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1.
开展凋落物分解特征与植物功能性状间的关系研究对于认识生态系统功能的维持机制至关重要。为了阐明不同物种叶凋落物和根系分解的主要影响因素, 该研究以大针茅(Stipa grandis)典型草原的大针茅、糙隐子草(Cleistogenes squarrosa)、知母(Anemarrhena asphodeloides)、羊草(Leymus chinensis)、银灰旋花(Convolvulus ammannii)和黄囊薹草(Carex korshinskyi) 6种植物的叶凋落物和根系为研究对象, 采用凋落物袋法通过501天的野外分解实验对叶凋落物和根系的分解速率常数进行研究, 并测定6种植物的叶片干物质含量、根比表面积、根组织密度以及叶凋落物和根系的碳(C)、氮(N)含量、纤维组分含量等功能性状, 探讨了6种植物叶凋落物和根系的分解特征与其功能性状之间的关系。结果表明, 6种植物叶片和根系性状的种间差异显著, 大部分性状的最大值和最小值的比值在1到2之间, 而个别性状如根系的C:N和根比表面积相差近4倍。叶凋落物和根系在分解过程中质量剩余率与分解速率常数整体变化趋势都表现出前期分解迅速, 中期相对变缓, 后期分解最慢的规律; 并且糙隐子草的叶凋落物和根系分解最慢, 而银灰旋花的叶凋落物分解最快, 知母根系分解最快。通过相关分析和逐步回归分析发现, 在不同分解时期, 叶凋落物和根系的分解过程受到不同性状的影响。结构性碳水化合物含量是叶凋落物前期和后期分解以及根系前期分解的主要影响因素, 非结构性碳水化合物含量则是根系中期和后期分解的主要影响因素; 另外, 叶凋落物在分解中期的分解速率主要受叶片干物质含量的影响, 根系在分解中期和后期的分解速率还分别受到根系C:N和N含量的显著影响。研究结果对于预测大针茅草原的碳和养分循环过程具有重要指导意义。  相似文献   

2.
选取羊草、斜茎黄芪、克氏针茅3种内蒙古典型草原常见植物,通过不同植物物种组合(单独种植或者羊草与其他两种混合种植)、施加不同剂量的氮素(0、0.1、0.2、0.4、0.8mg·g^-1)和植物生长促进剂——油菜素内酯(0.005 mg·g^-1)的温室盆栽试验,分析氮素和油菜素内酯对羊草生长及其与其他植物竞争力关系的影响.结果表明:添加氮素对羊草、斜茎黄芪的生物量影响显著,对克氏针茅的生物量影响较弱,并且氮素的影响因其伴生植物的不同而改变.氮素添加显著增加了羊草在单独种植和与斜茎黄芪混合种植时的地上生物量,但显著降低了与克氏针茅混合种植时的地下生物量.由于土壤可利用氮增加,羊草的地上与地下分配发生变化,表现为单独种植、与克氏针茅混合种植时,根冠比下降;与斜茎黄芪混合种植时,氮素添加对羊草根冠比的影响则不显著.油菜素内酯对植物生长的显著影响不普遍,仅显著降低了斜茎黄芪单独种植时的地下生物量;在羊草与斜茎黄芪混合种植时,显著增加了羊草地上生物量.油菜素内酯和氮适量联用可有效增加特定物种组合的生物量,从而在退化草地恢复中具有一定的应用前景.  相似文献   

3.
作者于1979年6月至11月,在内蒙古锡林郭勒盟白音锡勒牧场西部地区克氏针茅草原的同一地段上,每隔一个月左右时间,分5次采集克氏针茅、冷蒿、羊草、星毛委陵菜、小叶锦鸡儿等5种优势植物的叶片,测定氮、磷、钾、钙、铁、铝、硫、硅等元素的含量。分析克氏针茅草原中克氏针茅等优势植物氮、磷等9种元素含量季节变化,可以看出如下趋  相似文献   

