绿竹笋及幼竹的生长动态

本研究通过绿竹生态最适宜区福建福安的绿竹造林试验。分析绿竹笋及幼竹生长动态,得出不同时期的绿竹发笋比率及单个笋重情况,并对绿竹幼竹萌发至长成的过程进行分析,比较河滩冲积地新造绿竹林各年度新竹生长的变化规律,为绿竹林资产评估提供依据。     

秦岭大熊猫冬春季节对巴山木竹竹林生长指标的选择

2004~2005年冬季的12月、1月和春季的4月、5月,在秦岭山系南坡佛坪自然保护区内就大熊猫对构成其主要栖息地和食物来源的巴山木竹竹林的选择进行研究后的结果表明:在冬季,大熊猫栖息地多为幼竹与死竹比例基本持平、密度稳定的巴山木竹竹林,主要取食老竹;在春季,大熊猫更偏好选择竹子密度和盖度略低、竹子粗壮高大、幼竹与竹笋比例高的竹林活动,主要取食幼竹。大熊猫春季栖息地幼竹比例通常高过死竹比例,竹林密度处于增长期。竹林进入发笋期后,稀疏、高大的竹林下的粗大竹笋成为大熊猫的主要食物来源。     

秦岭大熊猫冬春季节对巴山木竹竹林生长指标的选择

2004～2005年冬季的12月、1月和春季的4月、5月，在秦岭山系南坡佛坪自然保护区内就大熊猫对构成其主要栖息地和食物来源的巴山木竹竹林的选择进行研究后的结果表明：在冬季，大熊猫栖息地多为幼竹与死竹比例基本持平、密度稳定的巴山木竹竹林，主要取食老竹；在春季，大熊猫更偏好选择竹子密度和盖度略低、竹子粗壮高大、幼竹与竹笋比例高的竹林活动，主要取食幼竹。大熊猫春季栖息地幼竹比例通常高过死竹比例，竹林密度处于增长期。竹林进入发笋期后，稀疏、高大的竹林下的粗大竹笋成为大熊猫的主要食物来源。     

糙花少穗竹生物学特性观察

糙花少穗竹是福建优良乡土竹种,笋材两用,其竹鞭、竹笋、幼竹生长节律与单轴散生竹毛竹相似。竹鞭垂直分布多数在土层20 cm范围,4~15 m长的鞭系占78.1%,发笋期较集中在3月中下旬,单个笋重为盛期笋> 初期笋> 末期笋。从笋出土到幼竹高生长停止,可分为初期、上升期、盛期和末期。但竹鞭垂直分布比毛竹浅,出笋期比毛竹早,且出笋没有明显的大小年,具有较高的开发利用价值。在自然分布区可根据其生物学特性、竹鞭生长与发笋成竹规律采取相应技术措施,垦复改造荒芜野生竹林,2~3年即可郁闭成林。     

绿竹秆材重量表的研制

通过对绿竹生态最适宜区福安市的绿竹胸径、付高和秆、枝、叶鲜重和含水率的调查,并采用多个模型回归出绿竹秆材重量和胸径、竹高的一元和二元模型,结果表明,绿竹秆、枝、叶的含水率分别为52.65%、67.35%、48.47%。由一元和二元重量模型导出绿竹秆材重量表精确可靠,可在绿竹生产、销售及绿竹林资产评估中使用。     

早竹林内蝇类多样性动态及其影响因子分析

【目的】早竹是一种重要的笋用竹种,人工经营的早竹林出笋率高、经济价值大。然而一些蝇类寄生于早竹笋内,导致竹笋品质降低、竹林退笋率增加。通过研究早竹林内蝇类种群动态和物种多样性,为科学防治笋蝇提供依据,以降低早竹笋的退笋率,增加竹笋产量,提高早竹种植的经济效益。【方法】采用黄板诱捕法调查早竹林内蝇类的多样性,运用多元线性回归分析了环境因子对蝇类Shannon-Wiener多样性指数的影响;并使用变异分解的方法分析了空间变量和环境变量对蝇类β多样性的影响。【结果】研究结果显示:在早竹林内共诱捕到的蝇类有8科10种,其中竹笋绒茎蝇Chyliza bambusae、江苏泉蝇Pegomyia kiangsuensis、横带花蝇Anthomyia illocata、常齿股蝇Hydrotaea dentipes、黑带食蚜蝇Episyrphus balteata是早竹林内的优势物种;黄板周围1.5 m范围内成竹数量和幼笋数量对蝇类的多样性有显著性影响,早竹林内蝇类的物种多样性随着成竹数量的增加而降低;空间变量单独对蝇类β多样性的解释量为8.54%,环境变量单独解释的量为28.84%,两者共同解释的量为10.46%,不能被环境变量和空间变量解释的量为52.16%。【结论】本研究展示了早竹林内蝇类多样性变动的动态,并阐释了蝇类多样性的主要影响因子,对于竹林害虫的综合治理、提高竹笋产量具有现实和理论意义。     

