvic acid could promote leachability and vertical transference of all the mineral-bound Hg. Brown humic acid could retard the leaching and transferring processes of CaCO3-Hg, Fe2O3-Hg, MnO2-Hg and kaolinite Hg but not bentonite-Hg. Grey humic acid could greatly enhance residing ability of the mineral-bound Hg in the soil column and restrain them from vertical transferring. The effect of humus on leachability and transferring activity on the mineral-bound Hg was closely related to its ability to convert the mineral-bound Hg into organic-bound form and the transferability of the latter in the soil column. The characteristics of the mineral-bound Hg in speciation were the internal factors that determined the extent and rate of the influence of the humus.  相似文献   

15.
不同施肥措施对白土腐殖质组成的影响   总被引:3,自引:0,他引:3  
吴萍萍  王家嘉  李录久 《土壤》2016,48(1):76-81
以白土稻区4年大田定位试验为基础,设置2种翻耕深度(10 cm、20 cm,分别标记为T10、T20)和4种施肥措施(单施化肥、化肥+畜禽粪肥、化肥+秸秆还田、化肥+绿肥,分别标记为F、F+M、F+S、F+G),通过腐殖质组成修改法分别提取表层土壤水溶性物质、胡敏酸、富里酸和胡敏素,研究不同施肥措施对白土腐殖质各组分碳含量的影响。结果表明:单施化肥措施下,翻耕20 cm处理(T20+F)土壤总有机碳和腐殖质各组分碳含量均低于翻耕10 cm处理(T10+F),但差异未达显著水平。在翻耕20 cm的基础上增施有机肥能显著提高土壤总有机碳和腐殖质各组分碳含量,增施畜禽粪(T20+F+M)、秸秆还田(T20+F+S)和增施绿肥(T20+F+G)3处理的土壤总有机碳、胡敏酸、富里酸和水溶性物质碳含量较T20+F处理分别提高14.57%~30.64%、10.36%~30.57%、0.74%~12.31%和14.25%~26.80%。增施有机肥显著提高胡敏素碳含量,T20+F+M、T20+F+S和T20+F+G处理较T20+F处理提高18.87%~35.78%。4年不同翻耕与施肥措施对白土腐殖质性质未产生显著影响。增施有机肥能一定程度上提高土壤PQ值、胡富比、E4/E6值和色调系数。相关性分析表明,胡敏素、胡敏酸、富里酸碳含量与总有机碳含量间均存在显著或极显著正相关,与水溶性物质碳含量间无明显相关性。  相似文献   

16.
G. Ogner  E.T. Gjessing 《Geoderma》1975,14(2):139-145
The chemical composition of aquatic humus was investigated by permanganate oxidation. Both methylated and non-methylated samples were investigated and the results compared with those of different soil humic fractions investigated earlier.The total amount of oxidation products identified from the methylated sample was 2%, and from the non-methylated sample 0.9%. The composition of the oxidation products from methylated aquatic humus was 42% benzenecarboxylic acid methyl esters (8 different compounds), 43% methoxy-benzenecarboxylic acid methyl esters (12 compounds), 10% dimethoxy-benzenecarboxylic acid methyl esters (4 compounds), and 5% of 1, 2, 3-propanetricarboxylic acid trimethyl ester. The unmethylated aquatic humus yielded 84% benzenecarboxylic acid methyl ester (7 compounds), 7% methoxy-benzenecarboxylic acid methyl esters (2 compounds), and 9% of 1, 2, 3-propanetricarboxylic acid trimethyl ester. Three diazines isolated from methylated material were believed to be artefacts from diazomethane treatment. Two of the diazines have earlier been found by oxidation of methylated soil samples, the third, C10H12N2O6, is an oxidation product of methylated aquatic humus only.Oxidation of aquatic humus yielded more benzenecarboxylic acids and methoxy-benzenecarboxylic acids than soil humic fractions, and less dimethoxy-benzenecarboxylic acids. No aliphatic dicarboxylic acids were detected among the oxidation products of the aquatic humus.The compounds identified are mainly the same as those found by oxidation of different soil humic fractions, although their yields clearly demonstrated that the aquatic humus differed in composition from the soil fractions.  相似文献   

17.
土壤硼的电化学特征及解吸动力学   总被引:2,自引:0,他引:2  
Effects of humus fractions (fulvic acid,brown humic acid and grey humic acid) on the leachability and transferring activity of five types of mineral-bound Hg were investigated.Under the acid leaching condition;fulvic acid could promote leachability and vertical transference of all the mineral-bound Hg.Brown humicacid could retard the leaching and trasferring processes of CaCO30-Hg,Fe2O3-Hg,MnO2-Hg and kaolinite Hg but not bentonite-Hg.Grey humic acid could greatly enhance residing ability of the mineral-bound Hg in the soil colum and restrain them from vertical transferring.The effect of humus on leachability and transferring activity on the mineral-bound Hg was closely related to its ability to convert the mineral-bound Hg into orgainc-bound form and the transferbility of the latter in the soil column.The characteristics of the mineral-bound Hg in speciation were the internal factors that determined the extent and rate of the influence of the humus.  相似文献   