4.
放牧和围封条件下克氏针茅草原土壤种子库的比较   总被引:29,自引:2,他引:27       下载免费PDF全文
应用幼苗萌发法对比研究了我国北方农牧交错区克氏针茅(Stipa krylovii)草原在放牧和围封条件下土壤种子库的差异。围封样地的土壤种子库中记录有16个物种,其中禾草类6种,非禾草类10种;若以生活型划分,则全部为多年生植物;若以单子叶或双子叶植物划分,则单子叶植物9种,双子叶植物7种。放牧样地的土壤种子库中记录有13个物种,其中禾草类4种,非禾草类9种;多年生植物12种,一二年生植物1种;单子叶植物5种,双子叶植物8种。放牧样地土壤种子库的密度为(3 664±1 087)粒·m-2,围封样地土壤种子库的密度是(5 139±1 848)粒·m-2,差异显著。采用Sorensen指数计算土壤种子库与地上植被的物种相似性,围封样地和放牧样地分别是0.711 1和0.611 1。两个地点的全部种子中, 81.0%属于冷蒿(Artemisia frigida)、克氏针茅、星毛委陵菜(Potentilla acaulis)、糙隐子草(Cleistogenes squarrosa)和砂韭(Allium bidentatum)5种优势植物,16.2% 属于二裂委陵菜(P. bifurca)、菊叶委陵菜(P. tanacetifolia)、猪毛蒿(A. scoparia)、冰草(Agropyron cristatum)和羊草(Leymus chinensis)5种常见植物,而其余9种植物的种子数只占2.8%。此外,通常作为优良牧草的豆科植物的种子数仅占0.6%。上述结果表明,在放牧条件下由于土壤种子库中一些重要物种的缺失或数量很少以及极不均匀的分布,可能会降低退化克氏针茅草原的自然恢复速度。我们建议采取补播这些重要物种并结合其它恢复措施来加快退化克氏针茅草原的恢复进程。  相似文献   

5.
冷蒿对三种禾本科植物种子萌发和幼苗生长的化感作用   总被引:7,自引:1,他引:6  
Li XF  Wang J  Xu WB  Wang K 《应用生态学报》2010,21(7):1702-1708
研究了冷蒿茎叶水浸提液及冷蒿斑块土壤对羊草草原3种禾本科植物(羊草、克氏针茅和糙隐子草)种子萌发及幼苗生长的影响.结果表明:冷蒿茎叶水浸提液使受试植物种子的发芽指数降低,平均发芽时间延长.羊草、克氏针茅和糙隐子草幼苗苗高及克氏针茅幼苗根长均受冷蒿茎叶水浸提液抑制;浸提液浓度≥0.075g.ml-1时显著抑制羊草幼苗根长生长,≤0.05g.ml-1时则无显著影响;而茎叶水浸提液对糙隐子草幼苗根长有"低促高抑"的作用.冷蒿斑块土壤抑制受试植物幼苗生长;3种植物对冷蒿化感效应的敏感性依次为克氏针茅羊草糙隐子草,且幼苗根长的敏感性均大于苗高.  相似文献   

6.
凋落物分解过程中的养分释放对土壤质量、养分平衡和生产力的可持续维持发挥着重要作用。2015年5月,以辽东山区日本落叶松(Larix kaempferi)-红松(Pinus koraiensis)和日本落叶松-赤杨(Alnus japonica)人工混交林为研究对象,采用凋落物网袋法将落叶松分别与红松、赤杨叶片凋落物以75∶25、50∶50和25∶75比例混合,研究不同类型、不同比例的混合凋落物对其分解速率以及养分动态变化的影响。结果表明:在单一植物凋落物的分解过程中,赤杨叶片质量损失最高,分解最快;而红松叶片质量损失最低,分解最慢。凋落物混合分解对氮素释放的影响中,3种比例的落叶松与赤杨叶片的混合凋落物均表现出抑制作用,而落叶松与红松叶片混合凋落物(以25∶75比例混合)表现出促进作用。因此,落叶松在与红松、赤杨混合分解时产生了"非加和效应",并且其分解过程中氮和磷的养分释放状况受混合比例影响。  相似文献   

