香果树(Emmenopterys henryi)种群种子雨、种子库及 实生苗数量的海拔梯度变化

香果树为我国Ⅱ级野生保护植物,由于原生境中香果树种群的数量迅速减少,目前已濒临灭绝,种群亟待恢复。研究了武夷山不同海拔的香果树种群种子雨、种子库及其幼苗存活现状,目的是阐明不同海拔地区的香果树种群自然更新的动态过程,寻找其更新脆弱的环节及其影响因素,为香果树自然种群的恢复提供理论依据。以分布于不同海拔高度（819、980、1 140及1 301 m）的香果树母树为中心,在其周围（东、南、西、北四个方位）布设种子雨收集框和土壤种子库样方,连续观测种子雨和种子库的动态,并对不同地表覆盖物中种子萌发及幼苗数量进行观测和记录。结果表明,武夷山香果树种群种子雨持续时间近2个月,尤其是11月底至12月中旬为种子雨高峰期;随着海拔的上升,香果树种子总密度以及虫蛀种子密度均显著降低,但千粒重以及饱满种子密度则有所增加;香果树土壤种子库为瞬时种子库,其水平分布以母树南侧和西侧种子密度较大,母树北侧种子密度最小。香果树种子的垂直分布主要集中于枯落物和苔藓层;3月时香果树土壤种子库中存留的饱满种子仅占种子散布后1.80%,而1年实生苗存活率为6.18%,土壤种子库的损耗是其种群自然更新困难的主要原因;不同地表覆盖物对香果树幼苗的存活产生显著影响,枯落物及苔藓层的幼苗死亡率显著高于土壤表面。建议清理林内枯落物及苔藓,增加林内裸露土壤的面积,减小地上草本的盖度,以减少种子霉烂、虫蛀的几率,增加香果树实生苗胚根与土壤接触的几率以及改善光照条件,促进香果树自然更新。     

不同育苗方式对移栽后侧柏和白榆幼苗根系生长的影响

不同类型苗木,具有不同的根系结构特征,其根系结构也将影响林木的生长和恢复生态系统的稳定性。以侧柏和白榆为研究对象,对移栽18个月后的种基盘苗与营养钵苗根系的生长进行了调查。结果表明:侧柏种基盘苗的总根长和平均直径比营养钵苗分别增加了316.20 cm和0.05mm,白榆苗则分别增加了651.54 cm和0.88mm。侧柏和白榆种基盘苗的根系表面积比营养钵苗分别增加了40.05%和73.04%。侧柏种基盘苗的根系总体积与营养钵苗的差异不显著,而白榆种基盘苗的根系总体积则比营养钵苗增加了54.70%。侧柏和白榆营养钵苗的一级侧根数量大于种基盘苗,增幅分别为42.31%和30.65%。对于侧柏来说,营养钵苗的根尖总数比种基盘苗的增加324个,但白榆苗差异不显著。各种处理的幼苗总根长与根系表面积都有显著相关性,但与根体积不具有显著相关性。营养钵苗的根系平均直径和根尖数量具有相对独立性,而种基盘的根系平均直径与总根长以及根体积均表现为显著相关。种基盘苗能提高侧柏、白榆幼苗的根冠比,促进幼苗株高、地径和主根的生长。采用种基盘苗进行植被恢复,由于其具有较大的根表面积和根长度,林木便具有了较大的吸收水分和营养的能力,以及较高的固结表层土壤能力。     

肯氏南洋杉实生苗培育技术及苗木质量分级

选择生长健壮的30～60年生成年肯氏南洋杉Araucaria cunninghamii母树进行采种,播种前种子去皮处理,幼苗期加强水肥管理和病虫害防治以提高实生苗苗木质量。以根长、地径和苗高为肯氏南洋杉1、2年生实生苗分级的质量指标,应用快速聚类法K-Means分别进行聚类分析,将苗木分为3级。1年生实生苗苗高(≤12 cm)、地径(≤2.5 cm)过小,不适合出圃造林; 2年生实生苗中的Ⅰ级苗和Ⅱ级苗根长、地径、苗高指标均符合出圃造林标准,可以出圃; 2年生实生苗中Ⅲ级苗地径、苗高依然未达到出圃标准,不建议出圃。     

