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1.
利用分解袋法对日本亚高山针叶林的针叶(Abies veitchii Lindl.and A.mariesiMast.)和阔叶(Betulaermanii Cham.and B.corylifolia Regal.et Maxim.)凋落物进行了分解实验研究.结果表明尽管分解初期的两种凋落物的养分以及分解后期凋落物剩余重量差异很大,但两种凋落物养分浓度在分解后期(30个月以后)趋于一致.这种趋同现象在不同养分中有不同的趋同机制.氮元素浓度升高到分解后期浓度差变小,这种现象是由于分解菌的固持作用及受木质素的束缚所致;钾和镁在分解初期浓度急剧下降,进而浓度差变小,是由于淋溶作用所致.在分解过程中这些元素非常容易被淋溶掉,直到和土壤中的浓度达到一致为止.钙是结构元素,它的行踪和有机物组分有密切关系.由于分解后期有机组分木质化和腐殖质化进而浓度趋同,所以钙的浓度也相应趋同. 相似文献
2.
通过福建省中亚热带杉木观光木混交林(Cunninghamia lanceolata and Tsoongiodendron odorum mixed forest)和杉木纯林(Pure C. lanceolata forest)凋落物的分解和养分释放动态试验研究表明,凋落物各组分分解过程中干物质损失速率随时间而减小,分解1年时以观光木叶的干重损失最大。各组分分解过程中N、P元素浓度增加而K和C元素浓度下降。混交林中各组分的养分释放速率大小为观光木叶>混合样品(等重量的观光木叶和杉木叶混合)>杉木叶>杉木 相似文献
3.
林下层植物在退化马尾松林恢复初期养分循环中的作用 总被引:24,自引:4,他引:20
以鼎湖山退化马尾松 (Pinusmassoniana)林恢复过程中林下层植物凋落物、分解和养分动态为对象 ,研究了林下层植物在退化马尾松林恢复初期养分循环中的作用。结果表明 ,林下层年凋落物量除在第 5年有所下降外均随时间逐年上升 ,但其增加速率随年份不同而异 ,总平均年增长速率为 3 8%。第 4年凋落物量为 0 .2 0 t· hm- 2 · a- 1,第 1 1年为 1 .1 7t·hm- 2·a- 1。凋落物养分元素平均浓度为 (% ) :N0 .95 ,P0 .0 4,K0 .5 7,Ca0 .1 3和 Mg0 .0 8,基本上以夏季和秋季最高冬春交替月份最低。第 1 1年凋落物各元素养分归还量为 (kg· hm- 2·a- 1) :N1 1 .1 0 ,P0 .47,K6.65 ,Ca1 .48和 Mg 0 .91。凋落物在分解过程中失重率呈直线模型变化 ,第 1年的分解速率为 3 1 % ,至试验结束时凋落物的残存量占起始量的 66%。在凋落物分解过程中 ,N和 P浓度随时间逐渐上升 ,但 N增加的速度较 P快 ,其余元素浓度均下降 ,但 K下降的速度最快。在凋落物分解过程中 ,N是唯一表现残留量呈先上升然后下降变化的元素。P的残留量变化与凋落物的失重率变化几乎一致。各元素在分解试验结束时残留量占起始量的百分比分别为 :N 90 % ,P 67% ,K 9% ,Ca 3 0 %和Mg 1 4%。可见 ,林下层凋落物在退化马尾松林恢复初期碳及其它营养元素循� 相似文献
4.