7.
叶片凋落物分解对生态系统的养分循环和生产力有着重要意义。该文利用网袋分解法对九寨沟国家自然保护区内黄果冷杉(Abies ernestii)、油松(Pinus tabulaeformis)、红桦(Betula albo-sinensis)和高山柳(Salix cupularis) 4个典型树种叶片凋落物在林下及高山湖泊中的分解及养分释放特征进行了对比研究。结果表明: 1)叶片凋落物分解质量损失规律符合Olson的负指数衰减模型(r > 0.93, p < 0.01), 4个树种叶片在林下完全分解(99%)的时间依次为: 高山柳(6.80 a) <红桦(10.34 a) <黄果冷杉(18.88 a) <油松(27.21 a), 且分别是其在水体中分解的1.48倍、1.55倍、1.80倍和1.65倍。2)分解1年后凋落物质量剩余率(MR)和氮素剩余率(NR)均与叶片初始N含量极显著负相关, 而与叶片初始C:N值极显著正相关。3)不同树种间叶片N和P释放特征差异明显, 且在林下和水体间的释放模式也存在差异; 高山柳叶片凋落物在林下和水体分解过程中N元素从分解初期便开始释放, 而其他树种叶片凋落物N元素释放前存在明显的富集过程; 各树种叶片凋落物P元素释放模式为释放—富集—释放。研究表明: 叶片凋落物分解是一个受其自身性质和外界环境因素共同作用的复杂过程, 而凋落物在高山湖泊中的快速分解将对保护区现有的水体景观产生潜在影响。  相似文献   

8.
张艳博  罗鹏  孙庚  牟成香  王志远  吴宁  罗光荣 《生态学报》2012,32(15):4605-4617
为认识放牧对青藏高原东部中生性的高寒草甸草地和半湿生的沼泽草地凋落物分解的影响,在这两种草地上分别设置了围栏和放牧样地,研究了其各自的混合凋落物样品和4个优势物种(发草Deschampsiacaespitos、鹅绒委陵菜Potentilla anserine、木里苔草Carexmuliensis、藏嵩草Kobresiatibetica)凋落物的分解和养分释放动态,这4个优势物种也大致代表了当地沼泽草地生态系统在放牧和气候变暖驱动下逆行演替不同阶段的优势物种类群。结果表明,各优势物种凋落物的分解速率有显著差异;放牧在总体上促进了凋落物的分解,但不同物种的响应有所不同;放牧对凋落物C的释放影响不显著或有抑制作用,但对N、P的释放具有一定促进作用。对各优势物种凋落物分解和养分释放模式的分析表明,群落逆行演替过程中,凋落物分解和C释放加速,可能促进沼泽湿地退化的正反馈效应。草甸草地的退化标志物种鹅绒委陵菜具有较高的凋落物质量和分解速度,反映了中生条件下植物应对牲畜啃食采用"逃避"而非"抵抗"策略的趋向。  相似文献   

9.
通过了解亚洲小车蝗Oedaleus asiaticus的取食特性,为有害生物的防治和草原生态环境的保护提供理论依据。在分析亚洲小车蝗发生与羊草Leymus chinensis、克氏针茅Stipa krylovii及糙隐子草Cleistogenes squarrosa等3种禾本科植物特征参数关系的基础上,通过罩笼试验调查了罩笼内亚洲小车蝗3~5龄蝗蝻的存活率,比较了亚洲小车蝗的取食数量、取食高度及取食率等特性。结果表明,克氏针茅和糙隐子草生态优势度与亚洲小车蝗发生数量显著正相关,亚洲小车蝗喜食克氏针茅和糙隐子草(0.25≤RFN<0.5),少食羊草(0.025≤RFN<0.25)。4龄和5龄蝗蝻对克氏针茅和糙隐子草取食量显著大于羊草。亚洲小车蝗取食高度位于植物中下部(9~10cm),与3种植被高度无关;取食后上部掉落造成损失,特别是对克氏针茅的为害更大;亚洲小车蝗取食克氏针茅和糙隐子草时的存活率显著高于取食羊草时的存活率。结论:以克氏针茅和糙隐子草为优势植物的典型草原更适合亚洲小车蝗的发生与为害,应加强该类草原亚洲小车蝗的监测预警和防控。  相似文献   

