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1.
青冈林土壤跳虫群落结构在落叶分解过程中的变化   总被引:10,自引:0,他引:10  
柯欣  赵立军  尹文英 《生态学报》2001,21(6):982-987
1993年5月至1995年4月,用落叶代法研究青冈(Cyclobalanopsis glauca)落叶分解过程中跳虫的群落结构变化。用多样性指数、演替指数、相似系数分析跳虫在落叶分解过程中群落结构及其季节变化特点。青冈落叶分解经淋洗、养分固定 养分活化3个阶段,分解常数分别为k1=9.11,k2=2.57,k3=0.43(百分比/月)。跳中心在落叶分解过程中的集聚型分为3组:A组为落叶分解前期集聚的种类,B组为后期的种类,C组为中期或全过程的种类,分析讨论了落叶分解过程与跳虫功能群及群落结构变化的关系。  相似文献   

2.
不同寄主蒲螨种群间亲缘关系的RAPD初步分析   总被引:8,自引:1,他引:7  
应用RAPD技术分析了采自河北昌黎和天津蓟县等不同地点的9个不同寄主的蒲螨种群间的关系。通过对100条RAPD引物的3次重复筛选,获得32条重复性好、多态性高的引物。应用这32条引物共扩增出268条带,依据这些条带计算遗传距离,再进行聚类分析。结果 表明:9个蒲螨种群可分为3个组(A、B和C组)。其中A和B组属于小蠹蒲螨群,A组由护林神蒲螨Pyemotes dryas组成;B组由小蠹蒲螨P. scolyti和寄生于松树小蠹Scolytidae sp.的蒲螨组成;球腹蒲螨群组成C组,并分为两个分支,寄生于桃树小蠹寄生蜂Pteromalidae spp.的蒲螨为一支,寄生于柏肤小蠹Phloeosinus aubei Perris、皮蠹Dermestidae sp.、日本二齿茎长蠹Sinoxylon japonicum Lesne(黑枣树和柿树)和桑梢小蠹Cryphalus exignus等的5个蒲螨种群为一支,这5个蒲螨种群形态上未见明显差别。C组中的寄生桃树小蠹寄生蜂的蒲螨与该组其他蒲螨种群的遗传距离最远,达到0.3236~0.4111,并且存在生殖隔离,该蒲螨似已分化成为独立的新种;C组其他种群是否存在近缘种,有待进一步深入研究。  相似文献   

3.
采用分解网袋法研究了马尾松(Pinus massoniana)、桤木(Alnus cremastogyne)、木荷(Schima superba)、青冈(Cycloblanopsis glauca)等树种凋落叶在21年生杉木人工林内的分解速率和养分释放过程。经过13个月的分解实验,4种供试凋落叶以青冈分解最快,质量失重率为33.5%,其次为桤木和木荷,马尾松分解最慢,其质量失重率仅为29.9%。4种凋落叶分解50%和95%所需要的时间分别为21~26个月和94~112个月。在凋落叶分解过程中,除桤木凋落叶中氮含量下降外,其他3种凋落叶的氮含量均增加,但凋落叶的C/N均降低;在凋落叶分解的前3个月,凋落物中磷含量快速下降,此后变化很小,C/P呈增加趋势。在凋落叶分解过程中,马尾松凋落叶对氮素表现为固持作用,而其他3种凋落叶对氮素表现为净释放,4种凋落叶的磷素均表现为净释放。4种供试材料中桤木较适合与杉木混交种植。  相似文献   

4.
刘志琦  杨集昆 《昆虫学报》1998,41(-1):186-193
该文论述了我国北方粉蛉7种,其中卷粉蛉属Helicoconis及污褐卷粉蛉Helicoconis (Helicoconis)lutea为中国新记录,另包括粉蛉属Cxraiopteryx北方粉蛉Coniopteryx(Coniopteryx)arctica sp.nov,、周氏粉蛉Coniopteryx(Oniopteryx)choui,sp.nov.、宽带粉蛉Oniopteryx(Coniopteryx)vittiformis,sp nov.3新种及圣洁粉蛉Coniopteryx Coniopteryx)parthenia(Navas & Marcet,1910)、蒙干粉蛉Coniopteryx(Xeroconiopteryx)mongolica Melnander、爪干粉蛉Onioptery(Xeroconiopteryx)unguigonarcuata Aspock & Aspock 3中国新记录种。  相似文献   