作为碳素和养分循环的重要组分, 地表凋落物如何响应全球气候变化日益受到重视。中国北方半干旱地区森林草原过渡带斑块状分布的森林对气候变化引起的水热变化的响应较为敏感, 但是对这些森林地表处于不同分解阶段的凋落物的化学性质和储量的格局及其如何响应温度、降水变化的报道较少。该研究分析了内蒙古东部地区处于年平均气温和年降水量梯度上的12个天然白桦(Betula platyphylla)林不同凋落物层次(最上层的初步分解层L1, 中间的半分解层L2, 最下层的腐殖质层L3)的化学性质及现存量后发现: 1)随着分解的进行(即从L1到L3层), 氮、磷浓度显著增加, 可提取物浓度基本不变, 酸溶性组分(acid soluble fraction, AS)浓度下降, 酸不溶性组分(acid insoluble fraction, AIF)浓度增加。2)各元素现存量均在L3层最高, 表明凋落物分解缓慢, 养分积累。3)年平均气温和年降水量对凋落物有机组分(AS组分和AIF组分)的性质无显著影响, 但L3层元素储量随年平均气温升高而增加, 可能由于年平均气温较高的地点森林生产力更高, 从而导致叶凋落物量增加, 但由于受水分限制(尤其是在夏天), 这些地点的凋落物分解速率不变或更低, 使凋落物积累更为明显。上述结果表明: 腐殖质层是这些白桦林的一个重要的碳及养分库, 未来在降水没有明显变化的情况下, 这一区域的升温可能会增加白桦林地表凋落物储量。 相似文献
5.
本文报道了鼎湖山生物圈保护区马尾松林凋落物分解及其营养动态的情况。松针和混合凋落物的失重率在试验过程中均呈直线下降。松针和混合凋落物的分解系数(K)分别为0.44a-1和0.37a-1。在凋落物分解过程中氮是5个元素中唯—的1个元素,它表现出浓度和绝对量均首先呈上升然后下降的变化。磷和钙的浓度和绝对量在凋落物分解过程中,表现相类似的变化模型。它们的释放速率较其它元素更类似于凋落物的失重率。钾是5个元素中最活跃的元素。其浓度和绝对量的变化在凋落物分解过程中相类似:在分解初期(30到50天)迅速下降后呈缓慢的变化。镁的浓度和绝对量在分解初期以相对快的速率下降后,呈现两种绝然不同的变化:绝对量渐渐下降而浓度则慢慢上升。5个元素的流动性比较,在两种凋落物的分解过程中,均早K>Mg>P>Ca>N的顺序变化。 相似文献
6.
神农架常绿落叶阔叶混交林凋落物养分特征 总被引:4,自引:1,他引:3
凋落物是联结陆地生态系统植物与土壤养分的重要媒介,了解凋落物养分特征有助于理解陆地生态系统物质循环的机理。该研究于2015年收集了神农架地区常绿落叶阔叶混交林的新鲜凋落物及现存凋落物,测定其不同器官中大量元素(C、N、P、K、Ca、Mg)的含量,据此分析其养分含量、养分归还量、养分储量及化学计量比的特征。结果发现:该常绿落叶阔叶混交林新鲜凋落物的C、K养分含量显著高于现存凋落物,N、P、Ca、Mg养分含量显著低于现存凋落物;其凋落物大量元素的养分归还量及养分储量大小顺序均为C Ca N Mg K P,分别为1569.84、52.44、34.82、6.24、5.24、1.30 kg hm~(-2) a~(-1)及1835.29、87.87、51.17、12.12、3.90、1.95 kg hm~(-2) a~(-1);其新鲜凋落物及现存凋落物的C∶N∶P分别为1307.33∶27.73∶1及976.48∶26.77∶1,新鲜凋落物的C∶N、C∶P显著高于现存凋落物,N∶P无显著区别。研究表明,新鲜凋落物与现存凋落物养分含量之间的差异与不同元素在分解过程中的可淋溶性及生物固持等因素有关。该地区常绿落叶阔叶混交林凋落物养分归还量及养分储量相对于亚热带阔叶林平均水平较低;且显著低于喀斯特地区同类型森林,主要与其凋落物产量、降水量及植被类型有关。该森林生态系统新鲜凋落叶与中国及全球范围内阔叶树种凋落叶相比C∶N较低,C∶P、N∶P较高,这可能是由于该地区N沉降及P限制现象较为严重所致。 相似文献
7.
8.
