不同类型土壤有机碳分解速率的比较

通过室内培育实验研究了黑土、潮土和红壤有机碳的分解速率.结果表明:不同类型土壤有机碳的分解速率常数存在显著差异(P<0.05),黑土、潮土和红壤有机碳的分解速率常数分别为2.2×10-4.d-1、6.0×10-4.d-1和3.4×10-4.d-1.回归分析发现,土壤pH与有机碳分解速率常数呈极显著相关关系,pH<5.5或>8.0时,分解速率常数均大幅提高.土壤中粘粒 粉粒含量与3种类型土壤有机碳的分解速率常数呈极显著负相关,表明粘粒 粉粒含量是3类土壤有机碳分解速率存在差异的主导因子.     

米槠与杉木细根凋落物是否在自身群落中分解得更快？

本研究应用网袋法对福建省万木林自然保护区米槠(Castanopsis carlesii)、杉木(Cunninghamia lanceolata) 细根在米槠林群落和杉木林群落交叉分解进行了为期2年的研究。结果表明, 0~1 mm、1~2 mm米槠细根在米槠群落比在杉木群落分解速率快, 而相同径级杉木细根在两群落分解差异较大。0~1 mm杉木细根在杉木群落的分解速率高于米槠群落, 而1~2 mm杉木细根在杉木群落的分解速率只及米槠群落的48％。米槠、杉木细根在两群落分解的差异表明, 群落立地条件对细根分解存在较大的影响。     

米槠与杉木细根凋落物是否在自身群落中分解得更快?

本研究应用网袋法对福建省万木林自然保护区米槠（Castanopsis carlesii）、杉木（Cunninghamia lanceolata）细根在米槠林群落和杉木林群落交叉分解进行了为期2年的研究。结果表明,0-1mm、1-2mm米槠细根在米槠群落比在杉木群落分解速率快,而相同径级杉木细根在两群落分解差异较大。0—1mm杉木细根在杉木群落的分解速率高于米槠群落,而1—2mm杉木细根在杉木群落的分解速率只及米槠群落的48％。米槠、杉木细根在两群落分解的差异表明,群落立地条件对细根分解存在较大的影响。     

Effect of litter substrate quality and soil nutrients on forest litter decomposition: A review

Forest litter plays an important role in determining nutrient cycling, balance and maintaining ecosystem function of forest ecosystems. Studies have shown that litter substrate quality is one of the most important factors affecting litter decomposition in a given area. It is, hence, important to understand the factors controlling litter decomposition in the late decomposition stage and determining organic matter changes over the duration of litter decomposition. Decomposition rate of mixed litter may differ with that of a single specie litter. Supply of soil nutrients is an important factor controlling litter decomposition rate, because the essential nutrients in soil or litter material influence community and activity of decomposers (soil organisms). There were clear relationships among soil nutrient, litter substrate quality, and decomposition. Soil nutrient contents were positively correlated with litter substrate quality, showing that higher contents of soil nutrient were accompanied with good quality of litter substrate, and lower soil nutrients with poor litter quality. The effects of soil fertility on litter decomposition rate varied with environmental conditions. It was reported that litter quality regulates the early stage of carbon decomposition and its accumulation in soil, however, it could not predict the long-term dynamics of soil organic carbon. Hence, the formation and stabilization of soil organic carbon are controlled by the quantity of litter input and its interaction with the soil circumstances rather than by the litter quality. The present paper reviewed the research findings about litter decomposition related to litter substrate quality and soil nutrients, including short-term and long-term litter decomposition, decomposition of single-species vs. mixed-litter decomposition and litter nutrients release. The present paper aimed to clarify the relationship between soil nutrients and litter decomposition, which will help to understand forest succession, forest water conservation and soil re-production capacity.     

宁南山区典型植物根系分解特征及其对土壤养分的影响

根系分解是陆地生态系统碳和养分循环的重要地下生态过程,研究宁南山区典型植物根系分解特征及其对土壤养分的影响,能够丰富和完善陆地生态系统的物质和能量循环机制,为我国黄土高原植被恢复过程中植物与土壤之间的养分循环提供依据。连续2年研究了宁南山区3种典型植物(长芒草、铁杆蒿和百里香)根系的分解特征及其对土壤养分的影响。结果表明,长芒草、铁杆蒿和百里香根系年分解指数(K)分别0.00891、0.01128、0.01408,分解速率依次表现为百里香铁杆蒿长芒草。分解16个月后3种典型植物根系释放大量养分,其中碳的释放量在57.05—124.39 g/kg;氮的释放量在0.12—0.47 g/kg。3种典型植物根系对土壤养分的影响主要表现为:试验结束时,0—5 cm表层土壤有机碳含量提高了0.17—0.35 g/kg,5—20 cm土层土壤有机碳含量提高了0.26—0.35 g/kg。相关性分析可知,植物根系养分释放量与土壤养分含量之间存在一定的负相关关系,当土壤养分含量较低时,根系会增加养分释放量进行补充。由此可知,根系分解提高了土壤养分含量,有效的促进了养分在根系-土壤中的循环。     

