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1.
为了更好地指导干热河谷不同恢复模式下人工林经营过程中的养分管理以及造林模式的筛选,以元谋干热河谷10年生印楝和大叶相思为研究对象,对其纯林及混交林内N、P、K、Ca、Mg主要养分元素的积累、分配和循环进行研究.结果表明: 印楝纯林、大叶相思纯林及印楝+大叶相思混交林5种营养元素的总积累量分别为333.05、725.61和533.85 kg·hm-2,印楝纯林各器官养分积累量为枝>干>根>叶>皮,大叶相思纯林与混交林均为枝>干>叶>根>皮.印楝纯林内5种养分元素的积累量为Ca>K>N>Mg>P,大叶相思纯林与混交林一致,均为Ca>N>K>Mg>P.林分养分年存留量为62.72~162.19 kg·hm-2·a-1,总归还量为48.82~88.86 kg·hm-2·a-1,年吸收量为111.54~251.05 kg·hm-2·a-1,均以大叶相思纯林最高,其次是混交林,印楝纯林最低.林分对营养元素的利用系数为0.34~0.39,循环系数为0.35~0.44,周转期为6.54~8.17 a.印楝纯林内N和P的归还量小,循环速率低;大叶相思纯林内N和P的循环速率较大,有利于林地养分的维持;混交林内养分吸收量和归还量为印楝纯林的186.2%和167.2%,N、P和K的循环速率大于印楝纯林,Ca的周转期短于大叶相思纯林的50%.印楝和大叶相思混交种植有利于林地土壤肥力的恢复和生产力的维持.
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2.
采用分层收获法,对元谋干热河谷20年生赤桉、新银合欢纯林及其混交林的生物量分配与空间结构进行对比研究.结果表明:混交林林分生物量(82.99t·hm-2)介于赤桉纯林(60.64t·hm-2)与新银合欢纯林(127.79t·hm-2)之间;混交林内赤桉单株平均生物量(44.32kg)较其纯林(29.58kg)提高了49.8%.新银合欢纯林的枝叶生物量分配比例(25.4%)显著高于赤桉纯林(8.9%),且地上部生物量分配比例(78.0%)显著高于赤桉纯林(73.4%).新银合欢纯林及混交林中新银合欢的根系主要分布于0~40cm土层,赤桉纯林及混交林中赤桉的根系则主要分布于0~80cm和0~60cm土层.混交林中新银合欢的侧根(中根、小根和细根)分配比例均高于其纯林,而赤桉则相反.新银合欢的引入在一定程度上可促进赤桉生长,尤其是增加其地上部生物量及表层土壤(0~20cm)中的侧根生物量,对该地区的水土保持具有重要意义.  相似文献   

3.
马尾松-阔叶树混交异龄林生物量与生产力分配格局   总被引:15,自引:1,他引:14       下载免费PDF全文
在25年生的马尾松林下分别套种1年生火力楠、闽粤栲、苦槠、格氏栲、青栲和拉氏栲幼苗,经过16a的培育后形成了郁闭的针阔混交异龄林。应用分层平均标准木收获法,建立相对生长方程,对上述6种混交林及马尾松纯林的生物量与生产力分配格局进行了研究。6个混交林的林木总生物量分别为216·41、260·06、221·92、221·65、246·13t/hm2及201·04t/hm2,而马尾松纯林的生物量为204·37t/hm2;其中地上部分占81·4%~83·7%,林分之间差异较小。在混交林中,处于主林层的马尾松生物量占林分总生物量的比例为73·5%~85·4%。在各林分生物量组成中,干材生物量最大,占总生物量的56·4%~64·8%,其它组分所占的比例依次为根(16·3%~18·6%)>枝(9·0%~16·9%)>皮(4·9%~7·3%)>叶(1·1%~4·3%)。生物量的空间结构在马尾松纯林和混交林之间存在明显差异,混交林中0~9m高度的生物量分配比例(67·1%)明显大于马尾松纯林(53·7%);混交林中,在2~3m高度就出现了枝、叶的分布,而马尾松纯林中则出现在13~14m。混交林中,阔叶树根系的生物量主要集中于0~40cm土层,占根系总生物量的74%~99%,60cm以下土层则根系分布很少,而马尾松的根系则主要分布于土壤表层(0~20cm)和60cm以下土层,分别占总生物量的26%和49%。各混交林分的净初级生产力为10·60~15·25t/(hm2·a),而马尾松纯林的生产力仅7·34t/(hm2·a)。林分净初级生产力(NPP)与光合器官/地上部分生物量比(X1)、细根生物量/地下部分生物量比(X2)存在显著的非线形关系:NPP=5·5745+1·1985X1+2·6479X22。在所研究的林分中,细根(d<2mm)生物量占林分总生物量的平均比例为0·2%,但细根生产力占林分净生产力的平均比达2·9%。  相似文献   