广西主要人工林凋落物分解过程及其对淋溶水质的影响 总被引:3,自引:0,他引:3
为探讨不同人工林各组分凋落物分解过程特征及其释放物质对淋溶水质的影响,恒温(28 ℃)培养条件下,在室内人工定期淋水模拟自然环境中凋落物的淋溶过程,对1年生和4年生尾巨桉、7年生杂交相思、13年生马尾松以及软阔林5种人工林的凋落叶、凋落枝、凋落皮进行255 d的模拟淋溶.结果表明:1年生和4年生尾巨桉各组分凋落物分解0~105 d的淋溶液色度和化学需氧量(COD)、总N和总P含量显著高于杂交相思、马尾松、软阔林,淋溶液pH值显著低于其他3种林分人工林;至255 d,1年生和4年生尾巨桉凋落叶淋溶液的COD累积量(193.9和212.8 g·kg-1)分别是杂交相思、马尾松、软阔林的4.2、4.0、4.3倍和5.3、4.4、4.7倍;1年生尾巨桉凋落叶质量损失率、N和P淋失率显著大于杂交相思、马尾松和软阔林,凋落皮显著大于马尾松,而凋落枝与后三者基本相当.1年生尾巨桉凋落叶和凋落皮比4年生尾巨桉更易被分解淋溶,但凋落枝差异不显著.5种林分凋落物不同组分间,凋落叶最易被分解淋溶,凋落枝难于被分解淋溶.尾巨桉凋落物淋溶液pH值与色度、COD含量呈显著负相关,COD与色度、总N和总P呈显著正相关. 相似文献
9.
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
10.
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
11.
亚热带不同植被恢复阶段林地凋落物层现存量和养分特征 总被引:1,自引:0,他引:1
为揭示亚热带森林植被自然恢复过程中,凋落物层现存量及其养分元素储存能力的演变,采用空间代替时间的方法,在位于亚热带丘陵区的长沙县选取地域相邻、生境条件基本一致的檵木+南烛+杜鹃灌草丛(Loropetalum chinense+Vaccinium bracteatum +Rhododendron simsii scrub-grass-land,LVR)、檵木+杉木+白栎灌木林(L.chinense+Cunninghamia lanceolata+Quercus fabri shrubbery,LCQ)、马尾松+柯+檵木针阔混交林(Pinus massoniana +Lithocarpus glaber +L.chinense coniferous-broad leaved mixed forest,PLL)、柯+红淡比+青冈常绿阔叶林(L.glaber+Cleyera japonica+Cyclobalanopsis glauca evergreen broad-leaved forest,LAG)作为一个恢复序列,设置固定样地,采集未分解层(U层)、半分解层(S层)、已分解层(D层)凋落物样品,测定凋落物层现存量和主要养分元素含量、储量及其释放率,分析植物多样性指数与凋落物层现存量、养分元素含量的相关性。结果表明:1)凋落物层及各分解层凋落物现存量随着植被恢复而增加;同一恢复阶段D层凋落物现存量最高,占凋落物层现存量的41.59%-51.02%,不同分解层凋落物现存量的差异随着植被恢复而增大;各恢复阶段凋落物分解率为0.44-0.61,周转期为1.65-2.28 a。2)凋落物层及各分解层凋落物主要养分元素含量均表现为:N > Ca > Mg > K > P,随着植被恢复呈现出不同的变化特征,其中N、P含量总体上呈增加趋势,K含量LAG(除U层外)最高,PLL最低,Ca含量LCQ最高,PLL最低,Mg含量LAG(除U层外)最高,LVR最低;同一恢复阶段N、P(除PLL、LAG外)、K、Ca、Mg含量随着凋落物的分解而下降。3)不同恢复阶段凋落物层主要养分元素的储量依次为:N > Ca > Mg > K > P;凋落物层及各分解层凋落物主要养分元素总储量及各种养分元素的储量总体上随着植被恢复而增加;同一恢复阶段随着凋落物的分解,N、P储量增加,而K、Ca、Mg储量变化不大;随着植被恢复,凋落物层养分元素储存能力和转化归还能力提高,特别是N,养分元素总释放率下降,有利于养分的固持。4)乔木层、灌木层、草本层的植物多样性指数对凋落物层现存量和主要养分元素含量的影响不同,其中乔木层的影响最明显。 相似文献
12.