10.
采用凋落物分解袋法, 研究了呼伦贝尔草甸草原主要优势种贝加尔针茅(Stipa baicalensis)根系组织和地上部分凋落物分解的季节动态以及凋落物的放置位置(置于地表和15 cm土壤表层)对分解的影响。结果表明, 置于表层土壤中的根系组织和地上部分凋落物的分解速率比置于地表的快, 但是根系组织在两个放置位置分解的差异不显著。无论置于地表还是置于表层土壤中, 地上部分凋落物的分解均快于根系组织的凋落物分解。在分解过程中, 凋落物碳(C)损失的季节变化模式与重量损失相似; 而氮(N)变化模式明显不同, 地上部分凋落物表现为释放—累积—释放, 根系则表现为释放—累积, 并且地上部分或者根系在不同放置位置中N含量变化的差异较小。地上部分和根系组织凋落物的初始化学组成的差异可能是导致其分解过程差异显著的主要原因, 其次的原因才是土壤含水量。因此, 该地区未来环境温度、湿度因子的变化将会显著影响贝加尔针茅地上部分凋落物的分解过程, 而对根系组织凋落物的分解作用较小。  相似文献   

11.
The trophic state of many streams is likely to deteriorate in the future due to the continuing increase in human‐induced nutrient availability. Therefore, it is of fundamental importance to understand how nutrient enrichment affects plant litter decomposition, a key ecosystem‐level process in forest streams. Here, we present a meta‐analysis of 99 studies published between 1970 and 2012 that reported the effects of nutrient enrichment on litter decomposition in running waters. When considering the entire database, which consisted of 840 case studies, nutrient enrichment stimulated litter decomposition rate by approximately 50%. The stimulation was higher when the background nutrient concentrations were low and the magnitude of the nutrient enrichment was high, suggesting that oligotrophic streams are most vulnerable to nutrient enrichment. The magnitude of the nutrient‐enrichment effect on litter decomposition was higher in the laboratory than in the field experiments, suggesting that laboratory experiments overestimate the effect and their results should be interpreted with caution. Among field experiments, effects of nutrient enrichment were smaller in the correlative than in the manipulative experiments since in the former the effects of nutrient enrichment on litter decomposition were likely confounded by other environmental factors, e.g. pollutants other than nutrients commonly found in streams impacted by human activity. However, primary studies addressing the effect of multiple stressors on litter decomposition are still few and thus it was not possible to consider the interaction between factors in this review. In field manipulative experiments, the effect of nutrient enrichment on litter decomposition depended on the scale at which the nutrients were added: stream reach > streamside channel > litter bag. This may have resulted from a more uniform and continuous exposure of microbes and detritivores to nutrient enrichment at the stream‐reach scale. By contrast, nutrient enrichment at the litter‐bag scale, often by using diffusing substrates, does not provide uniform controllable nutrient release at either temporal or spatial scales, suggesting that this approach should be abandoned. In field manipulative experiments, the addition of both nitrogen (N) and phosphorus (P) resulted in stronger stimulation of litter decomposition than the addition of N or P alone, suggesting that there might be nutrient co‐limitation of decomposition in streams. The magnitude of the nutrient‐enrichment effect on litter decomposition was higher for wood than for leaves, and for low‐quality than for high‐quality leaves. The effect of nutrient enrichment on litter decomposition may also depend on climate. The tendency for larger effect size in colder regions suggests that patterns of biogeography of invertebrate decomposers may be modulating the effect of nutrient enrichment on litter decomposition. Although studies in temperate environments were overrepresented in our database, our meta‐analysis suggests that the effect of nutrient enrichment might be strongest in cold oligotrophic streams that depend on low‐quality plant litter inputs.  相似文献   

12.
森林凋落物分解重要影响因子及其研究进展   总被引:60,自引:4,他引:56  
当前 ,森林凋落物分解被放在陆地生态系统碳平衡背景下进行研究 ,认识凋落物分解过程的影响因素和影响机理对理解地表碳平衡具有重要意义。凋落物在分解过程中 ,伴随有养分含量的变化 ,低品质凋落物在分解前期 (可达 2~ 3年 )会从环境中固定养分 ,特别是氮磷养分 ,而在后期则会释放出养分。凋落物本身的养分含量是影响分解速率的重要因素 ,高养分含量的凋落物分解快些 ,阔叶凋落物比针叶凋落物分解快些。有资料显示 ,在总分解率为2 9 4 %的构成中 ,理化因素、微生物因素与土壤动物因素对凋落物分解的贡献率分别为 7 2 %、8 0 %和 14 2 %。不同类型凋落物在分解过程中的土壤动物类群也不同 ,它也是造成凋落物分解速率不同的关键因素 ,通常阔叶树种凋落物分解过程中 ,会有更多的微节肢动物出现。CO2浓度升高将造成植物有机质含碳量与其它养分的比值升高 ,形成低品质的凋落物 ,从而间接影响凋落物分解速率 ,一般认为 ,全球CO2 浓度升高会加强土壤作为碳汇的功能。  相似文献   

