海南省万宁市野生荔枝资源种群特征研究

野生荔枝是荔枝(Litchi chinensis Sonn.)进行品种改良与创新的重要基因库,该研究通过对海南万宁自然保护区内、外野生荔枝资源进行实地调查,并用空间分布格局、种群径级结构、静态生命表、存活曲线等方法进行比较分析,以揭示野生荔枝种群在保护区内、外的分布规律及其种群动态趋势,为野生荔枝资源的保护提供依据。结果表明:(1)海南万宁自然保护区内、外野生荔枝种群均为聚集分布,且非自然保护区聚集程度比自然保护区的聚集程度更为明显。(2)径级结构分析发现,自然保护区内野生荔枝种群结构为增长型,种群生命期望值整体上基本随径级增加呈递减趋势,存活曲线呈近直线型,说明自然保护区内的野生荔枝种群处于相对稳定的状态;而自然保护区外的野生荔枝种群为衰退型。(3)群动态预测结果也显示,自然保护区内外的野生荔枝种群的动态变化指数(Vpi′)以及随机干扰风险极大值均趋于零,但自然保护区外的值均大于区内,说明保护区外受到的敏感性比自然保护区内更强,即保护区外野生荔枝种群的生存环境已受到严重的人为干扰威胁。研究认为,在自然保护区外,野生荔枝种群幼树的严重缺失不仅与野生荔枝种群自身的更新机制有关,更重要的是生存环境的破坏和人为砍伐导致野生荔枝种群结构发生变化,野生荔枝林面积下降。     

荔枝蝽田间种群消长动态及空间分布型研究

对海南省儋州地区荔枝园中荔枝蝽Tessaratoma papillosa(Drury)种群动态及空间分布进行了系统调查与分析。结果表明,在2005—2006与2008—2009年期间,荔枝蝽的产卵高峰期分别为4月与2月,若虫高峰期为3月,成虫高峰期分别为4月及7月;分析表明荔枝蝽各虫态在荔枝园中均为聚集分布,且成虫个体间相互排斥。     

东阿拉善珍稀濒危植物绵刺种群结构与点格局分析

绵刺(Potaniniamongolica)是古老的单种属残遗种,在中国分布于西北荒漠区,为国家二级重点保护植物。为了揭示不同类型绵刺种群的结构、种内或种间的相互作用以及对环境的适应策略,该研究选择集中分布区的绵刺种群(阿拉善种群,在砾石地大面积分布)和分布区东缘的种群(鄂尔多斯种群,在沙地呈斑块分布),采用大小结构分析法将绵刺植株分为3个等级(I级:d≤10 cm; II级:10 cm 30 cm, d为株高×冠幅长×冠幅宽的立方根),运用空间点格局分析的Ripley’sK函数对2个绵刺种群的年龄结构、空间分布格局以及各大小级间空间关联性进行分析。结果表明:1)阿拉善绵刺种群以II级植株为主,占69%,I级植株虽仅占5%,但由于无性生殖的存在,种群仍呈稳定状态;而鄂尔多斯种群II级与III级植株占比相近,无I级植株,以种子进行更新受限。2)阿拉善种群总体呈随机分布,其中I、II级植株在中小尺度以聚集分布为主,在大尺度呈随机分布;鄂尔多斯种群不论是总体还是各大小级均以聚集分布为主,与种间竞争有着较大的关系。3)阿拉善种群III级个体与I级...     

荔枝园荔枝蒂蛀虫常规爆发期的种群空间分布格局

荔枝蒂蛀虫Conopomorpha sinensis Bradley是我国最重要的荔枝、龙眼蛀果类害虫之一.为了准确把握荔枝园中荔枝蒂蛀虫的分布规律,以便对该虫的危害盛期进行预测预报和采取防治措施,本文采用生物学统计方法和地理统计学方法对荔枝园中荔枝蒂蛀虫卵、蛹和成虫的空间分布特征进行了研究.结果显示:2019年5月和6月,无挂果荔枝树的有虫株率分别为67.74％和68.57％,而挂果荔枝树的有虫株率达90.91％和91.67％.该时期荔枝园内荔枝蒂蛀虫蛹的半变异函数最佳拟合模型均为球型模型,成虫均为指数模型,而卵在5月和6月的拟合模型分别为球型模型和指数模型.不同时期荔枝蒂蛀虫各虫态的拟合变异函数模型虽存在一定差异,但所指明的空间分布格局均为聚集分布.引起荔枝蒂蛀虫卵和蛹聚集分布主要由生境和自身生物学特性共同所致,但当虫口密度降低时,成虫的聚集分布仅由生境引起.另外,用Kriging插值方法生成的空间分布图显示荔枝蒂蛀虫卵、蛹和成虫均明显趋向于以挂果荔枝树为中心的聚集分布,聚集斑块由聚集中心区域向四周逐渐减小.5月至6月,荔枝蒂蛀虫卵、蛹和成虫在荔枝园内趋向以挂果荔枝树为中心的聚集分布,不同时期荔枝园内荔枝蒂蛀虫的聚集分布成因随种群密度变化有所不同.     