Peter S. Homann 《Plant and Soil》2012,355(1-2):251-263
Background and aims
General theory of forest floor dynamics indicates convergence of properties during detrital decomposition. This study examined the hypothesis that nutrient stoichiometry, i.e. the relative amounts of nutrients, converges during litter decomposition.Methods
Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) and red alder (Alnus rubra Bong.) foliar litters that decomposed in their respective forests were analyzed for N, P, Ca, Mg, K, S, Mn, Fe, Zn, and Cu. A novel approach quantified the stoichiometric difference as the angle between nutrient vectors. The approach was also used to synthesize data from 11 previously published studies representing a broad array of litter types and locations.Results
The stoichiometries of the Douglas-fir and red alder litters converged during the first 2 years of decomposition, but diverged in the subsequent 4 years. This temporal trajectory was explained by two competing sets of processes: stoichiometric convergence occurs when different litters decompose in the same environment, and divergence occurs when the same litter decomposes in different environments. Manganese, Fe, and Ca were important contributors to stoichiometric differences.Conclusions
Stoichiometric convergence processes often dominate over divergence processes. Consideration of multi-nutrient stoichiometries may enhance the understanding of the functions of litter, including rates of decomposition and relative rates at which nutrients are released. 相似文献13.
Calcium, magnesium and potassium dynamics in decomposing litter of three tree species were measured over a two-year period. The speices studied were flowering dogwood (Cornus florida), red maple (Acer rubrum) and chestnut oak (Quercus prinus). The order of decomposition was:C. florida>A. rubrum>Q. prinus.Calcium concentrations increased following any initial leaching losses. However, there were net releases of Ca from all three litter types since mass loss exceeded the increases in concentration. Net release of Ca by the end of two years from all three species combined was 42% of initial inputs in litterfall. Magnesium concentrations increased in the second year, following decreases due to leaching during the first year inC. florida andA. rubrum litter. Net release of Mg by the end of two years was 58% of initial inputs. Potassium concentrations decreased rapidly and continued to decline throughout the study. Net release of K by the end of two years was 91% of initial inputs.These data on cation dynamics, and similar data on N, S and P dynamics from a previous study, were combined with annual litterfall data to estimate the release of selected nutrients from foliar litter of these tree species at the end of one and two years of decomposition. The relative mobility of all six elements examined in relation to mass loss after two years was; K>Mg>mass>Ca>S>P>N. 相似文献
14.
森林凋落物研究进展 总被引:90,自引:6,他引:84
对森林凋落物的概念、研究方法及主要研究内容作了阐述,特别就凋落物收集面积和分解袋孔径大小、凋落量时空动态和凋落物分解速率等问题进行了综合分析。目前森林凋落物研究的重要结论有:海拔和纬度因子是通过对光、温、水等生态因子的再分配来影响凋落量,其中主导气候因子是年均温。凋落物的分解与化学组成和环境因子有关,C/N和N含量在凋落物分解过程中起着重要作用。土壤水分是影响凋落物分解主要环境因子之一;土壤微生物对凋落物的影响,前期是通过真菌破碎凋落物表层使内居性动物得以侵入凋落物内部,后期则以细菌降解有机物为主。凋落量、凋落物分解的影响因子,以及凋落物的生态作用等内容应是凋落物研究的重要方向。 相似文献
15.