光温互作和培养基中的附加成分对香蕉试管苗生长的影响

光照强度和温度对香蕉试管苗的长根数、总根数、苗高和青叶数影响极显著。光照强度为10μmol·m-2·s-1时,总根数和长根数最多;光照强度为25μmol·m-2·s-1时,青叶数最多,苗高随其升高而降低。温度为28℃时,总根数和长根数最多;26℃时,苗最高;32℃时,青叶数最多。培养基中添加85mg·L-1磷酸二氢钾后,试管苗的鲜重、干重、苗高、茎径、叶长、叶宽和青叶数增加;添加5mg·L-1腺嘌呤后,鲜重、茎径和叶长增加;添加4.8mg·L-1多效唑的发根数、最长根长、叶鲜重和茎径显著增加,苗高降低。     

闽楠容器苗各器官生物量的分配格局及水分特征研究

以1.5年生闽楠(Phoebe bournei)容器苗为研究对象,揭示其在不同高度阶段各器官的含水率及生物量的分配格局,为闽楠的培育及利用提供理论依据。研究表明：①随着高度的增加,闽楠容器苗的生物量及各器官生物量也随之增加,各器官生物量分配大小表现为根生物量＞叶生物量＞茎生物量＞枝生物量;其中茎生物量分配随着高度的增加而增加,叶生物量分配则是随着高度的增加呈现先增加后减少的变化曲线,根生物量分配随着高度增加而先减少后增加。苗高与基径,树高、基径与叶、干、根、茎（干+枝）生物量以及地上、地下和单株生物量都具有极显著相关关系;树高、基径与枝生物量相关关系不显著;②高度为20~25 cm的闽楠幼苗其茎、叶的含水率达到最大峰值50%,其变化曲线相对比较平稳,而幼苗高度处于35~45 cm时根部含水率的最大峰值是61%,变化曲线振幅相对较大;③植株根含水率与茎、叶、地上生物量积累呈显著正相关,而叶含水率则与植物各器官生物量呈显著负相关。     

沙丘坡面异质性小生境中准噶尔无叶豆对水分条件变化的响应

以多年生克隆植物准噶尔无叶豆(Eremosparton songoricum(Litv.)Vass.)为材料,选择河边(A种群)和沙漠腹地(B种群)两个沙丘,研究从沙丘底部至顶部,沿着水分条件连续变化的梯度,准噶尔无叶豆在分株种群和克隆片段水平的形态变化特征,以期能揭示其在异质性小生境内利用水分资源的对策,并为准噶尔无叶豆的资源保护、培育和利用提供有意义的参考.研究发现:①在分株种群水平,A种群分株高度及地上部生物量显著高于B种群,而B种群地下部(根)的生物量则显著高于A种群;②在克隆片段水平,随着沙丘底部至顶部,A种群与B种群克隆片段高度和地上生物量都减小,而分株密度都增加,但升高或降低的强度不同;A种群根的生物量和长度增加,主要是水平的位于地下0～10 cm层面的直径10mm以下的根长度增加,而B种群根的生物量减小,但长度却在增加,主要是水平的位于地下0～10 cm层面的直径6mm以下的细根长度增加.水平细根的长度增加,更利于无性系进行广泛觅食,同时促进无性系尽快越过不利生境斑块和提高分株在有利生境中的生长概率.结果表明,准噶尔无叶豆对沙丘坡面水分条件连续变化的异质性小生境存在分株种群及克隆片段两个等级的可塑性响应,并通过可塑性变化适应了沙丘坡面水分条件的分异.     