5.
报道记述了采自马来西亚的蚱科28种,其中包括6新种(Phaesticus azemii sp. nov., Discotettix adenanii sp. nov, Discotettix selangori sp. nov.,Scelimena hafizaii sp. nov, Scelimena razalii sp. nov.和Gavialidium phangensum sp. nov.),并包括马来西亚新记录种11种。提供了马来西亚已记录属和种的检索表。  相似文献   

6.
为了解落叶阔叶林森林植被的群落类型和组成结构,该文在桂林阳朔县和灵川县岩溶生境典型的落叶阔叶林内设置49个20 m×20 m的随机样方,在野外调查基础上进行群落数量分类和排序,对其群落类型进行划分,并对不同类型的群落种类组成、结构及其分布与环境因子的耦合关系进行分析。结果表明:(1)桂林岩溶石山落叶阔叶林可划分为3个群丛组类型,即群丛组A:南酸枣-喜树+巴豆群丛组(ASS.Choerospondias axillaris-Camptotheca acuminata+Croton tiglium),群丛组B:光皮梾木-喜树群丛组(ASS. Swida wilsoniana-Camptotheca acuminata),群丛组C:麻栎-檵木群丛组(ASS. Quercus acutissima-Loropetalum chinense)。(2)不同群落类型中常绿和落叶物种的丰富度、多度、胸高断面积及重要值的变化:在乔木层中,3个群丛组均为落叶物种占优势;在灌木层中,群丛组A、B以落叶物种占优势,群丛组C以常绿物种占优势。(3)在1~5 cm和5~10 cm径级内,群丛组A、B的落叶物种在4个度量指标上均大于常绿物种,群丛组C除物种丰富度外,均为常绿物种大于落叶物种;在≥10 cm径级中,除群丛组B的物种丰富度外,3个群丛组中的各项指标均为落叶物种占主导地位。(4)岩石裸露率、海拔、坡向、土壤含水量、土壤pH、土壤有机质、全氮、速效氮、速效钾、林冠开阔度和人为干扰是影响研究区不同类型群落分布的主要环境因子。  相似文献   

7.
云南伊蚊属奈蚊亚属一新种及二新记录种记述   总被引:3,自引:0,他引:3  
报道了云南省伊蚊属奈蚊亚属Aedes subgen. Kenknightia Reinert,1990至今所发现的种类,其中包括1新种类异形伊蚊Ae.(Ken.) dissmilierodes sp. Nov.和2种中国新记录,讨论了新种与近缘种的鉴别特征,简述了2种新记录的形态特征。新种模式标本保存于云南省疟疾防治研究所。  相似文献   

8.
报道横脊叶蝉属Evacanthus三新种,即双斑横脊叶蝉E. bimaculatus sp. nov.、黑条横脊叶蝉E. nigristreakus sp. nov.、红条横脊叶蝉E. Rubrolineatus sp. nov., 和点翅叶蝉属Gessius 一新种,黑背点翅叶蝉G. nigri dorsus sp.nov.。模式标本保存在贵州大学昆虫研究所。  相似文献   

9.
中国多刺蚁属驼背亚属系统分类研究(膜翅目:蚁科)   总被引:1,自引:0,他引:1  
徐正会 《昆虫学报》2002,45(4):522-530
记述了在云南省南部西双版纳自然保护区热带雨林区域采集到的多刺蚁属Polyrhachis Smith驼背亚属Cyrtomyrma Forel 5新种:方肩多刺蚁P. (C.) cornihumera sp. Nov.,齿肩多刺蚁P. (C.) dentihumera sp. Nov.,圆肩多刺蚁P. (C.) orbihumera sp. Nov.,圆顶多刺蚁P. (C.) rotoccipita sp. Nov.,短胸多刺蚁P. (C.) brevicorpa sp. Nov.。目前为止在中国和中南半岛记载该亚属13种,其中中国已知9种。提供了中国和中南半岛已知13种的检索表。  相似文献   