Cellulose decomposing ability of Trichoderma in relation to their saprophytic survival

Abstract

Forty one strains of Trichoderma were isolated from four provinces in the Philippines and tested for their cellulose adequacy indices (CAI). T. harzianum strain no. 94-016 with the highest CAI was further tested for its saprophytic colonization in pots relative to the amount of inoculum. The higher the amount of inoculum of T. harzianum strain no. 94-016, the higher percentage colonization of rice straw in the soil. Further tests were done to compare the decomposition of rice straw on the surface and buried in the soil and the effect of moisture on soil decomposition. Buried rice straw inoculated with T. harzianum strain no. 94-016 watered on a daily basis provided better decomposition.     

不同土壤深度落叶松细根分解及N动态变化

细根分解受根序和土壤深度的潜在影响。使用根序法分根,将落叶松Larix gmelini根系分为两类:一级根、二级根为一类(1—2级根),即低级根;三级根和四级跟为另一类(3—4级根),即高级根。采用埋袋法对落叶松低级根和高级根在不同土壤深度(0—10、10—20 cm和20—30 cm)进行了为期862 d的分解实验,探讨不同根序细根分解规律,养分释放及其影响。结果表明:1—2级根的分解速率比3—4级分解速率慢,这种规律同时存在于不同深度的土壤中。在空间上,低级根和高级根的分解速率均随土壤深度的增加而降低,高级根的降低趋势更明显。随着分解时间的进行,各个土层之间的分解率在低级根之间差异更大。细根分解过程中,落叶松不同根序养分的释放特征不同。N释放速率总体上随细根根序增加而增大,随土壤深度的增加而降低。     

不同二氧化碳浓度条件下红松和长白赤松土壤生化特性研究

以连续5年在生长季以不同浓度CO2(700和500μmol·mol^-1)处理的长白赤松和红松幼苗为研究对象。进行了土壤微生物生物量C、纤维素分解月动态以及过氧化氢酶活性动态研究．结果表明,在秋季。红松和长白赤松土壤微生物生物量C在不同浓度CO2处理箱的大小顺序均为：对照箱>500μmol·mol^-1箱>700μmol·mol^-1箱;红松和长白赤松土壤5和10cm层在不同浓度CO2处理下,其纤维素分解强度的月动态均表现出一定的规律性,且各处理之间在每个月份中也表现出一定的规律性;在生长季,红松和长白赤松土壤纤维素分解强度在5和10cm层均表现为500μmol·mol^-1 CO2处理下较700μmol·mol^-1 CO2处理下高;红松和长白赤松土壤过氧化氢酶活性在不同浓度CO2处理之间均表现出一定的规律性。且各处理的月动态变化也呈现出一定的规律性     

三峡库区马尾松不同直径细根分解动态及其影响因素

在三峡库区秭归县九岭头林场马尾松人工林进行一年的细根分解试验,研究马尾松直径<0.5、0.5～1和1～2 mm细根的分解动态及其影响因素.结果表明: 细根分解速率随直径增大而减小,直径<0.5、0.5～1和1～2 mm细根年分解率分别为34.0%、28.0% 和25.7%.直径<1 mm细根分解速率随时间增加而逐渐减小,直径1～2 mm细根分解速率随时间增加先逐渐增加再减小.在细根分解过程中,N、P和Ca浓度随时间增加而增加,K浓度呈先降低后上升再下降的趋势.细根分解速率与细根初始N、P、K和Ca浓度,以及C/N、C/P均显著相关,细根Ca浓度和土壤温度是影响细根分解的主导因子.     