濒危植物香果树幼苗空间格局及数量动态研究

采用相邻格子样方法采集数据,应用理论分布模型、分布系数法、Morisita格局指数法、聚集强度指数以及Greig-Smith区组均方方法研究了香果树幼苗种群空间格局,结果表明:(1)濒危植物香果树幼苗呈聚集分布,聚集强度受区组尺度的影响较大,随尺度的增加而减小;不同幼苗种群格局强度随着纬度增加,也呈现下降的趋势。(2)Greig-Smith区组均方法研究显示,香果树种群在8~16m2和50~64m2处聚集;香果树幼苗大小结构呈现出高度在0~40cm范围内幼苗较多现象,但经过强烈的环境筛选,大部分生长未达到120cm而死亡。(3)主成分分析表明,香果树幼苗受乔木盖度、灌木盖度、光照强度以及大气的温湿度影响较大。因此,建议加强香果树原生生境的保护,严禁对香果树幼苗进行滥砍、滥伐、放牧等破坏;通过降低乔木层和灌木层盖度,清理林下枯落物、苔藓等,增加林下光照强度,建立小面积林窗,促进香果树幼苗发育。     

秦岭南坡林窗大小对栓皮栎实生苗构型的影响

以秦岭南坡栓皮栎天然次生林间伐后形成的不同大小林窗实生苗为材料,采用典型抽样法调查林窗大小对栓皮栎实生苗枝系构型、叶片特征及其垂直分布的影响.结果表明: 林窗大小显著影响了栓皮栎实生苗的地径、树冠面积,林窗大小与地径呈显著正相关,与树冠面积呈显著负相关;林窗大小对实生苗苗高、冠长、树冠率均无显著影响;实生苗总体分枝率、逐步分枝率、枝径比均表现为大林窗>中林窗>小林窗>林下,不同林窗大小实生苗一级枝在垂直方向上主要分布于干的中、上部,直径较大的一级枝主要分布在中下部,一级枝倾角均随苗高的增高呈先增加后降低的趋势;随着林窗面积的增大,实生苗的叶长、叶宽和单叶面积逐渐〖JP2〗下降,平均单株叶数、相对高度上的总叶数增加,叶长宽比在不同大小林窗下均保持稳定,相对叶数均在干的中上部分布较多,叶面积指数与相对叶总数的变化一致;中林窗实生苗地径与大林窗无显著差异,但苗高较高,利于栓皮栎种群更新及培育优质干材.在栓皮栎林经营管理过程中,需确定合适的间伐强度增加中林窗数量,促进栓皮栎实生苗更新以及培育优质干材.     

岷江干旱河谷多苞蔷薇生长与繁殖特征

通过大面积野外踏查和样方调查,分析了岷江干旱河谷乡土灌木多苞蔷薇种群的分布、生长繁殖特征及其空间差异性.结果表明,多苞蔷薇广泛分布于岷江干旱河谷汶川绵褫至松潘镇江关约170 km长、海拔1 200～2 600 m的空间范围内,其株高、基径、年龄、冠幅、萌蘖株数和结实量的平均值分别为(123.33±3.13) cm、(12.49±0.40) mm、(3.34±0.16) a、(1.30±0.13) m²、(5.07±0.39)株/丛和(171.47±25.90)果/丛.随着海拔高度和纬度增加,其株高、基径、冠幅和结实量增加,而萌蘖株数没有显著变化.多苞蔷薇有性结实和无性萌蘖能力随环境空间变化的不匹配性与其生长密切相关,可能与多变环境下资源分配利用的平衡机制有关;以丛进行年龄统计,多苞蔷薇缺少幼龄个体,种群发展并不稳定,但随海拔高度升高,萌蘖株年龄结构均呈“金字塔”型,且较大龄级的萌株比例略增,显示出良好的种群持续性.综合分析发现,多苞蔷薇生长与繁殖的空间差异性是对干旱河谷长期适应的结果,既为种群持续提供了保证,也为种群扩大奠定了基础.     

