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1.
几种常微量元素在辽东栎枝条分解过程中的变化特征   总被引:5,自引:1,他引:4  
应用分解网袋法 ,对暖温带落叶阔叶林主要优势树种辽东栎小枝进行连续 5a的分解研究 ,测定了 Ca、Mg、Cu、Zn和 Mn5种元素在凋落物分解过程中的含量和剩余百分率的变化 ,发现这两个指标在这几种元素之间既有一定的相似性 ,又有一定的差异。相似性表现在这几种元素在分解开始时 ,其含量都有一个不断上升的过程。但有的表现为不断上升( Ca和 Zn) ,而有的则在分解阶段的中期 ,已开始明显下降 ( Mg,Cu和 Mn)。从丢失速率常数上看 (根据 Olson的失重率常数 k) ,由于 Ca和 Cu在分解过程中的大量增加 ,因而用 Olson指数方程的拟合效果较差 ,而其它 3种元素用 Olson指数方程拟合结果相比较 ,发现 Mn的失重率略高于 Mg,而超过 Zn的 2倍。但这些元素的失重率都明显低于一些大量营养元素如 N、P、K的失重率  相似文献   

2.
应用分解网袋法对暖温带落叶阔叶林内分布较为优势的辽东栎(Quercus liaotungensis)、五角枫(Acermono)、蒙椴(Tilia mongolica)、糠椴(T.mandshurica)等4种植物叶片凋落物第一年的分解速率损失过程基本符合Olson的指数降解模型。4种凋落物的分解速率(凋落物的年重量损失)依次为五角枫>糠椴>蒙椴>辽乐栎。N、P、Na、Fe、Cu、Mn在几种凋落物残留物中各自有不同程度的富集。C、K含量显著单调下降,其它几种元素含量变化不太规律。可以看出,元素的初始含量对其释放速率有很大影响,当微生物固持作用使C与其它元素比升高到某一阈值时,元素开始释放;初始含量较高的元素则从最初开始释放。高含量的木质素对元素的净释放有一定抑制作用,而在凋落物分解初期影响不大。  相似文献   

3.
鼎湖山锥栗粗木质残体的分解和元素动态   总被引:3,自引:0,他引:3  
选取锥栗(Castanopsischinensis)粗木质残体(coarsewoodydebris,CWD)的3个径级(径级1-3分别为5-10cm,10-20cm和20-30cm),并且将每个径级的锥栗粗木质残体分为Ⅰ、Ⅱ、Ⅲ、Ⅳ、Ⅴ5个分解阶段。通过测定锥栗粗木质残体3个径级的Ⅰ-Ⅲ阶段的7种化学元素(C、N、P、K、Ca、Na、Mg)的浓度和CWD密度变化来研究其分解过程中的元素动态、分解速率及其分解过程中基质质量的变化。到分解阶段Ⅲ时,3个径级的重量与原来相比分别损失了36%、48%和43%。元素N、P、Mg、Ca、Na的浓度升高。元素N的累积可能和锥栗粗木质残体中寄生着固氮细菌和真菌有关。元素P、Mg、Ca、Na的浓度升高则可能是由于这4个元素因淋溶流失的速度小于锥栗粗木质残体质量的损失速度,造成元素积聚,元素C、K的浓度降低。N/P比值是较好的分解指示指标。虽然存在元素的净释放,但是由于C和其它主要元素的释放速率较慢,因而锥栗粗木质残体是森林中重要的C库和长期的元素来源。  相似文献   

4.
应用野外分解网袋法对岩溶地区和非岩溶地区两种优势树种桂花和青冈栎凋落叶的分解速率和养分释放规律进行研究。结果表明:分解1年后,凋落叶失重率桂花大于青冈栎,同一物种岩溶区大于非岩溶区。凋落叶各元素浓度随分解时间变化也有一定差异,C含量均表现为初期上升,后下降,最后上升的趋势;N含量前半年呈波动状态,后半年逐渐上升;P含量处波动状态,总体呈上升趋势。N、P含量和凋落叶失重率均表现为极显著正相关,而C:N、C:P、N:P与凋落叶失重率呈极显著负相关(P<0.01),说明凋落叶分解过程中失重率与N、P含量及C:N、C:P、N:P关系密切。凋落叶桂花N、P含量比青冈栎高,分解速率也比较快。  相似文献   