采笋对八月竹生长和大熊猫活动的影响研究

采笋是大相岭山系大熊猫栖息地内一种传统的资源利用活动。为了了解采笋活动对大熊猫活动以及不同采笋管理方式对八月竹Chimonobambusa szechuanensis生长的影响,2008—2012年在大相岭山系对大熊猫的活动情况进行了调查和监测,2013年对规模性采笋的四川省洪雅县和限制规模性采笋的四川省荥经县内的八月竹生长状况进行了调查。结果表明:(1)洪雅县一年生八月竹密度显著高于荥经县(P=0.002),荥经县多年生八月竹的株高显著高于洪雅县(P=0.005);(2)八月竹种群密度与海拔呈正相关。洪雅县八月竹的多年生基径、多年生株高和一年生株高与海拔均呈显著负相关,而荥经县八月竹的多年生基径、多年生株高和一年生株高则与海拔呈显著正相关;(3)大相岭山系大熊猫主要活动于海拔1 400~2 700 m,85%的痕迹点出现在2 000 m以上;(4)采笋期间未在八月竹林发现大熊猫活动痕迹,而采笋期前、后均能在八月竹林发现大熊猫痕迹。规模性采笋对八月竹的株高、基径和密度都有影响,并且采笋活动对大熊猫活动产生影响,应进一步规范采笋行为,协调保护与社区经济的可持续发展。     

版纳甜龙竹发笋及幼竹高生长规律

本研究通过观测和统计学分析软件探讨版纳甜龙竹(Dendrocalamus hamiltonii)的发笋规律与幼竹生长节律。研究结果表明,版纳甜龙竹从7月上旬开始发笋,10月上旬结束,笋期长达100d左右,期间可将版纳甜龙竹出笋过程定量地划分为3个时期:初期(7月27日以前)、盛期(7月28日至9月15日)和末期(9月16日以后)。出笋盛期笋体较大,个体平均重量1.40kg,笋产量最大,达8208kg/hm2,占总笋产量的66.75%。幼竹高生长历时105d,生长节律遵循"慢-快-慢"的趋势;盛期高生长量占全总量的60.4%。版纳甜龙竹在一天之内有2个生长高峰,分别是4:00～8:00时和18:00～22:00时两个时间段;而在14:00～16:00时为高生长的低谷,夜间生长比较均匀。同时,昼夜生长差异较大,夜间总生长量是昼总生长量的1.817倍。本研究初步掌握了版纳甜龙竹的发笋及幼竹高生长的基本规律,为版纳甜龙竹笋用林丰产栽培提供了一定的理论依据。     

汶川地震对大熊猫主食竹——拐棍竹竹笋生长发育的影响

为了了解汶川地震对大熊猫主食竹生长发育的影响,2009年10月—2011年4月,在地震重灾区四川龙溪-虹口国家级自然保护区内设置150个样方,就地震强度、中度、轻度干扰对大熊猫主食竹拐棍竹(Fargesia robusta)竹笋生长发育的影响进行了研究。研究结果显示:(1)发笋物候上,地震强度干扰的发笋时间(Julian时间)较中度和轻度干扰显著推迟,而发笋期不受影响。(2)发笋量和当年生幼竹数是拐棍竹更新生长的数量指标。地震强度和中度干扰样方的发笋量都显著高于轻度干扰,而发笋量在强度和中度干扰间差异不显著;地震强度干扰样方的当年生幼竹数显著高于中度和轻度干扰,中度和轻度干扰样方间差异不显著。这说明地震的强度和中度干扰都有利于拐棍竹竹笋和当年生幼竹数量的更新。(3)基径和株高是拐棍竹更新生长的质量指标。强度干扰下拐棍竹的基径和株高都显著小于中度和轻度干扰,中度干扰样方的基径与轻度干扰差异不显著,但株高显著矮于轻度干扰样方。表明强度干扰下拐棍竹的质量最差,中度干扰的基径已基本得到恢复,但株高仍受到抑制。(4)地震不同干扰等级拐棍竹退笋原因划分为:外力机械损伤、动物取食、生长停止、其他4种。对地震不同干扰等级拐棍竹退笋原因比率的分析发现,强度干扰样方因外力机械损伤和生长停止退笋的比率显著高于中度和轻度干扰样方,而因动物取食退笋的比率显著低于中度和轻度干扰样方。证明强度干扰样方的竹笋更容易受到外力机械损伤和生长停止退笋,而中度和轻度干扰的竹笋更倾向于动物取食致退,揭示了拐棍竹的生长是与震后不同程度的干扰相适应的。     