4.
云南热区几种阔叶人工林C储量的研究   总被引:9,自引:0,他引:9       下载免费PDF全文
李江  陈宏伟  冯弦 《广西植物》2003,23(4):294-298
为了研究云南热区几种主要阔叶人工林分的固碳能力,利用实际测定生物量的方法对西双版纳的几种阔叶人工林生态系统的C储量进行了研究。研究结果发现,山桂花纯林,西南桦纯林,高阿丁枫纯林,马尖相思纯林以及西南桦+山桂花混交林和西南桦+马尖相思混交林几种7年生人工林生态系统的C密度为109.37~136.97 t/hm2。几种人工林分的年固C量在3.97~7.03 t/hm2·a之间。表明:这些树种都是开展以固C为目标的生态造林项目的适合树种。  相似文献   

5.
田大伦  闫文德  梁小翠  刘铭 《生态学报》2013,33(13):4165-4171
采用样方收获法,利用实测数据,研究了湖南桃江血水草的生物量、碳含量、碳贮量及其分配特征.结果表明,血水草生物量为1744.70 kg/hm2,其中以地下根系生物量最高,为1278.63 kg/hm2,占血水草生物量的73.9%,且地下根系部分生物量与地上叶、茎部分生物量比值为2.74.血水草各器官平均碳含量为450.54 g/kg,从高到低排序为叶>茎>根.土壤层有机碳含量为6.63-38.50 g/kg,各层次碳含量分布不均,表层(015cm)土壤碳含量较高,并随土壤深度的增加而逐渐下降.生态系统碳贮量为101.19 t/hm2,碳库的分布格局为土壤层>植被层>枯落物层.植被层的碳贮量为0.79 t/hm2,占整个生态系统总碳贮量的0.78%;在植被层中,地下根系碳贮量为0.57 t/hm2,占植被层总碳贮量的72.2%,是植被层的主要碳库.枯落物层碳贮量较少,为0.22t/hm2,仅占整个生态系统的0.22%,它是维系植物体地上碳库与土壤碳库形成循环的主要通道.血水草生态系统中的碳贮量绝大部分集中在土壤中,土壤层碳贮量可观,为100.18 t/hm2,占系统总碳贮量的99.0%,是血水草生态系统中的主要碳库.研究结果,可为深入研究亚热带地区草本植物的生态功能提供参考.  相似文献   

6.
大叶相思的生态生物学特征   总被引:8,自引:0,他引:8       下载免费PDF全文
任海  彭少麟   《广西植物》1998,18(2):146-152
通过对大叶相思的生态生物学特征研究表明:大叶相思在我国热带、南亚热带各种类型土壤上及水土流失地区均能正常生长,冬季的低温是其主要限制因子;大叶相思叶片的光合速率高,纯林的垂直结构合理,生产力高,可以作为速生丰产林加以推广;在营造大叶相思混交林时,需注意其喜阳性和根系浅的特性;大叶相思林的根瘤生物量大,固氮力强,凋落物多,且营养元素的循环快,具有较好的改良土壤结构、提高土壤肥力和保持水土的作用;虽然大叶相思树干的生物量高,但其干形差,用材率不高,需加强修枝和直干形种类的研究和推广。  相似文献   

7.
桤柏混交林根系的研究   总被引:28,自引:2,他引:26       下载免费PDF全文
研究了桤柏混交林和柏木纯林的根系组成、根系形态特征和根量分布,并比较了这两种林型根系的生物量、生产力和氮元素在根库中的积累与分布规律。结果表明,不同物种、同一物种在不同林型中根系的重量、组成、形态和分布有较大差异。在桤柏混交林中,桤木根系分布线,侧根发达,细根相对比例少;柏木根系分布较深,在不同土层分布较均匀,吸收根和细根相对含量较高。与混交林相比,柏木纯林根系主要集中在0 ̄40cm土层中,吸收根  相似文献   