5.
杉木根桩分解过程及几种主要营养元素的变化   总被引:12,自引:3,他引:9  
基于以空间代替时间的原则,初步研究了杉木树桩在分解过程中边桩和心桩密度的变化及根桩分解过程中几种养分元素的释放过程.结果表明,边桩每年密度损失率k为2.767×10-2,而心桩为2.255×10-2;不同采伐年代的根系和边桩中N、P含量随分解年限的增加而下降,而心桩中N、P含量随分解年限的增加而出现先增加后下降的的趋势,根桩中K浓度在分解过程中的前两年有较大幅度的下降,根桩中有机质含量在其分解过程中都是单调降低的,对根系和树桩中养分元素含量进行比较发现,在分解初期,根系中N、P、K含量都高于边桩和心桩,而有机质含量边桩和心桩高于根系  相似文献   

6.
对三明35年生米槠天然更新次生林皆伐地采伐剩余物叶的分解速率以及化学组成的年变化进行研究.结果表明:2012年5月至2013年4月,叶分解速率随时间呈指数变化趋势,干质量损失率>80%.K发生净释放,残留率<5%;N先累积后释放,P呈现先释放后累积再释放的趋势,N和P的残留率分别为19%和16%.养分释放速率以K最大,其次为P,N最小.木质素浓度在2012年5—10月呈先降低后上升再降低的趋势,从2012年11月至试验结束无明显变化,而在整个分解过程中纤维素浓度变化不显著.采伐剩余物叶分解过程中,N/P先上升后下降再上升,比值由18.6上升到21.1,木质素/N在分解前期波动较大,后期变幅较小.  相似文献   

7.
为探究三峡消落带泥沙淤积条件下一年生草本枯落物的分解及养分变化特征,通过模拟实验,采用分解袋法,研究不同泥沙埋深对4种一年生草本分解及养分动态的影响。所选择的三峡消落带4种一年生优势草本植物包括马唐(Digitaria sanguinalis)、稗(Echinochloa crusgali)、狼杷草(Bidens tripartita)、苍耳(Xanthium sibiricum),设置了无掩埋(0 cm)、中度掩埋(5 cm)和深度掩埋(10 cm)3个泥沙掩埋深度,试验周期为180 d。结果表明:(1)在整个实验期间,4种一年生草本枯落物的分解速率均呈现先快后慢的特点,与0 cm泥沙埋深处理相比,5、10 cm埋深下4种一年生草本枯落物的分解速率均显著降低;(2)在分解结束时,4种一年生草本枯落物C含量变化不大,P元素处于释放状态,而在泥沙掩埋下N元素处于富集状态;(3)除马唐和稗枯落物的P含量变化外,4种一年生草本枯落物C、N、P含量均表现为0 cm掩埋处理显著低于5、10 cm处理组;相反,4种一年生草本枯落物K含量则表现为0 cm掩埋处理显著高于5、10 cm处理组。研究表明消落带大量泥沙淤积抑制枯落物的分解和C、N、P元素释放,有利于降低对三峡库区水体富营养化及营养物质悬浮的贡献率,一定程度上,对库区水质保护有正面效应。  相似文献   

8.
几种水生植物腐解过程的比较研究   总被引:9,自引:0,他引:9  
曹培培  刘茂松  唐金艳  滕漱清  徐驰 《生态学报》2014,34(14):3848-3858
研究水生植物腐烂分解过程及其养分动态对认识水生态系统物质循环过程具有重要意义。通过室内植物分解模拟试验,对6种水生植物的腐解过程及腐解残余物成分的变化进行了比较研究。结果表明,在64 d的腐解过程中,浮叶植物的分解速率最快,沉水植物其次,挺水植物最慢;同种植物的分解速率及残余物成分变化在不同生物量密度组间存在一定差异,但总体趋势一致。分解过程中,植物残余物中P、纤维素、木质素含量的变化趋势种间差异较小,总体上P含量先迅速下降后缓慢上升,纤维素含量先下降后趋于稳定,木质素含量先上升后趋于稳定;植物残余物中C、N、半纤维素含量在分解初期种间的变化趋势不同,而分解后期则均为C含量上升,N、半纤维素含量趋于稳定。相关性分析结果表明,总体上,在整个分解周期中,初始N、P含量越大分解越快,初始纤维素、半纤维素、木质素含量、C/N、C/P、木质素/N等越大分解越慢;植物腐解不同阶段的质量指标对分解速率的影响有所不同,在分解前期,残余物中N含量越高分解越快,半纤维素含量、C/N、木质素/N越高,分解越慢,而后期木质素含量越高分解越慢,其它因子影响较小。  相似文献   