采笋对大熊猫主食竹八月竹竹笋生长的影响

采笋是大熊猫栖息地内一种持续的人类干扰活动。为了评估采笋对大熊猫主食竹竹笋生长发育的影响,2009年7—11月,在四川省洪雅县瓦屋山镇设置实验样方,对比研究了早期采笋、中期采笋、晚期采笋、一直采笋和不采笋5种采笋方式对大熊猫主食竹八月竹竹笋生长和发育的影响。结果表明:1)早期采笋、中期采笋和一直采笋样方的发笋量显著高于不采笋样方(P0.05),其发笋量分别是不采笋的1.53倍,1.57倍和1.62倍;晚期采笋样方发笋量与不采笋样方差异不显著(P0.05)。2)早期采笋使八月竹在发笋早期和发笋中期的发笋量增加,中期采笋仅使八月竹在发笋中期的发笋量增加,而一直采笋使八月竹在整个发笋期的各个阶段的发笋量均显著增加(P0.05)。3)一直采笋样方的幼竹数量、株高均显著低于其他采笋样方,其基径只显著低于不采笋样方(P0.05);早期、中期、晚期采笋和不采笋样方相互间仅幼竹株高差异显著(P0.05)。4)早期、中期和晚期采笋与不采笋样方的发笋总量、退笋总量和采笋总量相互之间均呈显著正相关(P0.05)。建议仅在八月竹发笋中期采笋,同时政府应加大对大熊猫栖息地周边社区经济发展的引导和扶持。     

Dense understory dwarf bamboo alters the retention of canopy tree seeds

Tree seed retention is thought to be an important factor in the process of forest community regeneration. Although dense understory dwarf bamboo has been considered to have serious negative effects on the regeneration of forest community species, little attention has been paid to the relationship between dwarf bamboo and seed retention. In a field experiment we manipulated the density of Fargesia decurvata, a common understory dwarf bamboo, to investigate the retention of seeds from five canopy tree species in an evergreen and deciduous broad-leaved mixed forest in Jinfoshan National Nature Reserve, SW China. We found that the median survival time and retention ratio of seeds increased with the increase in bamboo density. Fauna discriminately altered seed retention in bamboo groves of different densities. Arthropods reduced seed survival the most, and seeds removed decreased with increasing bamboo density. Birds removed or ate more seeds in groves of medium bamboo density and consumed fewer seeds in dense or sparse bamboo habitats. Rodents removed a greater number of large and highly profitable seeds in dense bamboo groves but more small and thin-husked seeds in sparse bamboo groves. Seed characteristics, including seed size, seed mass and seed profitability, were important factors affecting seed retention. The results suggested that dense understory dwarf bamboo not only increased seeds concealment and reduced the probability and speed of seed removal but also influenced the trade-off between predation and risk of animal predatory strategies, thereby impacting the quantity and composition of surviving seeds. Our results also indicated that dense understory dwarf bamboo and various seed characteristics can provide good opportunities for seed storage and seed germination and has a potential positive effect on canopy tree regeneration.     

The association of hormone signalling genes,transcription and changes in shoot anatomy during moso bamboo growth

Moso bamboo is a large, woody bamboo with the highest ecological, economic and cultural value of all the bamboo types and accounts for up to 70% of the total area of bamboo grown. However, the spatiotemporal variation role of moso bamboo shoot during growth period is still unclear. We found that the bamboo shoot growth can be divided into three distinct periods, including winter growth, early growth and late growth based on gene expression and anatomy. In the early growth period, lateral buds germinated from the top of the bamboo joint in the shoot tip. Intercalary meristems grew vigorously during the winter growth period and early growth period, but in the late growth period, mitosis in the intercalary meristems decreased. The expression of cell cycle‐associated genes and the quantity of differentially expressed genes were higher in early growth than those in late growth, appearing to be influenced by hormonal concentrations. Gene expression analysis indicates that hormone signalling genes play key roles in shoot growth, while auxin signalling genes play a central role. In situ hybridization analyses illustrate how auxin signalling genes regulate apical dominance, meristem maintenance and lateral bud development. Our study provides a vivid picture of the dynamic changes in anatomy and gene expression during shoot growth in moso bamboo, and how hormone signalling‐associated genes participate in moso bamboo shoot growth.     