内蒙古典型草原马粪分解过程中氮素组分的变化

2008年6月至2009年9月,在野外条件下,采用堆置于地表和埋入地下2种处理方式,研究了内蒙古典型草原马粪分解过程中氮素组分的变化特征.结果表明： 2种处理残留马粪中,氨态氮、氨基酸态氮和氨基糖态氮在分解前期(0~90 d)维持较高浓度,后期(330~450 d)浓度显著降低;酸解未知氮和非酸解未知氮浓度随分解呈升高趋势,分解后期升高幅度更为明显.鲜马粪中,铵态氮是无机氮的主要存在形态,随分解呈逐渐降低趋势;鲜马粪中的硝态氮浓度较低,其在残留马粪中的淋溶损失较低,随分解逐渐累积.马粪埋入地下,对铵态氮以气态氨的挥发过程有显著影响,对其他氮素组分的影响不明显.马粪分解前期,氮素矿化的主要有机氮源为氨态氮、氨基酸态氮和氨基糖态氮,后期主要为酸解未知氮和非酸解未知氮.铵态氮的生物有效性主要体现在马粪分解前期,硝态氮则体现在分解后期.     

鼎湖山亚热带常绿针阔叶混交林凋落物及矿质氮输入对土壤有机碳分解的影响

2010年7-12月,选取鼎湖山国家级自然保护区亚热带针阔叶混交林,采用全因子控制试验,研究不同类型的凋落物(针叶和阔叶凋落物)添加及氮处理(加氮模拟氮饱和、减氮模拟根吸收)对表层(0～10 cm)和下层(20～30 cm)土壤有机质分解(呼吸)的影响.结果表明： 2010年7-11月间,两种凋落物的添加使土壤-凋落物系统的呼吸速率显著增加,但这种影响在12月消失.减氮和加氮处理均显著增加了土壤-凋落物系统的呼吸.叶凋落物短期内完全分解,对土壤碳分解和积累的影响十分有限,可能不是该系统中土壤有机质的主要来源.通过减少土壤可利用氮模拟根系对氮的吸收能够明显促进土壤有机质的分解.     

模拟N沉降下不同林龄马尾松林凋落叶分解-土壤C、N化学计量特征

模拟N沉降对森林生态系统的影响是当今全球变化生态学研究的一个热点问题,土壤碳库对N沉降比较敏感,N沉降增加了凋落叶分解过程中外源N含量,间接影响凋落叶分解的化学过程并改变凋落叶分解速率,因此,研究模拟N沉降下凋落叶分解-土壤C-N关系对预测森林C吸存有重要意义。利用原位分解袋法研究了模拟N沉降下三峡库区不同林龄马尾松林(Pinus massoniana)凋落叶分解过程中凋落叶-土壤C、N化学计量响应及其关系;N沉降水平分对照(CK,0 g m~(-2)a~(-1))、低氮(LN,5 g m~(-2)a~(-1))、中氮(MN,10 g m~(-2)a~(-1))和高氮(HN,15 g m~(-2)a~(-1))。结果表明:分解540 d后,N沉降促进20年生和30年生马尾松林凋落叶分解,46年生马尾松林中仅低氮处理促进凋落叶分解,4种处理均是30年生分解最快,说明同一树种起始N含量低的凋落叶对N沉降呈正响应,N沉降处理促进起始N含量低的凋落叶分解,起始N含量高的凋落叶分解过程中易达到"N饱和"。N沉降抑制20年生和46年生凋落叶C释放(低于对照0.62%—6.69%),促进30年生C释放(高于对照0.28%—5.55%);30年生和46年生林分N固持量均高于对照(高于对照0.15%—21.34%),20年生则低于对照(5.70%—13.87%),说明模拟N沉降处理促进起始C含量低的凋落叶C释放和起始N含量低的凋落叶N固持。N沉降处理下仅30年生马尾松林土壤有机碳较对照增加,且土壤有机质与凋落叶C、N和分解速率呈正相关,与凋落叶C/N比呈显著负相关;土壤总氮与凋落叶分解速率、凋落叶N含量呈正相关,土壤有机碳/总氮比与凋落叶C、N含量呈正相关;对照处理中凋落叶分解指标对土壤养分影响顺序是分解速率凋落物C含量凋落物C/N比凋落物N含量,低、中、高氮处理中则是凋落物C含量分解速率凋落物N含量凋落物C/N比。研究表明低土壤养分含量马尾松林对N沉降呈正响应,N沉降促进低土壤养分马尾松林凋落叶分解并提高土壤肥力;凋落叶质量和土壤养分含量低的生态系统土壤C对N沉降响应更显著。     

Litter decomposition and nutrient release in Acacia mangium plantations established on degraded soils of Colombia