8.
西南桦纯林与西南桦×红椎混交林碳贮量比较   总被引:1,自引:0,他引:1       下载免费PDF全文
何友均  覃林  李智勇  邵梅香  梁星云  谭玲 《生态学报》2012,32(23):7586-7594
用乡土树种培育优质大径材已成为南亚热带满足林产品需求和生态保护的重要途径,如何通过优化森林经营模式提高人工林生态系统碳储量已成为关注的重点.对广西凭祥伏波林场13年生西南桦纯林、12年生西南桦×红椎混交林生态系统的碳素密度、碳贮量及其分布特征进行了比较研究.结果表明:(1)西南桦与红椎不同器官碳素密度变化范围分别为481.11-600.79 g/kg和451.24-543.42 g/kg,与中国南亚热带地区其他树种的碳素密度接近.相同树种不同器官之间以及不同树种相同器官之间的碳素密度差异显著(P<0.05).西南桦纯林与西南桦×红椎混交林灌木层的平均碳素密度分别为437.15 g/kg和436.98g/kg,混交林草本层平均碳素密度比纯林高,差异性显著(P<0.05).西南桦纯林土壤各层碳素密度均高于西南桦×红椎混交林,但差异不显著(P>0.05).(2)西南桦×红椎混交林乔木层碳贮量(29.144 t/hm2)略高于西南桦纯林(28.541 t/hm2),混交林生态系统碳储量(276.486 t/hm2)比纯林生态系统碳储量(305.514 t/hm2)低.西南桦纯林、西南桦×红椎混交林植被层碳贮量分别占其生态系统碳贮量的9.64%和10.58%,凋落物层分别占生态系统碳储量的0.19%和0.56%.(3)西南桦纯林和西南桦×红椎混交林土壤碳贮存主要集中在0-20cm土层,且随土层深度增加而减少.西南桦纯林土壤层(0-60cm)碳贮量(275.488 t/hm2)明显高于西南桦×红椎混交林土壤层(0-60cm)碳贮量(245.688 t/hm2),分别占其生态系统碳贮量的90.17%和88.86%.(4)西南桦×红椎混交林乔木层碳素年净固定量(2.428 t·hm-2·a-1)高于西南桦纯林乔木层碳素年净固定量(2.196 t·hm-2·a-1),表明混交林比纯林的碳固定速度快.  相似文献   

9.
鹤山人工林大叶相思种群遗传结构的AFLP分析   总被引:17,自引:1,他引:16  
AFLP分析种源相同,载种时间相同的不同群落中的在叶相思种群,结果表明,其杂合度在纯林中最高,豆科混交林次之,非豆科混交林中最低,种群遗传多样性主要分布在种群内,达90.73%,不同种群间仅为9.27%,纯林与豆科混交林的大叶相思两种群间遗传结构关系较远,纯林与非豆科混交林种群间的遗传关系较近,豆科混交林与非豆科混交林种群间遗传关系居中,表明人工林大叶相思种群总的遗传文化水平较高,但其遗传分化并非基因流作用所致,而是受人工选育与环境变化的影响。  相似文献   

10.
研究比较了南亚热带6年生格木(Erythrophleum fordii)、马尾松(Pinus massoniana)幼龄人工纯林及马尾松与格木混交林生态系统碳氮储量及其分配特征。结果表明,生态系统总碳储量依次为马尾松-格木混交林(137.75 t/hm2)格木纯林(134.07 t/hm2)马尾松纯林(131.10 t/hm2),总氮储量则为格木纯林(10.19 t/hm2)马尾松-格木混交林(8.68 t/hm2)马尾松纯林(7.01 t/hm2)。3种人工林生态系统碳氮库空间分布基本一致,绝大部分储存于0—100 cm土壤层,平均占生态系统总储量的81.49%和96.91%,其次为乔木层(分别占17.52%和2.69%),林下植被和凋落物层所占比例最小。林地土壤碳主要集中于表土层,其中0—30 cm土层平均碳储量为52.52 t/hm2,占土壤总碳储量(0—100 cm)的47.99%,土壤氮的分布则无明显规律。相比于纯林,与固氮树种混交的营林方式表现出更大的碳储存能力。3种幼龄人工林生态系统较低的地上与地下部分碳氮分配比,表明其仍具有较强的碳氮固持潜力。  相似文献   