10.
中国柯蚱属分类研究(直翅目: 蚱科)   总被引:8,自引:0,他引:8       下载免费PDF全文
整理记述分布于我国的柯蚱属种类共12种, 其中有2新种, 即龙滩柯蚱Coptotettix longtanensis sp. Nov. 及断脊柯蚱C. rupticosta sp. Nov.; 将断隆线柯蚱C. interrupta Zheng et Mao 转入庭蚱属Hedotettix; 贡柯蚱C. fugongensis Zheng et Mao 被确认为龙江柯蚱C. longjiangensis heng et Wei 的同物异名。模式标本保存于陕西师范大学动物研究所标本室。  相似文献   

11.
Abstract

Changes in the microfungal community developing on Pistacia lentiscus L. leaf litter were monitored from February 2001 (senescent leaves) to December 2002 using litter bags. The Principal component analysis of the 16 samples showed a microfungal succession related to the progressive decomposition of the substratum. The Correspondence analysis of fungal colonizers with Rf > 10 revealed three main groups succeeding during the study period. The co-occurrence relationships (on the same leaf) among the major colonizers were analysed. The specialized saprotrophs on P. lentiscus litter: Asterostomella sp. 1 and Endophragmiella boewei were identified as principal colonizers in the mature community.  相似文献   

12.
Decomposition processes of beech leaf litter were studied over a 3-year period in a cool temperate deciduous forest in Japan. Organic chemical and nutrient dynamics, fungal biomass and succession were followed on upper (Moder) and lower (Mull) of a forest slope. Litter decomposition rates were similar between the sites. Nutrient dynamics of the decomposing litter was categorized into two types: weight changes in nitrogen and phosphorus showed two phases, the immobilization (0–21 months) and the mobilization phase (21–35 months), while those in potassium, calcium and magnesium showed only the mobilization phase. The rate of loss of organic chemical constituents was lignin < holocellulose < soluble carbohydrate < polyphenol in order. The changes in lignocellulose index (LCI), the ratio of holocellulose in lignin and holocellulose, were significantly correlated to the changes in nitrogen and phosphorus concentrations during the decomposition. During the immobilization phase, increase in total fungal biomass contributed to the immobilization of nitrogen and phosphorus. The percentage of clamp-bearing fungal biomass (biomass of the Basidiomycota) to total fungal biomass increased as the decomposition proceeded and was significantly correlated to LCI. Two species in the xylariaceous Ascomycota were dominantly isolated by the surface sterilization method from decomposing litter collected in the 11th month. The organic chemical, nitrogen and phosphorus dynamics during the decomposition were suggested to be related to the ingrowth, substrate utilization and succession of the Xylariaceae and the Basidiomycota. Twenty-one species in the other Ascomycota and the Zygomycota isolated by the washing method were classified into three groups based on their occurrence patterns: primary saprophytes, litter inhabitants and secondary sugar fungi. These species showed different responses to LCI and soluble carbohydrate concentration of the litter between the groups.  相似文献   

13.
Osono T 《Mycologia》2005,97(3):589-597
Decomposition processes of Swida controversa leaves were investigated in initially sterilized (fungi-excluded) and nonsterilized freshly fallen leaves to examine the relationship between chemical changes and fungal succession during decomposition and the effect of exclusion of previously established phyllosphere fungi from leaves on subsequent decomposition and fungal succession. Fifteen species were isolated frequently from decomposing leaves with surface-disinfection and washing methods. These fungi were divided into early and late colonizers according to their occurrence during decomposition. The 1.5 y decomposition process was divided into three stages characterized by different dominant organic chemical constituents. A clear relationship was demonstrated between chemical changes and fungal succession. Total hyphal length and frequencies of some early colonizers were reduced in initially sterilized leaves at 3 wk, but this had no significant effect on loss of litter mass or chemical changes during the first 3 wk or on the subsequent decomposition and fungal succession.  相似文献   