9.
为了了解亚高山森林凋落物在不同分解阶段的化学计量特征,采用空间代替时间的方法,以自然状态下凋落物的3个层次——新鲜凋落物层(L)、发酵层(F)、腐殖质层(H))模拟凋落物分解的不同阶段,对川西亚高山不同林分类型(岷江冷杉天然林、粗枝云杉人工林、白桦天然林、杜鹃矮曲林)凋落物的碳氮磷(C、N、P)及可溶性碳氮磷(DOC、SN、SP)含量进行研究。结果表明:林分类型及分解阶段将显著影响凋落物分解过程中的碳氮磷含量及其化学计量比。亚高山森林凋落物可溶性有机碳、水溶性磷含量均随着分解过程的不断进行而降低,分解初期快速淋溶,而分解中后期释放变缓。4种林分比较而言,水溶性碳氮磷含量表现为:白桦杜鹃冷杉云杉,阔叶树种凋落物的可溶性碳氮磷普遍高于针叶树种,尤其在分解初期。针叶树种凋落物SN在分解过程中呈现释放模式,而阔叶树种SN呈现先富集后释放模式。凋落物C含量随着分解的不断进行而降低,冷杉、白桦及杜鹃N含量呈现先富集后释放的趋势,分解阶段对云杉与白桦各层P含量影响不显著,但冷杉却呈现先降低后升高的现象,而杜鹃则是在分解后期P含量显著降低。从总体来看,亚高山森林凋落物C/P和N/P均显著小于全球平均水平,凋落物C/N、C/P、N/P、DOC/C、SN/N、SP/P均随着分解的不断进行呈现降低的趋势。分解初期白桦和杜鹃DOC/C显著降低,而冷杉则在分解后期显著降低。冷杉N/P先升高后降低,杜鹃N/P随着分解的不断进行呈现升高趋势。这些研究结果为深入理解亚高山森林生态系统的凋落物分解进程和养分循环提供了依据。  相似文献   

10.
在天全县的退耕还林地中,对三倍体毛白杨细根与黑麦草草根的分解及其N、P、K、Ca和Mg养分动态进行了研究.结果表明,细根直径0~1、1~2和0~2 mm及草根的分解速率与时间呈负指数关系,第1年干重损失率分别为76.17%、69.80%、73.44%和79.53%,分解50%所需的时间分别为217、266、254和172 d.细根分解过程中,N和Ca浓度增加,而P、K、Mg浓度下降;草根分解过程中,其养分元素的浓度变化整体上没有规律.细根分解过程中P、K和Mg的养分残留率与其干重残留率的变化趋势相似,分解前期下降较快,随后下降比较平缓,N和Ca的养分残留率下降则比较平缓,并且养分的分解速率均以P最快,其次是K和Mg,而N和Ca最慢;草根分解过程中N、P、K、Ca 和Mg的养分残留率初期下降比较快,随后趋于平缓,并且元素分解速率呈不规则变化,其中Ca分解速率最慢,其它元素的分解速率相近.  相似文献   