桂林岩溶石山阴香种群结构的研究

探讨了桂林岩溶石山阴香种群的高度、胸径和冠幅结构以及三者间的相互关系,并采用分异指数量化了种群个体间高度、胸围和冠幅结构的差异程度。结果表明:阴香种群个体高度集中分布在2-8m;胸径集中分布在2-6cm;冠幅多集中分布在1-4m,少数分布在5-7m之间;阴香种群个体的高度、胸围和冠幅多数为中等分异;阴香种群以幼树和小树个体占多数,自然更新能力较好,处于稳定的增长状态,这将有利于增加种群结构的复杂性和稳定性。     

Comparison between clonal and sexual plantlets of Detarium microcarpum Guill. & Perr., a savanna tree species in Burkina Faso

An understanding of the proportion of true seedlings, seedling sprouts and root suckers in the forest is essential for directing the genetic composition of the future crop. We conducted a study to determine the difference between these plantlets of Detarium microcarpum based on morphological characters and carbohydrate contents in leaves and roots. For individuals ≤50 cm in height, root suckers had the highest values for height, stem length, internode number, root diameter, rachis length and leaflet number. The concentrations of starch and total nonstructural carbohydrates in the roots of seedling sprouts were superior. Plantlets did not differ in the concentration of leaf carbohydrates. For individuals >50 cm in height, root suckers had larger values for stem length, root diameter, leaflet length and width. Roots of seedling sprouts showed higher concentrations of soluble sugars and total soluble sugars. True seedlings were distinguished from seedling sprouts and root suckers using all morphological traits except collar diameter and leaflet number. Root suckers and seedling sprouts showed a closer morphological resemblance; thus resulted in slightly more than 50% discrimination success. In conclusion, discrimination between seedling sprouts and root suckers appeared to be more difficult than between true seedlings and clonal plantlets.     

Allometric relationships for Eucalyptus nitens (Deane and Maiden) Maiden plantations

Allometric relationships between stem, leaf area and crown dimensions were determined for Eucalyptus nitens (Deane and Maiden) Maiden using 81 trees sampled from 13 post-canopy closure sites and 34 trees sampled from 6 pre-canopy closure sites. These sites differed in site quality, stand age, fertiliser treatment, stand density and levels of weed infestation. Overall, tree age ranged from 2 to 13 years, tree height from 1.4 to 26.1 m and diameter at breast height from 0.6 to 38.7 cm. Pre-canopy closure trees exhibited site-specific relationships which were to some extent confounded with tree age. However, post-canopy closure trees had relationships which were independent of site, age and silvicultural treatments. Strong relationships between structural components were found for both stem and crown. Stem diameter at breast height was non-linearly related to tree height and crown length. Stem sapwood area (breast height or crown base) could be predicted from stem cross-sectional area. For post-canopy closure trees, a functional relationship between sapwood area (breast height and crown base) and leaf area was site-independent. The lack of specificity in terms of both site and management techniques enables these relationships to be applied generally to E. nitens plantations in Tasmania.     

Comparison of radial increment and volume growth in stems and roots of Quercus petraea

Dendrochronological studies dealing with roots, stems and branches are very rare or often take the form of short notes. The difficulties of detecting rings and of quantifying the radial growth in roots have already been described for various species. In oak the anatomical root structure differs from stemwood. The roots are radial-porous or diffuse-porous, and there is often no clear distinction between individual rings. In our study visual and radiographic techniques were used to examine radial increment in roots of sessile oak (Quercus petraea L.) which was compared with radial growth in branches and along the stem. Coarse roots were cut from four 30- to 34-year-old trees that had been uprooted mechanically and disks were taken at different distances from the stem-root base. Ring widths were measured in the stem at height of 0.3 m, at breast height (1.3 m), beneath the crown, in branches of the crown, and in roots every 20 cm. The ring widths were cross-dated, and the heterogeneity of growth within a root and within the root system were analysed. Asymmetric growth frequently occurred in roots so that ovals, I-beam and T-beam shapes were developed. With the method used in our study the annual growth layers close to the central cylinder could be distinguished as well as beneath the bark. Pointer years were detected in all sections of the tree and permitted correction of ring widths in roots. Root system, stem and branch showed a basic similarity in their radial sequence of ring width. The annual biomass increment was weaker and more variable with several consecutive changes in the roots than in the stems. The root/shoot ratio reached a minimum rather early, beginning at the cambial age of 20 years. This revised version was published online in June 2006 with corrections to the Cover Date.     