毛乌素沙地油蒿种群点格局分析

油蒿(Artemisia ordosica)是我国北方农牧交错带的重要固沙植物,研究其种群格局对理解种群生态过程和改善流沙治理技术具有重要意义。点格局分析法是20世纪末发展起来的多尺度空间格局分析方法。通过研究油蒿种群的点格局,发现油蒿种群的空间分布格局和空间关联性同空间尺度、植株形体大小以及生境3种因素有密切联系。在较小的空间尺度上,油蒿种群倾向于非随机分布(集群分布比均匀分布常见),个体间有较强的空间关联(正关联比负关联常见);当空间尺度大于临界值后,油蒿种群倾向于服从随机分布,同时种群的空间关联性减弱。幼小油蒿植株具有明显的集群分布趋势,高大植株则表现出聚集强度的降低趋势;形体大小的差异越大,植株间的正关联关系越弱,或者负关联关系越强。与固定沙地相比,半固定沙地油蒿种群的集群分布现象更加明显,同时种群的空间正关联关系更强。研究结果表明,当通过移栽油蒿成体治理流动沙地时,应尽量将其栽种成集群分布而非均匀分布的形式,以提高植株成活率。     

荔枝蝽的实验种群生命表

通过田间笼罩试验 ,排除天敌等生物因子的作用 ,建立了荔枝蝽实验种群生命表 ,分析结果表明 ,荔枝蝽产卵期可持续 1 8周 ,产卵概率呈明显的偏态分布 ,且出现 2个产卵高峰 ;各虫态自然存活率很高 ,均在 95 %以上 ,其实验种群趋势的指数约为 84 0。     

山东百部种群的空间分布格局

采用扩散系数的t检验、Poisson分布的x^2拟合检验及Morisita指数的F检验研究了山东百部（Stemona shandongensis）种群的空间分布类型;用负二项参数（K）、Cassie指标（1／K）、Green指数（GI）和Lloyd的平均拥挤度（m^＊）与聚块性指标（PAI）研究其聚集强度。同时利用上述指数研究了取样面积、苗龄对山东百部种群分布格局和聚集强度的影响,分析了分布格局形成的原因。结果表明,总体上山东百部种群的分布格局类型为集群分布,种群聚集尺度多为8m^2;当年生植株种群聚集强度高于多年生种群;整个种群分布格局的演化趋向于高聚集强度的集群分布。     

龙眼和荔枝卷叶蛾类种群动态及其群落结构

调查结果显示,在广西南宁市和崇左市的部分龙眼和荔枝园中,危害龙眼和荔枝的卷叶蛾类有3科20种,其中龙眼园的卷叶蛾类有3科16种,荔枝园有2科17种,2类果园发生的种类有所不同。20种中,9种过去尚未见报道。龙眼园和荔枝园卷叶蛾类群落结构的均匀度指数较低,分别为0.298 2和0.406 3,说明在群落中有某种卷叶蛾的种群数量相当大,各种类数量分布不均一,有某个种群数量相当大。2类果园卷叶蛾类群落的多样性相比,荔枝园要高于龙眼园。龙眼园卷叶蛾类的优势种为三角新小卷蛾Olethreutes leucaspisMeyrick(优势度指数d=0.813 2),荔枝园分别为三角新小卷蛾(d=0.722 6)和灰白条小卷蛾Dudua aprobola(Meyrick)(d=0.102 8)。2类果园种群数量较大的种类均为三角新小卷蛾、灰白条小卷蛾和圆角卷蛾Ebodo cellerigeraMeyrick。各月份卷叶蛾类发生的总数量均以龙眼园高于荔枝园。     