11.
Meng Wang  Tim R. Moore 《Ecosystems》2014,17(4):673-684
Ombrotrophic bog peatlands are nutrient-deficient systems and important carbon (C) sinks yet the stoichiometry of nitrogen (N), phosphorus (P) and potassium (K), essential for plant growth and decomposition, has rarely been studied. We investigated the seasonal variation in C, N, P, and K concentrations and their stoichiometric ratios in photosynthetically active tissues of 14 species belonging to five plant functional types (PFTs) (mosses, deciduous trees/shrubs, evergreen shrubs, graminoids, and forb) at Mer Bleue bog, an ombrotrophic peatland in eastern Ontario, Canada. Although we observed variations in stoichiometry among PFTs at peak growing season, there was convergence of C:N:P:K to an average mass ratio of 445:14:1:9, indicating N and P co-limitation. Nitrogen, P, and K concentrations and stoichiometric ratios showed little seasonal variation in mosses, evergreens, and graminoids, but in forb and deciduous species were the largest in spring and decreased throughout the growing season. Variations in nutrient concentrations and stoichiometric ratios among PFTs were greater than seasonal variation within PFTs. Plants exhibit N and P co-limitation and adapt to extremely low nutrient availability by maintaining small nutrient concentrations in photosynthetically active tissues, especially for evergreen shrubs and Sphagnum mosses. Despite strong seasonal variations in nutrient availabilities, few species show strong seasonal variation in nutrient concentrations, suggesting a strong stoichiometric homeostasis at Mer Bleue bog.  相似文献   

12.
采用分解袋法,研究了长白山次生针阔混交林内9种树种叶凋落物34个月的分解过程.结果表明:在次生针阔混交林中,不同树种叶凋落物的初始N和P浓度存在很大差异,叶凋落物分解速率(k)与初始N浓度和C/N显著相关.有机物剩余百分率与C剩余百分率呈显著的线性正相关关系,与N和P剩余百分率之间呈显著的二项式回归关系. N和P剩余百分率在初期阶段随有机物分解而增加,达到峰值后逐渐降低. 随着有机物剩余百分率的下降,C/N和C/P均呈逐渐降低趋势,各种叶凋落物之间C/N和C/P的差异逐渐减小,分解末期分别趋近于23和350. 随有机物剩余百分率的降低, N/P变化不明显,当有机物剩余百分率低于25%时,不同树种叶凋落物之间N/P差异显著下降. 有机物剩余百分率可用来预测C、N和P的剩余百分率.   相似文献   

13.
While a large number of studies have investigated the effects of macronutrients such as nitrogen (N) or phosphorus (P) on litter decomposition, recent studies suggest that micronutrients including zinc (Zn) may also limit decomposition rates. Our goal was to compare the effects of nutrient addition on decomposition of two leaf litter types from tropical dry forest trees in a short-term laboratory microcosm experiment. Single nutrients (N, P, Zn, potassium, magnesium, and nickel) were applied to leaf litter in solution at low or high concentrations (to mimic in situ availability or to alleviate nutrient limitation, respectively), and decomposition was assessed as final mass remaining and carbon dioxide mineralization. Both mass remaining and CO2 mineralization were affected by nutrient identity and concentration, and these effects varied by species. In general, P and Zn addition increased decomposition, Mg and N inhibited it, and K and Ni had no significant effects. Future studies should consider the interactions between decomposition processes, decomposer communities, and a wider range of macro- and micronutrients.  相似文献   

14.
The present study, conducted near Newcastle, Australia, used a blocked analysis of variance experimental design to compare initial nutrient concentrations and decomposition rates of Avicennia marina (grey mangrove) grown on sand and rock blast furnace slag. There were no significant differences ( ANOVA ; P > 0.05) in mean initial nutrient concentrations of total C, N and P for plants grown on the sand and slag substrates. A litterbag technique was used to estimate decomposition rates. After 360 days of incubation, repeated measures analysis did not identify significant differences between the substrates for the interaction term ‘substrate × time’ or the term ‘substrate’ for percentage weight loss or for C, N and P remaining. Avicennia marina on both substrates had nutrient characteristics and decomposition rates comparable to those found in the literature. Results suggest that initial nutrient concentration and decomposition rates are not dramatically influenced by the presence of slag.  相似文献   