Community Structure Features of Emmenopterys henryi (Rubiaceae) in Dapanshan National Natural Reserve of Zhejiang Province

Emmenopterys henryi , an endemic species in China , being one of the grade Ⅱ national key conservation rare and endangered plants . Based on the data collected from sample plots, the community structure features in Dapanshan National Natural Reserve of Zhejiang Province were analysed. The results showed that the companion species of E . henryi were evergreen and from Lauraceae and Camelliaceae . The richness index , species diversity index and evenness index in the E. henryi community were low, but ecological dominance index was high . In the community , dominant life form, dominant leaf size , dominant leaf form, dominant leaf texture was phanerophytes, mesophyll , single leaves, herbaceous leaves respectively and whose percentage was 75.9%, 53.97%, 74.70%, 63.86% respectively. The second leaf sizewas microphyll, whose percentage was 36.51%. The spatial patterns of E. henryi population mostly conformed to clump distribution, and the tree layer could be easily divided into 3 sublayers in terms of height. The regeneration of population of E. henryi was poor and the population size was declining.     

Altered growth with blue rings: comparison of radial growth and wood anatomy between trampled and non-trampled Scots pine roots

Our understanding of wood anatomy and radial growth in tree roots remains very incomplete, particularly with respect to how ecological factors affect root growth at a relatively small spatial scale, i.e., within a single root system. Here, we compared root growth with and without trampling exposure on a hiking trail. We conducted a quantitative analysis of radial growth and wood anatomical changes, including compression wood (CW) and blue rings (BRs), of two adjacent Scots pine roots in high resolution. A total of 32 cross sections from two roots sampled every 25 cm at the same distance from the respective stem were compared. The buried root (B) was completely buried and had an unexposed segment on a hiking trail. In contrast, the exposed root (E) had an exposed segment that was trampled. 1706 growth rings were analysed for the common period 1954–2015.We found that the volume of the E root in the trampling zone exceeded ten times the volume of the B root. The root surface area of the exposed sections of the E root was on average 14 times larger than that of the unexposed B root section in the trampling zone. The highest number of missing rings was found in the B root. Root sections sampled at the shortest distance from the stem showed the highest coherence in radial growth pattern, which decreased with increasing distance from the stem.BRs were recognized for the first time in tree roots. In total 25 tree rings contained BRs, and their occurrence was restricted to cross sections of the exposed root. BRs were formed over the course of 25 calendar years, i.e., in 40% of tree rings from the common period 1954–2015. Mean monthly temperatures for the years with and without BRs formation showed that colder November (p = 0. 012) and, albeit only slightly, colder September (p = 0.051) temperatures favoured formation of BRs in Scots pine roots. In addition, mean monthly precipitation in July (p = 0.017) was significantly higher for BR years, suggesting an impact of moisture availability on the formation of BRs in Scots pine roots. The study highlights a high rate of growth discrepancies within a single root system. Further, altered growth of trampled roots with high proportions of BRs opens a new challenge for future dendroecological studies on tree roots.     

Growth development of a balsam fir (Abies balsamea (L.) Mill.) originating from layering

After a disturbance, balsam fir stands (Abies balsamea (L.) Mill.) regenerate primarily by seedlings, but layering is also known to occur and to contribute to the subsequent population base. We examined in detail the lower part of one balsam fir stem, stump and roots in order to: reconstruct the establishment of one mature balsam fir with evidence of layer-origin. The life history of this tree was then reconstructed by measuring tree-ring widths, dating all the sections, and by identifying the presence or absence of pith to differentiate between stem and root structures. We located a pith structure in this tree 51 cm below ground level. This lowest section with pith was characterized by a diameter of only 3 mm and contained 40 concentric tree-rings, suggesting that it originated from a branch. Radial and height growth measured were small until the beginning of 1930s. This period was abruptly followed by an increase in growth in both height and diameter as well as a massive production of adventitious roots, probably produced by partial harvesting of the parent tree/stand.     