仙湖苏铁种群年龄判断及年龄结构特征

根据苏铁类植株体残存的营养叶叶基数、开花痕数以及生长单元发生率等茎干特征, 建立了仙湖苏铁种群年龄判断方法,计算出该种群年龄. 进一步采用年龄结构图、年龄分布 曲线和曲线估计等方法,从基株和无性系水平探讨了仙湖苏铁种群的年龄结构特征.年龄结构 图显示,仙湖苏铁无性系种群为稳定种群,基株种群为衰退种群;年龄分布曲线和曲线估计结 果则表明仙湖苏铁无性系和基株种群均为衰退种群. 综合3种方法的分析结果,仙湖苏铁 种群为衰退种群,必须采取一定措施予以保护.     

高寒草地狼毒与阴山扁蓿豆种群的空间格局

不同的格局类型和空间关联性可以反映出干扰状态下天然草地植物种群的资源环境适应对策.采用草地群落学调查与点格局分析方法,分析了祁连山北坡高寒草地优势种群更替过程中狼毒和阴山扁蓿豆种群的空间格局及其种间关联关系.结果表明:随着草地退化程度加剧,狼毒种群地上生物量、密度、植株高度持续增加,空间分布类型由聚集分布转变为非聚集分布,阴山扁蓿豆种群高度逐渐降低,种群密度和地上生物量先增大后减小,空间分布类型由均匀或聚集分布转为随机分布;狼毒和阴山扁蓿豆的空间关联性由显著正关联区间不断增大转为关联性不显著.草地退化过程中群落上层禾草西北针茅种群的衰退以及狼毒和阴山扁蓿豆的植株高度差异,导致了植物对光资源的非对称性竞争,使二者的资源分配策略发生了调整,并影响了空间分布格局和种间关联性.     

太白山太白红杉种群空间分布格局研究

针对研究区太白红杉种群分布特点,设置了15个20 m×20 m样地,采用离散分布理论拟合和聚集强度测定方法,对太白红杉种群空间分布格局进行了比较分析.太白红杉种群空间分布格局属于聚集型,在25m²和100m²面积上聚集强度较大.随海拔上升,聚集强度降低;在分布下限地区,聚集最强的尺度较小,中下部地区较大;阴坡的种群分布聚集强度大于阳坡.随着年龄增加,种群分布由聚集型向随机型过渡,强度减弱;聚集性最强的格局尺度在幼、老龄期为150m²,中龄期则为100m².分布格局受生物学特性、年龄阶段、群落组成、环境因素等影响.在未来保护与利用中,低海拔和阴坡应该适度间伐乔木层非目的树种;在高海拔和阳坡地区,适度间伐灌木,促进群落内团块状更新;育林作业面积应该与聚集性最强的面积相适应.     

皖南山区南方红豆杉种群不同龄级立木的点格局分析

采用点格局分析方法O-ring统计,利用Programita软件对皖南山区霞乡村和仙寓山的南方红豆杉种群不同龄级个体的分布格局及其相互关系进行了分析.结果表明：霞乡村南方红豆杉种群各尺度下均表现为随机分布,而仙寓山南方红豆杉种群在2～25 m的空间尺度上呈随机分布,＜2 m尺度上为集群分布;仙寓山种群Ⅰ龄级在＜5 m尺度上呈集群分布,而高龄级个体在较多尺度上有偏离随机分布的倾向.随着龄级差距的加大,南方红豆杉幼龄个体与其他个体的空间负关联逐渐显现,而相邻龄级在空间分布上相互独立,关联性很小.南方红豆杉种群的这种空间关系有利于其对资源环境的有效利用,随着个体的生长,南方红豆杉种群的空间分布有一个从聚集到随机的过渡.     

太白红杉林径级和龄级结构的研究

在秦岭太白山,选取太白红杉3个林型组中的8种林型,设置20个样地,用样方分析法进行调查,共做样方180个,主要分析了太白红杉8种林型的径级和龄级结构及其密度变化规律等,根据它们的径级和龄级结构表现特征,划分为3种类型,结果表明用径级和龄级对太白红杉林进行客观描述存在着一致性,太白红杉年龄均值浮动区间的大小,说明太自红杉林种群在发育上存在着时间差异,还对造成太白红杉8种林型的这一径级和年龄结构的形成原因进行了探索,提出了相应的保护策略。     