13.
李雪峰  张岩  牛丽君  韩士杰 《生态学报》2007,27(5):1782-1790
采用交互分解实验,研究长白山白桦叶片和白桦、山杨与水曲柳混合叶片在白桦纯林和白桦山杨混交林内的分解过程。两年的分解实验结果表明,两种类型叶片均存在一个快速分解阶段和一个慢速分解阶段,森林类型和凋落物类型对凋落物分解率的影响在快速分解阶段不显著而在慢速分解阶段显著;混交林内的环境促进了凋落物分解和养分元素释放;在同一林型内,底物质量高的混合叶片其分解率和养分元素释放率均大于底物质量低的白桦叶片;凋落物的底物质量在一定程度上可以抵消森林类型对凋落物分解的影响;白桦山杨混交林混合叶片分解速率和养分元素释放率要显著大于白桦纯林内的白桦叶片,说明白桦山杨混交林的物质循环速度和养分元素供应能力要显著大于白桦纯林。  相似文献   

14.
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.  相似文献   

15.
森林凋落物是森林土壤的重要组成部分,凋落物分解在调控森林生态系统养分循环中发挥了关键作用。采用凋落物分解袋法,研究河北塞罕坝地区华北落叶松与白桦,华北落叶松与蒙古栎,华北落叶松、白桦和蒙古栎混合凋落叶及纯华北落叶松凋落叶分解过程中分解速率、养分释放和酶活性的变化。结果表明: 经过近2年的分解,混合凋落叶分解速率均显著高于纯华北落叶松凋落物叶;在所有处理中,华北落叶松与白桦混合凋落叶分解速率最高。在凋落叶分解过程中,不同处理养分含量变化一致,凋落叶N、P含量呈上升趋势,C、K含量和C/N呈下降趋势;相对纯华北落叶松凋落叶,各混合凋落叶分解可以促进凋落叶C、K的释放,但对N、P的释放有一定的抑制作用。在凋落叶分解过程中,不同处理凋落叶过氧化氢酶、脲酶、酸性磷酸酶活性呈上升趋势,蔗糖酶活性呈下降趋势;凋落叶分解速率与凋落叶过氧化氢酶、脲酶、酸性磷酸酶活性呈正相关,与蔗糖酶活性呈负相关。总体来看,华北落叶松和白桦、蒙古栎凋落叶混合可以促进华北落叶松凋落叶的分解,且凋落叶中酶活性动态变化与凋落叶的分解密切相关。  相似文献   

16.
凋落物年龄和氮、磷添加交互作用对杉木林土壤N2O排放的影响 氧化亚氮(N2O)是一种重要的温室气体,增温潜势较大,其浓度增加影响全球气候变化。由于凋落物分解影响碳和养分循环,土壤N2O排放受凋落物分解作用,而凋落物年龄和氮、磷添加影响凋落物分解,潜在影响土壤N2O的排放。然而,凋落物年龄和养分添加对土壤N2O排放的交互作用及其机制目前还没有报道,这限制了凋落物分解对N2O排放的影响评价。本研究以杉木(Cunninghamia lanceolata)不同年龄凋落物为研究对象,通过氮、磷添加处理,研究了养分和凋落物年龄对N2O排放的影响及其机制。研究结果显示,幼龄凋落物主要通过调节碳氮比来影响N2O排放。氮添加主要通过调节凋落物碳氮比、土壤pH以及与N2O产生相关的微生物功能基因所编码的土壤酶活性来影响N2O排放,整体上促进N2O排放。磷添加显著降低凋落物碳氮比,进而作用于N2O排放,该途径促进N2O排放。同时,磷添加提高土壤有效磷水平,潜在降低N2O排放,整体上降低土壤N2O排放。凋落物年龄和养分添加交互作用于土壤N2O排放。因此,在森林经营管理中,评价不同管理措施,尤其是间伐和选择性砍伐等导致不同凋落物输入的管理活动对土壤N2O排放的影响时,应同时考虑养分输入和凋落物年龄的潜在影响。  相似文献   