14.
There have been few studies quantifying litterfall, standing litterstock and gross litter decomposition following forest conversion to plantation crops such as cocoa. Additionally, an assessment of changing processes occurring in forest floor litter systems with plantation age is lacking. We investigated litterfall production, standing litter changes and litter decomposition along a chronosequence of shaded cocoa farm fields (secondary forest, 3, 15 and 30-year-old) in the moist semi-deciduous forest belt in the Ashanti Region of Ghana in West Africa over 24 months. Mean annual litterfall production differed significantly among study sites and ranged from 5.0 to 10.4 Mg DM ha?1. Similarly, standing litter differed significantly between land-use /plot ages. The results showed significant differences in quality between litter from forest and litter from cocoa plantations. Litterfall from forests had higher concentrations of nitrogen and lower concentration of soluble polyphenols and lignin compared to litter from cocoa systems. Monthly decomposition coefficients (k) estimated as $ k = {{\left( {{\text{A}} - \left( {{\text{L}}_1 - {\text{L}}_0 } \right)} \right)} \mathord{\left/ {\vphantom {{\left( {{\text{A}} - \left( {{\text{L}}_1 - {\text{L}}_0 } \right)} \right)} {\left( {{{\left( {{\text{L}}_1 + {\text{L}}_0 } \right)} \mathord{\left/ {\vphantom {{\left( {{\text{L}}_1 + {\text{L}}_0 } \right)} 2}} \right. } 2}} \right)}}} \right. } {\left( {{{\left( {{\text{L}}_1 + {\text{L}}_0 } \right)} \mathord{\left/ {\vphantom {{\left( {{\text{L}}_1 + {\text{L}}_0 } \right)} 2}} \right. } 2}} \right)}} $ , where A is litterfall production during the month, L0 is the standing litterstock at the beginning of the month and L1 is the standing litterstock at the end of the month. Annual decomposition coefficients (k L ) were similar in cocoa systems (0.221–0.227) but higher under secondary forests (0.354). Correlations between litter quality parameters and the decomposition coefficient showed nitrogen and lignin concentrations as well as ratios that include nitrogen are the best predictors of decomposition for the litters studied. Our results confirm the hypothesis that decomposition decreases following forest conversion to shaded cocoa systems because of litter quality changes and that decomposition rates correlate to litter quality differences between forest and cocoa ecosystems. The study also showed that standing litter pools and litterfall production in recently converted cocoa plantations are low compared to secondary forests or mature cocoa systems. Management strategies involving the introduction of upper canopy species during plantation development with corresponding replacement of tree mortality with diverse fast growing species will provide high quality and quantity litter resources.  相似文献   

15.
转Bt cry1Ab基因水稻对稻田弹尾虫种群数量的影响   总被引:1,自引:0,他引:1  
以转Bt cry1Ab基因水稻克螟稻1号(KMD1)和克螟稻2号(KMD2)及其亲本非转基因水稻秀水11(XS11)为材料,于2003年9月和翌春4月,调查了KMD1和KMD2对水稻灌浆期和收割后休田期稻田土表落叶层中弹尾虫种群数量的影响.结果表明,KMD植株表达的cry1Ab杀虫蛋白可在稻田环境中残留160 d以上;在水稻灌浆期采用吸虫器法在稻田落叶层中采集到灰橄榄长角跳虫(Entomobrya griseoolivata)和钩圆跳虫(Bourletiella christianseni)等2种弹尾虫,其中灰橄榄长角跳虫在KMD1和KMD2稻田中的种群密度显著高于XS11稻田;在水稻收割后休田期采用网袋法采集到灰橄榄长角跳虫、钩圆跳虫、球角跳虫(Hypogastrura matura)和等节跳虫(Isotoma monochaeta)等4种弹尾虫,其中转Bt基因水稻稻田中的灰橄榄长角跳虫和球角跳虫的种群密度显著高于XS11稻田,且其植株组织残体生物量损失率显著高于XS11.  相似文献   