15.
以贵州8年、16年、28年生杉木人工林为研究对象,分析植物-凋落叶-土壤的C、N、P化学计量特征及其内在联系,探讨林龄对杉木人工林生态化学计量的影响,为杉木人工林可持续经营提供参考。结果表明:(1)杉木人工林植物-凋落叶-土壤均呈高C低N、P元素格局,两两组分间差异显著(P0.05);成熟叶C/N(38.58)、C/P(376.67)偏低,其养分利用效率较低;与成熟叶相比,凋落叶N、P偏低,C/N、C/P偏高;土壤C/P、N/P偏低,C/N较高,说明土壤P素分解较快而N保存较好,反映了凋落叶分解不利。(2)成熟叶C、P以及根、凋落叶、土壤的C、N、P、C/N、C/P、N/P均受林龄的显著影响;从8年到28年,C、N、P含量在植物体呈先增后减趋势,而在土壤中相反,呈先减后增趋势,但在凋落物中C、P显著减小,且C/P,N/P显著增加,反映杉木林早期对养分需求旺盛,随年龄增大需求减小,凋落物分解受制于P素,加剧中幼期杉木生态系统养分供需矛盾。(3)成熟叶与凋落叶N、C/N、N/P之间显著正相关,凋落叶养分源自成熟叶;成熟叶重吸收率P(0.518—0.645)N(0.292—0.488),即对P的利用效率高于N。凋落叶与土壤C、C/N之间显著负相关,表明土壤C、N来源于凋落叶分解,但凋落叶分解缓慢,导致大量元素滞留于凋落叶,土壤损耗元素得不到补给,两者间养分循环缓慢。土壤与根C、P、C/N、C/P、N/P之间均显著正相关,土壤与成熟叶的C、N、P均不相关,表明土壤养分是杉木生长养分的主要来源,但土壤C、N、P含量对成熟叶C、N、P含量影响不大。  相似文献   

16.
Spring wheat (Triticum aestivum) was grown in the field under ambient and supplemental levels of ultraviolet-B (UV-B, 280–315 nm) radiation to determine the potential for alteration in plant nutrients, decomposition, leaf quality and dry matter yield. Supplemental UV-B radiation simulating a 12, 20 and 25% stratospheric ozone depletion significantly decreased dry matter yield, but had no significant impact on harvest index. UV-B radiation resulted in an increase of the concentrations of N and K in all plant parts; changes of the concentrations of P, Mg, Fe and Zn varied in a tissue-dependent manner, as the decrease of P in leaves and stems, and its increase in spikes and grains. The mass of N, P, K, Mg, Fe and Zn in various plant parts and whole plant was generally decreased except leaf N mass was increased by enhanced UV-B radiation. Enhanced UV-B radiation decreased the concentrations of soluble carbohydrates in leaves and increased that of holocellulose and soluble proteins. After 60 and 100 days of decomposition of leaves and stems in the field, enhanced UV-B radiation stimulated the loss of organic C. As a consequence, the nutrient content of soils might be less diminished under enhanced UV-B radiation.  相似文献   

17.
The decomposition of axenic Lemna gibba has been studied over a 200 day period under laboratory conditions in the presence and absence of wastewater micro-organisms. The residual mass of plant litter in the decomposition vessels decreased three times more rapidly under biotic than abiotic conditions. The organic matter in the duckweed litter lost about half its weight within 67.9 days in the presence of micro-organisms while more than 200 days were required in axenic vessels. In the former case, AFDW loss followed an exponential pattern of decay. The rate constant was 0.0102 day –1 and the decay was virtually complete after 200 days. The C and K concentration of the remaining duckweed litter decreased; the N, Ca, Fe and B concentration increased in both treatments. The concentration of total N, P, K, Mg, and Mo increased in the receiving water in both treatments but was much higher under biotic than abiotic conditions. Mass balances of nutrients in the vessels and flux of these nutrients between compartments in the vessels (duckweed litter, water and sediment) have been determined. Under axenic conditions the release of elements was very slow. Only notably potassium leaching had occurred. Leaching of potassium, magnesium and organic carbon took place mainly during the first term of incubation and then slowed down. Under biotic decomposition the elemental content of the litter decreased by more than 50% over 43 days for K, 53 days for Mo, 64 days for C, 81 days for Mg, 101 days for S, 104 days for P, 108 days for Na, 111 days for N, 140 days for B. Calcium and iron immobilised in the litter. Most of the released N, S, P, K, Mg and Mo remained in the water, but B and Mn settled into the sediment. The result of the investigation demonstrated that the nutrient flux from decomposing duckweed litter is mainly a microbially mediated process.  相似文献   

18.
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   

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