华西雨屏区白夹竹分株种群的点格局分析

采用点格局分析方法对华西雨屏区白夹竹分株种群的分布格局以及不同龄级分株之间的相互关系进行分析.结果表明：白夹竹分株种群在0～0.32 m空间尺度上呈集群分布,0.64～4.48 m空间尺度上呈均匀分布,>4.48 m空间尺度上呈随机分布.各龄级分株种群在0～8.00 m空间尺度上主要呈随机分布,龄级间略有差别.其中,Ⅰ龄级与Ⅱ、Ⅲ龄级分别在1.76～4.16 m、0.32～4.16 m尺度上接近或达到空间负关联,与Ⅳ龄级在0.32～3.04 m尺度上呈显著空间负关联,表现为随着龄级差距的加大,幼龄分株与高龄级分株的空间负关联增加.白夹竹分株种群的空间格局及不同龄级分株之间的相互关系由尺度、分株龄级及环境因素共同决定.     

Point pattern analysis of Phyllostachys bissetti ramet population in West China Rainy Area

In this paper, point pattern analysis was conducted to study the spatial distribution of Phyllostachys bissetii ramet population and the spatial association between different age-class P. bissetii ramet populations in West China Rainy Area. The ramet population had a clumped distribution at the scale 0-0.32 m, a regular distribution at the scale 0.64-4.48 m, and a random distribution at the scale > 4.48 m. Different age-class ramet populations mainly had a random distribution at the scale 0-8.00 m, though a slight difference was observed among different age-classes. The spatial association between age-class I and age-classes II and III at the scale 1.76 - 4.16 m and 0.32-4.16 m approached to or reached to negative, respectively, while the spatial association between age-classes I and IV at the scale 0.32-3.04 m was significantly negative, indicating that the spatial negative association between younger and elder ramet populations increased with enlarged age-class difference. The spatial pattern of P. bissetii ramet population and the spatial association between different age-class ramet populations were depended on spatial scale, ramet age, and environmental factors.     

斑苦竹无性系种群克隆生长格局动态的研究

采用“例逐龄级累加法”（ＲＡＡ）研究了缙云山斑苦竹无性系种群的克隆生长格局动态,以及无性系分株克隆生长型的动态趋势．结果表明,作为复轴型的斑苦竹,其无性系种群随时间进程表现为聚集程度逐渐降低的集群分布格局．在自然条件下,斑苦竹更多地表现出单轴型的繁殖趋势．应用ＲＡＡ分析植物种群,尤其是竹类植物种群前期的克隆生长格局的动态,结果可靠,具有重要的应用价值．     

Point pattern analysis of different age-classes of Larix principis-rupprechtii in Luya Mountain Reserve, Shanxi Province, China

Larix principis-rupprechtii forest is an important vegetation formation and has a large distribution area in Luya Mountain Reserve,China.Spatial pattern analysis on individual trees in different age-classes of Larix principisrupprechtii was made in this paper.Here,we employed the technique of point pattern analysis,which could analyze patterns under all scales along a gradient.It was based on spatial mapped points of individual distribution.The results of this study showed that the densities of the five age-classes varied in the order:age-class 3＞age-class 4＞age-class 5＞age-class 2＞age-class 1.Although age-classes 1 and 2 have much fewer individuals than other three age-classes do,the population was stable at present.However,it would be necessary to take some measures for improving population regeneration for a long-time view.The individuals of all age-classes focused on clumping distribution in space;however,their distribution pattern varied with the change of scale.This mainly depended on biological features of Larix principis-rupprechtii and forest environments,but it also meant that the scale was an important factor in controlling spatial distribution pattern of tree individuals.The feature of clumping distribution became more significant with the increase of age.The relationships between individuals in different age-classes were almost all significantly correlated with each other.These associations became more significant within the older age-classes.This suggested that the individuals of different age-classes were interdistributed,by which the population could get benefits in resource utilization.The technique of point pattern analysis is effective and easy to be used in species pattern study.Its results are more closer to the reality,especially for community structure.     

Comparison of statistical population reconstruction using full and pooled adult age-class data

Background

Age-at-harvest data are among the most commonly collected, yet neglected, demographic data gathered by wildlife agencies. Statistical population construction techniques can use this information to estimate the abundance of wild populations over wide geographic areas and concurrently estimate recruitment, harvest, and natural survival rates. Although current reconstruction techniques use full age-class data (0.5, 1.5, 2.5, 3.5, … years), it is not always possible to determine an animal''s age due to inaccuracy of the methods, expense, and logistics of sample collection. The ability to inventory wild populations would be greatly expanded if pooled adult age-class data (e.g., 0.5, 1.5, 2.5+ years) could be successfully used in statistical population reconstruction.