Distribution and turnover of a mosquito (Tripteroides bambusa) metapopulation among bamboo groves

We surveyed the distribution of a mosquito, Tripteroides bambusa (Yamada), among patchily distributed bamboo groves from 1994 to 1997 in an area of 4 km × 4 km in Saga, south-western Japan. In the study area, this mosquito uses mainly water-filled bamboo stumps as its larval habitat. In 1994, a year with little rainfall in the summer, T. bambusa larvae were found in 30 of the 60 groves that contained water-filled bamboo stumps. By 1997, the number of occupied groves increased to 64, and the number of groves with water-filled stumps increased to 109. Tripteroides bambusa was found frequently in the area covered by an orange orchard where bamboo groves were dense, and rarely in the open land where bamboo groves were sparse. Colonization of T. bambusa occurred in groves in the orchard and the open land which were less than 0.57 km away from the nearest occupied grove. Large groves were more likely to be occupied, and extinction occurred only in small groves ( 0.104 ha). Groves without water-filled stumps in 1994 were less likely to be occupied in the following period than those with water-filled stumps in 1994. These findings suggest that the T. bambusa metapopulation will not extend its distribution into all of the bamboo groves in the study area, but will not become extinct because of some highly persistent populations.     

磁共振成像技术在毛竹幼竹显微结构和水分含量表征中的应用

竹子节部对竹秆的中空结构以及竹秆快速高生长起着关键作用,研究竹子解剖结构有助于认识竹子生长机制。本研究利用核磁共振成像(MRI)无创、高分辨率和准确的技术优势,对毛竹幼竹去笋箨梢部进行横切面高精度核磁共振成像扫描,使用MATLAB软件对 MRI进行灰度值采集,分析节部、近节部和节间水分分布差异。结果表明: 无数维管束在毛竹幼竹节隔以及近节隔内腔反复扭曲和水平转动,组成了一个错综复杂和高度连接的网络结构,通过分轴向载荷来保护重要组织免受机械应力,同时实现水分和营养物质的横向运输,这是毛竹在短时间内快速完成高生长的重要基础。MRI信号值(亮度值)表明,幼竹维管束的水分含量远远高于周围的基本组织。节间平均水分含量和像素点间含水量标准差显著高于节部,近节部居中。MRI技术可以在未来竹子解剖学和生理生化学研究中发挥作用。     

Chronological location analyses of giant bamboo (Phyllostachys pubescens) groves and their invasive expansion in a satoyama landscape area,western Japan

Since the 1980s, giant bamboo groves consisting mainly of naturalized Phyllostachys pubescens have been expanding in Japanese rural landscapes (satoyama). Using aerial photographs, I evaluated changes in bamboo grove distribution between 1947 and 2006 at Mount Hachiman, Ohmi‐hachiman City in western Japan, where there is an area of satoyama landscape adjacent to the suburbs. I also quantitatively determined the natural and artificial factors that accelerated bamboo grove expansion using a multiple logistic regression analysis with stepwise procedure. I attempted to describe the positions of bamboo groves in Japanese satoyama landscapes. The area of bamboo groves in the survey area expanded after 1967. The bamboo groves are located at the base of mountain slopes and on alluvial fans adjacent to residential areas, where they are most susceptible to human interferences (mainly disturbance). They mark the boundary between agricultural fields and secondary forests. The model analysis indicated that the abandonment of lands adjacent to bamboo groves caused bamboo‐grove expansion. As forests and agricultural land were abandoned, bamboo, mainly P. pubescens, invaded these areas by rhizomatous clonal growth. Bamboo grove expansion in Japanese satoyama landscapes is dependent on the type of land use, topography, and existing vegetation as well as the invasive life‐history traits of P. pubescens.     

小径竹密度对雷公鹅耳枥幼苗早期更新的影响

通过去除法控制竹丛密度,人为设置4种竹丛密度梯度[密度1:(3.83±0.53)株/m~2;密度2:(16±1.80)株/m~2;密度3:(39±1.69)株/m~2;密度4:(69±2.15)株/m~2],测定不同密度竹丛下的微环境(包括土壤温度、湿度、电导率、凋落物厚度),研究竹丛密度及微环境对雷公鹅耳枥(Carpinus viminea Wall.)幼苗数量、存活动态、生长情况的影响。结果显示,竹丛密度对环境有显著影响,随着竹丛密度的增加,竹丛盖度、凋落物厚度、土壤温度升高明显;雷公鹅耳枥幼苗萌生量显著减少,4组密度梯度中幼苗数量分布依次排序为:密度1(28.53±3.14)株/m~2密度2(17.36±1.45)株/m~2密度3(12.36±0.93)株/m~2密度4(8.92±0.93)株/m~2,表明随着小径竹密度增加,其对雷公鹅耳枥幼苗萌发的抑制作用越强;小径竹的密集生长可对雷公鹅耳枥幼苗的存活率产生影响,且对幼苗的生长具有一定抑制作用。研究结果表明小径竹密集生长的环境不仅抑制了雷公鹅耳枥新生幼苗的分布和幼苗生长,还对种群的更新以及森林群落的演替产生一定的负面影响。     