11.
为明确混交林对木麻黄林地土壤肥力的改善作用,该文选取海南岛北部滨海沙地木麻黄纯林、木麻黄-琼崖海棠混交林、木麻黄-大叶相思混交林3种林分类型,通过采集土壤剖面样品,分析腐殖质层、0~100 cm土壤各层次的理化性质、分布特征及其林分间差异。结果表明:(1)与纯林相比,木麻黄-琼崖海棠混交林可显著提高腐殖质层以及20~40 cm土壤层pH,增幅分别为6.11%和5.97%。(2)与纯林相比,木麻黄-琼崖海棠混交林和木麻黄-大叶相思混交林均可显著提高各层土壤的有机碳和全氮含量,有机碳含量增幅分别为69.8%~358.3%和90.2%~908.3%,全氮含量增幅分别为44.1%~160.7%和31.4%~210.7%; 另外,木麻黄-琼崖海棠混交林还可显著提高0~100 cm各土层的全磷含量,增幅为20.8%~39.6%,而木麻黄-大叶相思混交林可显著提高20~100 cm各土层的全磷含量,增幅为25.0%~39.6%; 木麻黄-大叶相思混交林对腐殖质层速效养分的改善效果较好,而两种混交林均可显著提高各土层的速效钾含量。(3)方差分析表明,林分类型和土层深度对林下有机碳、全氮、全磷、有效磷、硝态氮和铵态氮含量均有极显著的交互作用影响。综上结果认为,木麻黄混交林对林下土壤肥力具有明显的改善作用。建议在构建木麻黄防风林时应重点考虑混交林模式,尤其是与大叶相思混交林的种植模式来更好地提升土壤肥力,以保障可持续生产。  相似文献   

12.

Key message

Mixed tree plantations are potential silvicultural systems to increase soil carbon storage through altering litter and root inputs and soil physiochemical properties.

Abstract

Afforestation and reforestation are major strategies for global climate change mitigation. Different tree species composition can induce diverse changes in soil CO2 emission and soil carbon sequestration in tree plantation. This study employed three plantations of monoculture and mixed Pinus yunnanensis and Eucalyptus globulus to estimate the effect of tree species composition on soil CO2 emission and soil organic carbon storage in subtropical China. We found that tree species composition had a significant effect on the soil CO2 emission and soil organic carbon storage. Soil CO2 emission was lower in the mixed plantation than in the P. yunnanensis plantation, whereas it was higher than in the E. globulus plantation. Differences in soil CO2 emission among the three plantations were determined by leaf litterfall mass, fine root biomass, soil available nitrogen, pH, soil bulk density, and soil C:N ratio. Soil organic carbon storage was 34.5 and 23.2 % higher in the mixed plantation than in the P. yunnanensis and E. globulus plantations, respectively. Higher soil organic carbon stock in the mixed plantation was attributed to lower C/N ratio of leaf litter and soil, greater fine root biomass and soil organic carbon content, and lower soil CO2 emission. We conclude that mixed tree plantation can enhance soil carbon sequestration, but can decrease or increase soil CO2 emission through altering litter and root inputs and soil physiochemical properties.
  相似文献   

13.
Cunninghamia lanceolata is important forest tree species in southern China, and its successive plantations resulted in degradation of soil fertility in pure stands, causing decline in forest productivity. How to improve productivity in C. lanceolata pure stands is a tough task. Usage of mycorrhizal fungi might be a plausible access to the task. The objective is to study the possibility of the endophytic fungus Serendipita indica (named formerly as Piriformospora indica) in culture of C. lanceolata. Seeds were sowed in plastic pots with river sand. When seedlings had two true leaves, hyphae suspension solution of S. indica was added to near the roots of seedlings in each plastic pot. Such pots with seedlings were placed in a greenhouse and normal management was carried out for the seedlings. Symbiosis effects on root development, nutrition uptake and allocation, and biomass accumulation of C. lanceolata seedlings under low phosphate were investigated. The results showed that S. indica could symbiose with C. lanceolata. The symbiosis did not result in significant changes in root system architecture under low phosphate, but significantly increased nitrogen and phosphorus levels in leaves under low phosphate. Although the symbiosis did not significantly increased nitrogen allocation in leaves under low phosphate, it significantly increased phosphorus allocation in leaves. The interaction between S. indica and C. lanceolata resulted in increase in total biomass under low phosphate and changes in biomass allocation between shoots and roots. The results suggested that S. indica helps host plants to absorb more nutrients under low phosphate and to allocate more nitrogen and phosphate to leaves, promoting plant growth; the fungus might be used in pure stands of C. lanceolata because of its large-scaled axenic culture.  相似文献   