Jerry F. Downhower Luther P. Brown Margaret L. Matsui 《Environmental Biology of Fishes》2002,65(4):423-430
The frequency of litter overlap, the simultaneous presence of two litters at different stages of development within a single female, varies among populations of Gambusia hubbsi in different habitats on Andros, Bahamas. In freshwater bluehole and shallow water populations, less than 2% of the females carried two litters, independent of the difference in developmental stage between the litters. In well field populations, 2% of the females carried two litters composed of immature and mature oocytes, whereas 10% carried developing oocytes and late stage embryos, and 16% carried mature oocytes (or older) and late stage embryos. Among females from populations that we introduced into unoccupied well fields 2% carried two litters composed of immature and mature oocytes, about 14% carried developing oocytes and late stage embryos, and less than 6% carried mature oocytes (or older) and late stage embryos. When two litters composed developing oocytes and late stage embryos were present, the two litters were of equal size, and the total number of offspring was 1.5 times larger than expected on the basis of female body length. When two litters composed mature oocytes (or older stages) and late stage embryos were present, the two litters were also of equal size, and the total number of offspring was as expected on the basis of female body length. Litter overlap was independent of female size. A comparison of the consequences of litter overlap for strictly lecithotrophic and strictly matrotrophic modes of reproduction with the patterns of litter overlap observed in G. hubbsi, suggests that litter overlap in G. hubbsi reduces the cost of reproduction, but does not increase the rate of offspring production. 相似文献
16.
Decomposition of two species of Salvina, S. molesta Mitchell and S. cucullata Roxb. was studied for 220 days by the litter bag method. Salvinia molesta decomposes faster in the initial stages and S. cucullata in the later stages of decomposition. The release of nutrients is rapid during the first seven days and is ascribed to leaching. The rate of release of nutrients differs in the two species, with higher rates for P, Ca and Mg in S. molesta and for N in S. cucullata. 相似文献
17.
Factors regulating litter mass loss and lignin degradation in late decomposition stages 总被引:1,自引:0,他引:1
Amalia Virzo De Santo Anna De Marco Angelo Fierro Björn Berg Flora A. Rutigliano 《Plant and Soil》2009,318(1-2):217-228
We studied late-stages decomposition of four types of coniferous needle and three types of deciduous leaf litter at two sites, one nutrient-poor boreal and one nutrient-rich temperate. The late stage was identified by that reached by litters at the onset of net loss of lignin mass, i.e. at about 1 year after the incubation when the highest amount of lignin had been detected; the study extended over the following 2 year period. Decomposition rates were significantly lower at the boreal than at the temperate site and did not differ between needle litter and leaf litter. In the boreal forest: (1) mass-loss was positively correlated with N and Mn release, (2) Mn concentration at the start of the late stage was positively correlated with lignin decay, (3) Ca concentration was negatively correlated to litter mass loss and lignin decay. In the temperate forest neither lignin, N, Mn, and Ca concentration at the start of the late stage, nor their dynamics were related to litter decomposition rates and lignin decay. In leaf litter mass-loss and lignin decay were positively correlated with N and Ca release and with Ca concentration. In needle litter mass-loss was positively correlated to Mn release and N concentration negatively with lignin decay. We concluded that Ca, N and Mn have different roles in controlling lignin decay depending on type of litter and site conditions. 相似文献
18.
We evaluated how litter raking removed basic nutrients from forest soils by simulating this historical silvicultural practice
on two spruce stands (Picea abies) in the Czech Republic. Experimental litter raking depleted the soil pool of exchangeable base cation nutrients (Ca2+, Mg2+ and K+) by up to 31% after the first litter raking in 2003. A second litter raking in the following year further reduced the soil
pool by up to 16%, and the third litter raking in 2005 reduced the pool by up to 6% more. These losses of base cations were
substantially greater than their annual input into the forest soil (estimated as from total atmospheric deposition and mineral
weathering) as well as their annual runoff. The concentration of Mg and Ca in spruce needless decreased considerably within
3 years from the beginning of the experiment. In addition, the observed litter chemistry was used to estimate historical nutrient
removal from litter raking by applying them to historical records of litter removal rates. According to these calculations,
the annual loss of total Ca, Mg and K from spruce stands would be from 40% to 100% of its present annual input into the soil,
and from 50% to 190% of annual runoff. On the basis of previous results estimated by geochemical modeling, we found that the
loss of base cations due to litter raking was similar to their leaching due to acid deposition. We conclude that long-term
removal of litter as widely practiced throughout the 19th century in Central Europe may have been responsible for a loss of
base cations equivalent to that caused by acid deposition during the 20th century. 相似文献
19.