Several factors control the decomposition in terrestrial ecosystems such as humidity, temperature, quality of litter and microbial activity. We investigated the effects of rainfall and soil plowing prior to the establishment of Acacia mangium plantations, using the litterbag technique, during a six month period, in forests plantations in Bajo Cauca region, Colombia. The annual decomposition constants (k) of simple exponential model, oscillated between 1.24 and 1.80, meanwhile k1 y k2 decomposition constants of double exponential model were 0.88-1.81 and 0.58-7.01. At the end of the study, the mean residual dry matter (RDM) was 47% of the initial value for the three sites. We found a slow N, Ca and Mg release pattern from the A. mangium leaf litter, meanwhile, phosphorus (P) showed a dominant immobilization phase, suggesting its low availability in soils. Chemical leaf litter quality parameters (e.g. N and P concentrations, C/N, N/P ratios and phenols content) showed an important influence on decomposition rates. The results of this study indicated that rainfall plays an important role on the decomposition process, but not soil plowing.     

Decomposition of the herbicide bromoxynil in soil and in bacterial cultures

It was found in field, and laboratory experiments that of 50 ppm of the herbicide bromoxynil (3,5-dibromo-4-hydroxybenzonitrile added to grey forest soil 20-80% were still detected after three months). Bromoxynil did not influence (except for a short-termed stimulation of the number of bacteria) the amount and composition of the basic groups of soil microorganisms. In enrichment cultures of soil microorganisms metabolie products of bromoxynil decomposition (3,5-dibromo-4-hydroxybenzamide and 3,5-dibromo-4-hydroxybenzoic acid) were detected and a stimulating effect of cosubstratos on its decomposition was demonstrated. Bromoxynil concentration, aeration conditions and the presence of cosubstrates (ribose in particular) influenced the rate and degree of the decomposition process inPsevdomonas putida. In addition to the degradation products mentioned above, production of methoxylated and partially dehalogenated aromatic compounds was detected.     

Exogenous and endogenous nitrogen differentially affect the decomposition of fine roots of different diameter classes of Mongolian pine in semi-arid northeast China

Plant and Soil - Nitrogen (N) addition could affect litter decomposition through its direct effects on soil N availability and indirect effects on initial litter chemistry. The aim of this study...     

土壤湿度对东北3种主要树种凋落物分解的影响

结合丰林国家自然保护区原始阔叶红松林1998-2017年表层(0～10 cm)土壤湿度监测数据,评估了全球变化背景下土壤湿度变化对东北主要森林树种红松、臭冷杉和白桦凋落物分解的影响.结果表明: 在同一土壤湿度水平下,凋落物分解速率随着凋落物质量的增加而增大,即表现为白桦>臭冷杉>红松.凋落物的分解速率随着土壤湿度的降低而减小.白桦、臭冷杉和红松3种凋落物的土壤湿度敏感性指数(M₁₀)分别为0.782、0.789和0.827,土壤湿度水平每降低10%,初始分解速率分别减小21.8%、21.1%和17.3%.高质量凋落物(高氮含量、低碳氮比、低木质素含量)的分解速率对土壤湿度变化的响应更敏感.凋落物分解速率在不同凋落物类型间的差异随着土壤湿度的降低而缩小.近20年间,原始阔叶红松林土壤湿度呈显著减少趋势,对凋落物分解表现为抑制作用.在全球变化背景下,随着气温的升高,土壤湿度将继续降低,对凋落物的抑制作用会进一步增强,并将部分抵消因温度升高所带来的凋落物分解速率增大的压力.     

胶州湾滨海湿地枯落物分解对土壤活性有机碳含量及其三维荧光特性的影响

通过室内试验模拟胶州湾滨海湿地碱蓬、芦苇、互花米草枯落物的分解过程,测定土壤活性有机碳(可溶性有机碳、微生物生物量碳)含量变化,并利用三维荧光技术对可溶性有机碳(DOC)进行光谱分析.结果表明: 土壤活性有机碳含量呈先增加后降低最终趋于稳定的变化趋势;不同枯落物类型和添加方式对土壤活性有机碳的影响不同,表现为碱蓬＞互花米草＞芦苇,且原状混合＞表面覆盖;光谱分析表明,分解过程各三维荧光光谱的荧光峰数量、荧光中心位置和荧光强度都存在一定差异,添加枯落物后土壤未发现类酪氨酸峰;芳香类蛋白物质占比最高,腐殖质类物质次之.枯落物分解是以微生物分解作用为主导、枯落物性质为本质要素、多重因子综合作用的结果,其对提高土壤活性有机碳含量、增强土壤碳库的稳定性具有促进作用;该过程通过改变DOC的结构和化学组分,提高其在土壤中的迁移转化能力,增强生物可降解性和可利用性,促进微生物内源DOC的产生,加快湿地土壤碳循环.     