16.
杨效东 《生物多样性》2004,12(2):252-261
2000年5月-2001年4月,采用尼龙网袋法,以西双版纳热带季节雨林混合凋落叶作为分解基质,在3个季节雨林样地开展分解实验,对实验过程中分解袋内的中小型土壤节肢动物(meso—microarthropod)进行取样调查。根据所获数据探讨了中小型土壤节肢动物群落在分解过程中的结构和动态。结果显示:(1)在季节雨林凋落叶分解过程中,中小型土壤节肢动物群落组成始终以弹尾目和蜱螨目相对数量较高(均在30%以上),成为优势类群。(2)分解中期,土壤节肢动物群落多样性指数,类群、个体及重要类群的数量均处于整个分解过程中的较高水平,分解初期和后期相对较低,且波动性大,其中分解初期各多样性指标在波动过程中呈逐步增长趋势,而后期逐步降低,其变化过程受凋落叶数量和质量、林地降雨量变化的影响。土壤动物群落类群和个体相对密度(每克凋落叶干重的类群数和个体数)的变化可在一定程度上反映土壤动物与凋落物质量的动态关系。(3)不同样地间,土壤节肢动物群落结构及动态差异在分解前期不明显,而分解后期差异有所增加,但3样地凋落叶分解物质损失率没有明显差异。  相似文献   

17.
高山森林凋落物分解过程中的微生物生物量动态   总被引:1,自引:0,他引:1  
周晓庆  吴福忠  杨万勤  朱剑霄 《生态学报》2011,31(14):4144-4152
凋落物分解过程中的微生物生物量动态对于深入了解森林凋落物分解机理具有重要意义。为了解高山森林典型树种凋落物分解过程中的微生物生物量特征,采用凋落物分解袋法,研究了土壤冻结期(3月)、融冻期(4月-5月)、生长季节(5-10月)和冻结初期(11月)红桦(Betula albosinensi)、岷江冷杉(Abies faxoniana)和粗枝云杉(Picea asperata)凋落物分解过程的微生物生物量C(MBC)、微生物生物量N(MBN)和微生物生物量P(MBP)动态。四个关键时期,凋落物的MBC、MBN以生长季节最高,但非生长季节的三个关键时期也检测出较高的MBC、MBN。在融冻期结束后,三类凋落物分解过程中MBC和MBN均出现爆发性增长。然而,MBP在生长季节中期(8月)、完全冻结期(3月)和冻结初期(11月)均相对较低,但在融冻期和生长季节后期(9月)相对较高。另外,红桦凋落物的MBC、MBN和MBP含量均高于岷江冷杉和粗枝云杉凋落物(除4月粗枝云杉凋落物MBP异常升高外)。这些结果为更加清晰地认识高寒森林凋落物分解过程及机理,以及进一步理解陆地生态系统结构和功能提供了一定基础数据。  相似文献   

18.
通过凋落物袋法研究了冀北辽河源地区表层0~5、5~10和10~20 cm土壤微生物生物量碳、微生物呼吸速率和微生物代谢熵对白桦及蒙古栎叶凋落物分解主场效应的响应过程.结果表明: 主场白桦及蒙古栎凋落物处理土壤微生物生物量碳显著高于客场;而土壤微生物呼吸则差异不显著.土壤微生物生物量碳、微生物呼吸对不同植物凋落物分解主场效应的响应程度也不一致.客场蒙古栎叶凋落物处理各土层土壤微生物生物量碳相比主场降低了39.6%、34.9%、33.5%;白桦凋落物则降低了31.6%、27.1%、17.0%.客场蒙古栎凋落物微生物呼吸分别为主场的96.3%、92.4%、83.7%,白桦凋落物为99.4%、97.3%、101.3%.微生物代谢熵则呈现出与微生物生物量碳相反的变化趋势.植物凋落物在主场分解速率较快,可供微生物利用的养分较多,促进了土壤微生物的活动,且土壤中丰富的有机质削弱了植物摄取与微生物需求之间的矛盾,进而导致土壤微生物生物量碳及微生物代谢熵对叶凋落物分解主场效应产生了明显的响应.而土壤微生物呼吸由于受到林地内土壤温度、含水率以及二者共同作用的影响,对主场效应表现出了微弱的响应.此外,由于低质量凋落物会表现出更强的主场效应,从而使土壤微生物生物量碳、微生物呼吸及微生物代谢熵对白桦叶凋落物分解主场效应的响应程度低于蒙古栎凋落物.  相似文献   