去叶对水曲柳和落叶松苗木当年生长及细根动态的影响

叶片被取食会导致树木生长发育和生理代谢发生显著的变化。目前对细根动态如何对叶片损失做出响应的了解仍然有限。以生物量分配和高生长策略不同的水曲柳(Fraxinus mandschurica)和落叶松(Larix gmelinii)苗木为研究对象, 进行了不同强度的人为去叶处理(叶面积去除0% (对照)、40%和80%), 采用微根管技术对细根(直径≤2 mm)生产和死亡的季节动态进行了定量观测, 同期测定了地上部分(苗高和地径)的生长。结果表明: 1)去叶降低了两树种苗高(统计上均不显著)和地径的生长, 但是对苗高生长的影响小于地径。随着去叶强度的提高, 苗木地上生长受到的影响加大, 生长季末期水曲柳苗高比对照降低3.3%-12.1%, 地径降低5.7%-23.1%; 而落叶松苗高和地径降低相对较少(< 12%)。2)去叶显著地减少了水曲柳和落叶松细根现存量(p< 0.001), 其相对增长量((去叶后现存量高峰-去叶当日现存量)/去叶当日现存量)随着去叶强度的加大而降低。3)与对照相比, 去叶后两树种细根生产量显著减少(p< 0.05), 而细根死亡量在不同处理间没有显著差异。综合来看, 去叶对水曲柳地上部分(特别是地径)生长影响较大, 而对落叶松地下部分(主要是新根)生长影响较大。研究结果为理解冠层碳供应对根系动态影响的种间差异及其机制提供了必要的理论依据。     

地上竞争对林下红松生物量分配的影响

采用整株收获法研究林下红松地上、地下生物量分配特征及地上竞争对其生物量分配和生物量相对生长的影响。结果表明,(1)将整个树冠划分为等长的上、中、下三层,活枝生物量从上层到下层逐渐增加,而针叶生物量主要集中在树冠中下层且在中下层的分布无显著差异(P>0.05),随着地下生物量逐渐增加,小细根(<2 mm)、粗细根(2-5 mm)的比例逐渐减小,而粗根(>5 mm)所占比例逐渐增大;(2)地上竞争强度与胸径、树高呈显著指数相关(P<0.001),随着竞争强度增大,胸径和树高均逐渐减小,树高胸径比与竞争强度呈显著线性相关(P<0.05),而树冠比率与竞争强度之间无显著相关性(P>0.05);(3)随着竞争强度增大,树干生物量占整株生物量的相对比例逐渐减小,而细根(小细根和粗细根)生物量相对比例逐渐增大,活枝、针叶及粗根生物量相对比例与竞争强度相关性并不显著(P>0.05);(4)红松根冠比均值为0.15且根冠比并不受地上竞争的影响,茎叶比与竞争强度的相关性亦不显著(P>0.05);(5)地上竞争显著影响红松地上各器官生物量的相对生长,且竞争强度与生物量呈显著负相关(P<0.001)。     

濒危植物香果树（Emmenopterys henryi）种群结构与动态

香果树（Emmenopterys henryi）为我国特有种,属国家Ⅱ级重点保护植物。主要分布于江西、安徽等地亚热带中山或低山区的森林中。文中对武夷山自然保护区4个群落类型的香果树种群数量动态进行了系统研究,统计其径级结构、建立生命表,应用谱分析方法分析种群数量的动态变化,并对影响该种群结构的环境因子进行了分析。结果表明：（1）武夷山自然保护区香果树种群基本属于衰退型,幼苗少,中树、大树个体丰富。不同生境的种群密度存在差异,其中香果树纯林密度较大（8.45±0.818株·100 m^-2）,幼苗数量较多,更新较好（幼苗密度1.05±0.326株·100 m^-2）,针阔混交林中香果树密度较小（6.58±0.76株·100 m^-2）,无幼苗;（2）香果树种群中树死亡率较高,其他各级死亡率较低;（3）香果树种群自然更新过程存在明显的周期。（4）对影响香果树种群结构的13个环境因子通过主成分分析（PCA）发现,较高的光强、土壤含水量、弱酸性土壤、土壤有机质、大气湿度、大气温度和适量的人为干扰对种群增长发挥有利影响,而高海拔、阴坡、陡坡度和大的乔灌层盖度对香果树种群增长则发挥不利影响。（5）充分利用香果树幼树喜荫、大树喜光的特点,加强现有林分的就地保护,特别是具有结实能力的母树,并就地采种育苗,扩大人工种群数量。