三峡库区马尾松林土壤-凋落物层酶活性对凋落物分解的影响

凋落物的彻底降解是在凋落物和土壤酶系统的综合作用下完成,酶活性的提高有利于凋落物-土壤有机物质的分解和养分释放。通过对三峡库区30年生马尾松林凋落物分解、凋落物-土壤层酶活性季节动态及其对分解的影响进行研究,结果表明:30年生马尾松林凋落物经过540 d的分解后干重剩余率是59.80%;凋落物层酶活性季节动态明显,氧化还原酶活性均是11月最低,3月最高;土壤过氧化物酶活性季节变化显著且均是11月最低,多酚氧化酶活性9月较高,而过氧化物酶活性则是6月较高。马尾松林凋落物层酶活性与土壤层酶活性差异较大,且水解酶活性差异较氧化还原酶活性差异大,凋落物层脲酶活性、纤维素酶活性和蔗糖酶活性11月、6月、9月分别是0—5 cm土壤层的6.33倍、3.24倍、10.29倍,68.14倍、16.16倍、24.81倍,25.07倍、31.88倍、29.20倍。凋落物分解速率均与土壤、凋落物层氧化还原酶活性呈极显著"S"形曲线,与凋落物层水解酶活性呈二次函数关系,与土壤层水解酶均呈极显著的线性关系。凋落物质量能引起凋落物-土壤层酶活性变化,酶活性的改变反过来影响凋落物的分解,因此,凋落物-土壤层酶活性差异与凋落物分解阶段和对共同影响因素(凋落物质量、土壤温度、水分含量和土壤养分等)的敏感性不同有关,凋落物-土壤层酶的相互作用共同影响森林生态系统的物质循环和养分循环过程。     

Decomposition of organic matter from 36 soils in a long-term pot experiment

The organic matter contents of thirty-six soils were measured annually for twenty years in a pot experiment. The soils originated mainly from arable land and varied in initial organic matter content, texture and pH. The soils were stored at an average air temperature of around 13 °C and every year each soil was mixed thoroughly. Throughout the experiment, soil moisture was kept between 50-70% of its water holding capacity. No organic matter was added during the experiment, so that gross soil organic matter decomposition could be assessed. Relative decomposition rates of soil organic matter decreased as time proceeded. Despite the wide range of soils studied, it was found that during the initial decades, the pattern of soil organic matter degradation was strongly correlated with the organic matter content of the soils at the start of the experiment. This means that during this period the time course of the organic matter content of the soils in our experiment can be estimated from the initial soil organic matter content alone.     

黄土丘陵区刺槐人工林林龄增加土壤微环境变化对凋落物分解的影响

凋落物所处的土壤微环境是影响其分解的关键因素之一,然而在黄土高原广泛栽植的刺槐人工林中,土壤微环境随林龄增加如何改变、其对凋落物分解过程的影响趋势尚不清楚。为明确上述问题,以油松凋落物(典型的难分解凋落物)和白三叶凋落物(易分解)为对象,分别在林龄为10、20、33 a和43 a的刺槐林地土壤表面进行为期592 d的模拟分解试验,检测凋落物分解特征以及地表土壤理化生物学性质随林龄增加的变化趋势,并分析凋落物分解速率与土壤微环境指标间的关系。结果表明:(1)随林龄增加,油松凋落物的分解速率呈先小幅降低后提高的趋势,白三叶凋落物的分解速率持续提高(P<0.05);(2)总体而言,随林龄增加林地表层土壤温度呈先降后增趋势,土壤湿度、有效磷含量和pH持续降低,而速效氮含量持续提高(P<0.05);(3)林龄增加显著改变了林地土壤微生物群落结构,特别是在各分解时间点时均导致真菌属的明显演替现象。土壤中9种凋落物分解酶的总酶活性和木质纤维素酶活性均在分解第108天时随林龄增加呈先降后增趋势,而在分解第389天和第592天时持续提高(P<0.05)。(4)油松凋落物分解速率仅与土壤总酶活性、真菌群落结构和铵态氮含量呈显著正相关,白三叶凋落物分解速率则与总酶和木质纤维素酶活性、细菌和真菌群落结构、温度和铵态氮含量显著正相关,而与土壤湿度和pH显著负相关(P<0.05)。综上所述,刺槐林龄增加引起的土壤理、化和生物微环境变化总体倾向于加速凋落物的分解过程。