Methodology/Principal Findings

We investigated the performance of statistical population reconstruction models developed to analyze full age-class and pooled adult age-class data. We performed Monte Carlo simulations using a stochastic version of a Leslie matrix model, which generated data over a wide range of abundance levels, harvest rates, and natural survival probabilities, representing medium-to-big game species. Results of full age-class and pooled adult age-class population reconstructions were compared for accuracy and precision. No discernible difference in accuracy was detected, but precision was slightly reduced when using the pooled adult age-class reconstruction. On average, the coefficient of variation increased by 0.059 when the adult age-class data were pooled prior to analyses. The analyses and maximum likelihood model for pooled adult age-class reconstruction are illustrated for a black-tailed deer (Odocoileus hemionus) population in Washington State.

Conclusions/Significance

Inventorying wild populations is one of the greatest challenges of wildlife agencies. These new statistical population reconstruction models should expand the demographic capabilities of wildlife agencies that have already collected pooled adult age-class data or are seeking a cost-effective method for monitoring the status and trends of our wild resources.     

典型草原退化群落不同恢复演替阶段羊草种群空间格局的比较

羊草(Leymus chinensis)为典型草原群落的主要建群种之一, 在群落中扮演着重要角色。应用摄影定位法测定处于不同恢复演替阶段的羊草种群空间格局, 通过点格局、种群空斑、种群领地及种群领地密度等方法分析发现, 羊草种群在恢复演替过程中经历了种群增长和种群衰退的过程。在此过程中, 羊草种群数量出现最高点, 此点之前, 种群拓殖大于自疏, 种群整体增长; 此点之后, 种间竞争及种内竞争致使种群衰退, 而种间竞争占主导地位, 种内竞争相对较弱。羊草种群的增衰导致种群空斑发生变化, 从而引起种群格局类型发生相应的变化, 表现为在恢复21 a的群落中, 羊草种群在10 m×10 m的取样范围内表现出两种格局分布类型: 在0~4.85 m之间呈现聚集分布, 当尺度大于4.85 m时, 则表现为随机分布; 在恢复8 a的群落中, 羊草种群在10 m×10 m的取样范围内出现3种格局分布类型: 在0~3.01 m之间呈聚集分布, 在3.01~3.37 m之间为随机分布, 当尺度大于3.37 m时则表现为均匀分布; 在严重退化群落中, 羊草种群在整个10 m×10 m测定尺度上呈现聚集分布。由此可见, 羊草种群格局在恢复演替过程中是变化的, 这种变化主要由群落剩余资源驱动下的种群拓殖及种内种间竞争所致。     

Point pattern analysis of different age-classes of Larix principis-rupprechtii in Luya Mountain Reserve, Shanxi Province, China

Larix principis-rupprechtii forest is an important vegetation formation and has a large distribution area in Luya Mountain Reserve, China. Spatial pattern analysis on individual trees in different age-classes of Larix principis-rupprechtii was made in this paper. Here, we employed the technique of point pattern analysis, which could analyze patterns under all scales along a gradient. It was based on spatial mapped points of individual distribution. The results of this study showed that the densities of the five age-classes varied in the order: age-class 3 > age-class 4 > age-class 5 > age-class 2 > age-class 1. Although age-classes 1 and 2 have much fewer individuals than other three age-classes do, the population was stable at present. However, it would be necessary to take some measures for improving population regeneration for a long-time view. The individuals of all age-classes focused on clumping distribution in space; however, their distribution pattern varied with the change of scale. This mainly depended on biological features of Larix principis-rupprechtii and forest environments, but it also meant that the scale was an important factor in controlling spatial distribution pattern of tree individuals. The feature of clumping distribution became more significant with the increase of age. The relationships between individuals in different age-classes were almost all significantly correlated with each other. These associations became more significant within the older age-classes. This suggested that the individuals of different age-classes were interdistributed, by which the population could get benefits in resource utilization. The technique of point pattern analysis is effective and easy to be used in species pattern study. Its results are more closer to the reality, especially for community structure. Translated from Acta Ecologica Sinica, 2004, 24(1): 35–40 [译自: 生态学报]