17.
Mass loss and nutrient release during litter decomposition drive biogeochemical cycling in terrestrial ecosystems. However, the relationship between the litter decomposition process and the decomposition stage, precipitation, and litter quality has rarely been addressed, precluding our understanding of how litter decomposition regulates nutrient cycling in various ecosystems and their responses to climate change. In this study, we measured mass loss as well as carbon and nutrient releases during the decomposition of 16 types of leaf litter under three precipitation treatments over 12 months in a common garden experiment (i.e., using standardized soil and climatic conditions). Sixteen types of leaves were divided into three functional groups (evergreen, deciduous, and herbaceous). The objectives were to understand the effects of decomposition stages and precipitation regimes on litter decomposition and to examine the relationship between this effect and chemical properties. The mass loss and release of nitrogen and potassium were significantly higher in the 6‐ to 12‐month stage of decomposition (high temperature and humidity) than in the 0‐ to 6‐month stage. Phosphorus was relatively enriched in evergreen leaves after 6 months of decomposition. The rates of mass loss and nutrient release were significantly greater in herbaceous than in deciduous and evergreen leaves. Increasing precipitation from 400 to 800 mm accelerated mass loss and potassium release but decreased phosphorus release in the 0‐ to 6‐month stage of decomposition. These results highlighted the contribution to and complexity of litter chemical properties in litter decomposition.  相似文献   

18.
舒韦维  陈琳  刘世荣  曾冀  李华  郑路  陈文军 《生态学报》2020,40(13):4538-4545
为探究气候变化背景下降雨格局改变对马尾松人工林凋落物分解及养分释放过程的影响,以南亚热带马尾松(Pinus massoniana)人工林为研究对象,设置穿透雨减少50%和不减雨(对照)处理,开展连续观测野外降水控制实验。采用凋落物分解袋法,研究了减雨处理对南亚热带马尾松人工林凋落叶分解速率及养分释放的影响,以及凋落叶分解速率的影响因素。结果表明:凋落叶分解2年后,减雨处理和对照林凋落叶残留率分别为38.09%和38.06%;凋落叶分解过程中碳元素表现为淋溶-富集-释放,而氮元素表现为富集,减雨50%在一定程度上促进了氮的富集,但未达到显著水平。相关分析表明,凋落叶的残留率与氮浓度和月积温呈显著负相关,与碳/氮呈显著正相关。本研究发现,减雨50%并未改变马尾松凋落叶分解速率和养分释放模式,凋落叶的残留率与氮浓度、碳/氮及月积温密切相关。  相似文献   

19.
李雪峰  张岩  牛丽君  韩士杰 《生态学报》2007,27(5):1782-1790
采用交互分解实验,研究长白山白桦叶片和白桦、山杨与水曲柳混合叶片在白桦纯林和白桦山杨混交林内的分解过程。两年的分解实验结果表明,两种类型叶片均存在一个快速分解阶段和一个慢速分解阶段,森林类型和凋落物类型对凋落物分解率的影响在快速分解阶段不显著而在慢速分解阶段显著;混交林内的环境促进了凋落物分解和养分元素释放;在同一林型内,底物质量高的混合叶片其分解率和养分元素释放率均大于底物质量低的白桦叶片;凋落物的底物质量在一定程度上可以抵消森林类型对凋落物分解的影响;白桦山杨混交林混合叶片分解速率和养分元素释放率要显著大于白桦纯林内的白桦叶片,说明白桦山杨混交林的物质循环速度和养分元素供应能力要显著大于白桦纯林。  相似文献   

20.
Aims Mongolian pine (Pinus sylvestrisvar.mongolica) and Xiaozhuan poplar (Populus × xiaozhuanica) are two predominant afforestation tree species in the semi-arid sandy lands of northeast China, which are characterized by poor soil nutrients. Plant litter decomposition plays a critical role in regulating nutrient cycling in terrestrial ecosystems. Admixture of broadleaf litter to conifer litter is expected to improve litter decomposition and soil fertility, and thus productivity. However, the effects on the decomposition of litter mixture of the above two tree species are not well understood. Therefore, it is essential to assess the decomposition performance of litter mixture with the aim of improving forest nutrient management and the establishment of mixed plantation. Appropriate forest management practice is critical for the sustainability of site productivity in plantation forests.  相似文献   

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