19.
Most studies on decomposition dynamics indicate that the decomposition pattern can be divided in a first rapid phase following a negative exponential model, controlled by nutrient concentration; and a second slow phase controlled by lignified carbohydrates, in which the curve acquires an asymptotic form as decomposition slows down. This pattern has been observed across different floras, but there are still contradictory evidences about which are the most accurate predictors of each decomposition phase. The objectives of this study were: (1) to determine decomposition during the two main phases throughout one year of incubation, of 20 abundant plant species from 7 contrasting plant functional types of a mountain woodland in central Argentina, and (2) to analyse the relationship of decomposition with foliar traits (both of green leaves and litter), in order to identify the more accurate predictors of the first and the second decomposition phases, as well as for annual decomposition. Decomposition was measured as the percentage of remaining dry weight (% RDW) at the end of each phase. As expected, decomposition was much slower (% RDW higher) during the second phase (70–365 days) than during the first one (0–70 days). The % RDW of the first phase was significantly and strongly associated with the % RDW of the whole incubation period. Through a stepwise multiple regression procedure we detected that the best predictors of % RDW for the first phase were the sum of recalcitrant components (lignin, cellulose and hemicellulose) of the litter with a negative relation, and specific leaf area of green leaves with a positive relation (R 2 = 0.89). For the whole year incubation results were quite similar to those recorded for the first phase (R 2 = 0.78). The second phase was not predicted by any of the traits measured. In general, our results agree with previous studies in which decomposition was tightly related to the physico-chemical characteristics of green leaves and litter. However, our results diverge from the idea that rapid and slow phases are controlled by labile and recalcitrant components, respectively, and suggest that more comparative studies are necessary to find a decomposition model suitable to different floras.  相似文献   

20.
Decomposition is a critical process in global carbon cycling. During decomposition, leaf and fine root litter may undergo a later, relatively slow phase; past long-term experiments indicate this phase occurs, but whether it is a general phenomenon has not been examined. Data from Long-term Intersite Decomposition Experiment Team, representing 27 sites and nine litter types (for a total of 234 cases) was used to test the frequency of this later, slow phase of decomposition. Litter mass remaining after up to 10 years of decomposition was fit to models that included (dual exponential and asymptotic) or excluded (single exponential) a slow phase. The resultant regression equations were evaluated for goodness of fit as well as biological realism. Regression analysis indicated that while the dual exponential and asymptotic models statistically and biologically fit more of the litter type–site combinations than the single exponential model, the latter was biologically reasonable for 27–65% of the cases depending on the test used. This implies that a slow phase is common, but not universal. Moreover, estimates of the decomposition rate of the slowly decomposing component averaged 0.139–0.221 year−1 (depending on method), higher than generally observed for mineral soil organic matter, but one-third of the faster phase of litter decomposition. Thus, this material may be slower than the earlier phases of litter decomposition, but not as slow as mineral soil organic matter. Comparison of the long-term integrated decomposition rate (which included all phases of decomposition) to that for the first year of decomposition indicated the former was on average 75% that of the latter, consistent with the presence of a slow phase of decomposition. These results indicate that the global store of litter estimated using short-term decomposition rates would be underestimated by at least one-third.  相似文献   

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