14.
Soil degradation has been found in urban forests in Shanghai, especially in the pure plantations. Mixed plantations are considered to improve soil quality because they can stimulate organic matter cycling and increase soil carbon and nutrient content. Although soil microbes play crucial roles in regulating soil biogeochemical processes, little is known about how mixed plantations affect soil microbial communities, including bacteria, archaea, and fungi. Here, we evaluated soil chemical properties, abundances and compositions of soil bacterial, archaeal, and fungal communities, and enzyme activities in pure and mixed Metasequoia glyptostroboides and Bischofia polycarpa plantations, located in Shanghai, China. The results showed that soil available phosphorus content in the mixed plantation of M. glyptostroboides and B. polycarpa was significantly higher than that in pure plantations, while no significant difference was observed in the content of soil organic carbon, total and available nitrogen, total and available potassium among the three studied plantations. We found higher fungal abundance in the mixed plantation, when compared to both pure plantations. Moreover, fungal abundance was positively correlated with the content of soil available phosphorus. No significant difference was found in the abundance and diversity of bacterial and archaeal community among the three studied plantations. A similarity analysis (ANOSIM) showed that mixed plantation significantly altered the community composition of archaea and fungi, accompanied with an increase of alkaline phosphatase activity. However, ANOSIM analysis of bacterial communities showed that there was no significant group separation among different plantations. Overall, results from this study indicated that fungal and archaeal communities were more sensitive to aboveground tree species than bacterial community. Moreover, mixed plantations significantly increased the activity of alkaline phosphatase and the content of soil available phosphorus, suggesting that afforestation with M. glyptostroboides and B. polycarpa is an effective way to alleviate phosphorus deficiency in urban forests in Shanghai, China.  相似文献   

15.
Desertification land in Gonghe Basin of Tibetan Plateau, China accounts for 91.9% of the total land area. Vegetation restoration and reconstruction with desert shrubs in degraded ecosystem are effective ways to prevent and control desertification. However, the evaluation studies of fine root dynamic characteristics of desert shrubs and their contribution to carbon sequestration of plantation are limited. To gain a better understanding of vegetation restoration, the vertical distribution of fine root biomass, fine root decomposition, fine root turnover was investigated, as well as their coupling effect on carbon sequestration of plantation in three desert vegetation. The results estimated that the total decomposition time of fine roots of Salix cheilophila (S. cheilophila), Salix psammophila (S. psammophila), and Salix microstachya (S. microstachya) are 39.00, 27.99 and 35.95 years. Biomass carbon density for three Salix plantations ranged from 1.42 to 2.39 t/hm2, which showed that three Salix plantations in alpine sandy land are an important carbon pool. In addition, fine root biomass carbon density for the three shrub plantations varied significantly. Fine root biomass carbon density for S. psammophila reached the largest among the three plantations, which was 1.48 t/hm2, accounting for the ratio of 62% of the plantation total biomass carbon density. The results indicated that the root system of S. psammophila, especially the fine roots, was very developed, which was conducive to soil water transportation and carbon sequestration. Therefore, S. psammophila might be a better species for carbon sequestration of plantation in alpine sandy areas. The carbon input from the fine roots of the three shrub plantations through decomposition and turnover into the plantations accounts for 11.5% to 15.5% of total carbon sequestration of plantations. Therefore, the fine roots dynamics must be considered for long‐term carbon pool estimations in three Salix plantations, otherwise the total carbon sequestration of plantations would be underestimated.  相似文献   

16.
为揭示固氮树种土壤养分转化的酶学机制,对固氮树种[厚荚相思(Acacia crassicarpa)、黑木相思(A. melanoxylon)、卷荚相思(A.cincinnata)、大叶相思(A.auriculiformis)和马占相思(A.mangium)]及非固氮树种尾巨桉(Eucalyptusurophylla×E.grandis)人工林的土壤养分含量、酶活性及其相关性进行研究。结果表明,相思林40~60cm土层的pH均高于尾巨桉林;5种相思林土壤各土层的TP、TK含量均低于尾巨桉林,而20~40 cm土层的TC、TN含量均高于尾巨桉林,黑木相思林和马占相思林各土层的有效养分均显著高于尾巨桉林(P0.05)。0~10 cm土层中,相思林的土壤酸性磷酸酶和纤维素酶活性均高于尾巨桉林,大叶相思林的土壤脲酶、蔗糖酶、纤维素酶和芳基硫酸酯酶活性显著高于尾巨桉林(P0.05),卷荚相思林的土壤脲酶、纤维素酶、几丁质酶和淀粉酶活性显著高于尾巨桉林(P0.05)。相关分析结果表明,土壤脲酶、蔗糖酶和几丁质酶活性与AP显著负相关(P0.05),蔗糖酶和纤维素酶活性与NH4+-N显著负相关(P 0.05),脲酶、纤维素酶、芳基硫酸酯酶与土壤TK显著负相关(P0.05),几丁质酶活性与TN含量呈显著正相关(P0.05),土壤淀粉酶活性与NH4+-N呈显著正相关(P 0.05),过氧化氢酶活性与土壤TK含量呈显著正相关。可见,与尾巨桉人工林相比,在我国南方退化山地引种相思树可提高土壤关键酶的活性,对土壤有效养分具有明显改良作用,有利于退化地土壤的生态修复及人工林长期生产力的维持。  相似文献   