18.
宋修超  黑若楠  姚怡  郭德杰  罗佳  马艳 《土壤》2023,55(1):45-52
为研究不同配方中药渣废弃物好氧堆肥产品品质差异及其对土壤碳素矿化的影响,设置了好氧堆肥和有机肥还田两个试验。通过工厂化条垛式好氧堆肥试验,研究了中药渣废弃物3种组合,在相同碳氮比、不同木质纤维素含量下对好氧堆肥产品品质的影响;采用土壤呼吸瓶进行室内恒温恒湿培养模拟土壤施肥效应,研究了3种有机肥施用对不同肥力土壤有机碳分解动态的影响。试验结果显示:中药渣物料的初始木质纤维素含量显著影响堆肥产品的碳氮养分转化和腐殖质组分。与初始低木质纤维素含量处理(T1)相比,高木质纤维素含量处理(T3)堆肥有机碳降解难,堆肥产品中全碳含量提高5.7%,全氮含量降低18.4%,但有利于腐殖质形成,尤其是显著增加胡敏酸组分20.9%。3种中药渣堆肥产品等碳量输入对不同肥力土壤的碳素矿化效果差异显著,高肥力土壤CO2-C的释放速率和累积释放量均高于低肥力土壤,但有机碳的累积矿化率却低于低肥力土壤,并且高肥力土壤中添加T1堆肥产品累积矿化率显著高于添加T3堆肥产品。两个肥力土壤中有机肥中胡敏酸组分与土壤碳素矿化率之间呈显著负相关关系。因此,为提高有机肥的土壤固碳效应,可适当提高有机肥中胡敏...  相似文献   

19.
为探究生物炭对土壤腐殖质组成和团聚体特征的影响,以东北黑土区植烟土壤为研究对象,设置了3个处理,2019-2020年连续施用低量生物炭5t/hm2(C1);高量生物炭25t/hm2(C2)和不施生物炭(CK),分析了不同用量生物炭对土壤腐殖质组分及水稳性团聚体分布的影响,并利用傅里叶红外光谱(FTIR)和13C核磁共振光谱(13C-NMR)对土壤胡敏酸化学结构进行表征。结果表明:C1和C2处理分别使富里酸减少了16.90%和40.85%,胡敏酸含量显著增加了14.86%和33.78%,胡敏酸在腐殖酸中所占比例(PQ值)也显著增加;FTIR和13C-NMR分析表明,C2处理的土壤胡敏酸的2920/1620值降低了11.82%,脂族C/芳香C比值降低了13.04%,表明高量生物炭使胡敏酸芳构化程度增强,脂肪结构比例降低;生物炭的添加促使土壤大团聚体(>0.25mm)比例增加,C2处理提升大团聚体的作用更显著。结合相关性分析发现,胡敏酸含量与2~0.25mm大团聚体含量显著正相关,胡敏酸分子的脂肪族官能团特征与>2mm粒级团聚体显著正相关。此外,C1和C2处理显著提高了烟叶产量。从而表明,生物炭能提升土壤腐殖质中胡敏酸含量和结构,有利于土壤大团聚体形成,提高土壤固碳潜力,对作物有一定的增产效果。  相似文献   

20.
利用137Cs估算土壤侵蚀速率的定量模型   总被引:1,自引:0,他引:1  
A quantitative model was developed to relate the amount of ^137Cs loss from the soil profile to the rate of soil erosion,According th mass balance model,the depth distribution pattern of ^137Cs in the soil profile ,the radioactive decay of ^137Cs,sampling year and the difference of ^137Cs fallout amount among years were taken into consideration.By introducing typical depth distribution functions of ^137Cs into the model ,detailed equations for the model were got for different soil,The model shows that the rate of soil erosion is mainly controlled by the depth distrbution pattern of ^137Cs ,the year of sampling,and the percentage reduction in total ^137Cs,The relationship between the rate of soil loss and ^137Cs depletion i neither linear nor logarithmic,The depth distribution pattern of ^137Cs is a major factor for estimating the rate of soil loss,Soil erosion rate is directly related with the fraction of ^137Cs content near the soil surface. The influences of the radioactive decay of ^137Cs,sampling year and ^137Cs input fraction are not large compared with others.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号