竹类植物种群生态学研究进展与展望

综述了竹类种群生理生态学、种群动态、繁殖特性、无性系种群特征等几个方面的研究进展,概括了群落水平上竹类种群对森林更新的影响。并从竹类种群克隆多样性与微进化、生长适应机理、开花机制,以及竹类种群与林窗更新等四个方面展望未来竹类种群生态学研究的重点和主要趋势。     

热消散液流测定系统研究竹子蒸腾的问题和解决思路

旺盛的蒸腾是竹子迅速生长的重要代谢保障,对林区生态系统水循环和水量平衡发挥关键作用,如何准确估测竹林的蒸腾耗水是迫切需要解决的方法难题。目前研究树木水分生理和森林水文广泛采用的热消散液流测定方法(TDP)却少有在竹林中应用,而仅有的几项研究报道由于缺乏严谨的实验验证,结果误差较大而缺少说服力。作者认为,竹壁结构异质性和竹竿中央空腔造成热量的不均匀分布是基于热通量交换的液流测定系统测量竹子蒸腾不准确的主要原因,提出以自行设计的注水变压液流特性测定法和传统的整树容器称重法,验证热消散液流测定系统估测竹子水分利用的适用性。本文还结合竹子的种群结构和无次生生长的特点,提出竹株借助相互连接的地下茎进行水分再分配,异株补偿水力限制,蒸腾主要受年龄而不是竹形大小影响的观点,建议通过分析竹子蒸腾的年龄效应,研究不同种植密度竹林水分利用的变化规律,为竹林生产和集水区水源管理提供有效的林型设计和措施。     

毛竹林老竹水平和经营措施对新竹发育质量的影响

毛竹林是我国重要的森林资源类型,在森林固碳和林业应对气候变化中具有不可替代的重要作用。由于毛竹林的持续采伐与自我更新特性,在竹林经营过程中,新竹的发育数量和质量成为评价竹林固碳功能变化的决定性因子。利用两因素随机区组设计,排除地形因子等影响,选取施肥和采伐留养方式这两个因素,研究老竹水平和经营措施对2010年和2013年毛竹林新竹发育质量的影响。结果表明:无论2010年还是2013年,新竹平均胸径、株数和碳储量与3年生和5年生老竹的相关性均高于2年生和4年生老竹。新竹碳储量与3年生和5年生老竹碳储量呈线性相关,建立线性回归模型y=0.675x-2.2491,R~2=0.8561,而新竹碳储量与2年生和4年生老竹碳储量相关性较低,线性回归模型为y=-0.1109x+6.7287,R~2=0.0061。不同经营措施实施后,新老竹之间关系发生了很大的改变,新竹平均胸径与老竹的相关性大幅下降,新竹株数和碳储量与老竹几乎没有相关性,新竹碳储量与3年生和5年生老竹碳储量的线性回归模型为y=0.1036x+3.7539,R~2=0.0981,新竹碳储量与2年生和4年生老竹碳储量的线性回归模型为y=-0.0408x+5.9069,R~2=0.0151。不同经营措施的实施对新竹的平均胸径、株数和地上碳储量产生了很大的影响。处理A_1B_2(大量施肥中度采伐中密度留养)、A_2B_2(中等施肥中度采伐中密度留养)和A_3B_2(不施肥中度采伐中密度留养)新竹平均胸径、新竹株数和新竹碳储量都有所增加,新竹平均胸径增幅为:处理A_2B_2(8.78%)A_1B_2(2.43%)A_3B_2(2.06%),新竹株数增幅为:处理A_1B_2(81.0%)A3B2(35.4%)A2B2(15.2%),新竹地上碳储量增幅为:处理A_1B_2(90.8%)A_3B_2(35.7%)A_2B_2(49.7%),而其余处理基本都会减少,说明适度采伐留养最有利于提高毛竹林新竹的发育质量。仅仅从固碳最大化的角度出发,大量施肥中度采伐中密度留养最有利于新竹碳储量的增加,而从培养大径竹材的角度考虑,中等施肥中度采伐中密度留养能收到更好的效果。