17.

Background and aims

Across the world, about 264 million ha forest plantations are monospecific. This practice has been found to cause site productivity and soil fertility decline in the regions where forests have been harvested several times. To mitigate these problems, mixed-species plantations, especially with broadleaved and coniferous species, are preferred. Understanding the effects of introducing broadleaved tree in monospecific coniferous plantation on ecosystem carbon (C) storage and soil organic C (SOC) stability is critical to improve our understanding of forest C sequestration and C cycle.

Methods

Plots were established in subtropical plantations with a randomized block design to examine the influence of introducing Michelia macclurei trees into pure Cunninghamia lanceolata plantation on biomass C storage, SOC storage of total, labile, and recalcitrant fractions (0–40 cm depth), and SOC stability.

Results

Introducing M. macclurei trees increased biomass C by 17.9 % and 14.2 % compared with monospecific C. lanceolata and M. macclurei plantations, respectively. Storage of different SOC fractions was not significantly different between monospecific C. lanceolata and mixed plantations. SOC stability in bulk soils was not affected, although it differed in 10–20 cm and 20–40 cm soil depth among three plantations.

Conclusions

Mixed species plantations can increase C sequestration, and in the subtropical forest ecosystem examined this was mainly attributed to an increase in biomass C.  相似文献   

18.
为探讨黄河三角洲刺槐白蜡混交对土壤细菌群落结构及多样性的影响,通过高通量测序技术分析比较了刺槐白蜡混交林及刺槐纯林、白蜡纯林土壤细菌群落结构及多样性。结果表明:(1)混交林与两种纯林土壤细菌群落共36门。酸杆菌门、变形菌门、放线菌门(相对丰度大于10%)为刺槐白蜡混交林与两种纯林土壤中共有的优势菌群;硝化螺旋菌门为刺槐纯林土壤中的优势菌群。不同人工林土壤中各门细菌相对丰度差异显著。(2)混交改变了土壤细菌群落结构,提高了细菌多样性。刺槐白蜡混交林土壤细菌物种数、Chao1指数、Shannon指数分别为1934.5、2629.1、9.1,显著高于两种纯林。(3)相关性分析表明,土壤含水量与放线菌门细菌呈显著正相关;pH与芽单胞菌门细菌呈极显著正相关,与酸杆菌门细菌呈显著负相关。细菌多样性与土壤含水量呈显著正相关,与速效钾、有机质含量呈显著负相关。研究表明,刺槐白蜡混交林土壤细菌群落结构与两种纯林之间有一定差异,多样性差异显著,刺槐白蜡混交改变细菌群落结构,提高细菌多样性。  相似文献   

19.
以固氮树种刺槐与绒毛白蜡、榆树、臭椿三树种的混交林及其纯林为研究对象,研究了刺槐与不同树种混交对土壤水分、盐分年动态变化的影响。研究结果表明:(1)刺槐与3个树种混交,刺槐臭椿混交林生长最好,均高于各自纯林。(2)混交林一定程度改善了土壤含水量及层次分布,土壤含水量整体趋势均表现出0~60 cm表层土中含水量高于各自纯林,而深层土壤含水量低的特点,只有8月份纯林和混交林的土壤含水量没有显著差别。不同树种在具体层次上略有差异;(3)混交林降低了土壤含盐量,改变了土壤盐分层次分布和年变化规律。不同月份间土壤含盐量随土壤深度、混交树种的变化而变化。深层土壤含盐量高,表层土壤含盐量低,混交林含盐量低于纯林且存在树种差异。混交林与纯林含盐量均雨季低,旱季高;但在某一具体月份各层次含盐量差别不大;不同土层含水量、含盐量与天然降水之间有明显的相关性,天然降水是混交林及纯林土壤水分的主要来源。  相似文献   

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