排序方式: 共有14条查询结果,搜索用时 15 毫秒
1.
蜘蛛丝作为一种具有优良机械性能的天然动物蛋白纤维,其特有的结构和机械性能与其生物学功能密切相关。由大壶状腺纺出的拖牵丝在蜘蛛的行走、建网、捕食、逃生、繁殖等多种生命活动中均发挥了重要的功能,其机械性能会受到多种内外因素相互作用的影响。本文对在不同体重、不同猎物饲养和不同营养状态3种条件下人工抽出的悦目金蛛(Argiope amoena)拖牵丝与其不同单丝间的力学性能进行了比较研究。结果表明,悦目金蛛拖牵丝的力学性能在组间、组内不同个体,以及同一个体不同丝纤维间变异都较大。随着蜘蛛个体的增大,蛛丝横截面直径逐渐增大,这会使得蛛丝的力学性能更好,便于作为救命索的拖牵丝在遇到危险时承受蜘蛛体重;蜘蛛在经过1个月的饥饿后,蛛丝在屈服点附近的力学性能并未发生显著变化,而断裂点应变和断裂能均显著减小,同时也表明无论对于作为救命索还是网丝,拖牵丝的弹性形变性能在与蛛丝相关的微观进化中要优先于塑性形变。这是蜘蛛在能量摄入受到限制时对拖牵丝的投入权衡的结果。 相似文献
2.
以辣椒品种“超辣九号”为试材,采用15%的PEG6000模拟干旱,研究了0.1μmol·L^-1外源24-表油菜素内酯(EBR)处理对干旱胁迫下辣椒叶片快速叶绿素荧光诱导动力学曲线(OJIP)的影响。结果表明:干旱胁迫降低了辣椒叶片的光化学效率和光合性能,导致干旱光抑制的发生。干旱胁迫既损伤了辣椒叶片PSⅡ供体侧放氧复合体(OEC),同时也对PSⅡ反应中心和受体侧造成伤害,阻碍了光合电子传递;干旱胁迫还导致单位叶面积有活性反应中心数目(RC/CS)的下降,并降低了单位叶面积吸收的光能(ABS/CS)、捕获的光能(TRo/CS)和进行电子传递的能量(ETo/CS),同时诱导了单位叶面积热耗散(DIo/CS)的增加。这说明辣椒遭受干旱胁迫后启动了相应的防御机制,一方面通过PSⅡ的可逆失活减少光能吸收与传递,另一方面通过促进热耗散减少过剩激发能的积累。EBR处理改善了干旱胁迫下辣椒叶片PSⅡ受体侧的电子传递,缓解了单位叶面积有活性反应中心数目的减少,优化了光合电子传递的进行,并维持相对较高的热耗散能力,从而减轻了干旱光抑制程度,对干旱胁迫下辣椒叶片光合机构和光合性能起到保护作用。 相似文献
3.
对寡居种悦目金蛛Argiope amoena若蛛群居生活对其结网的影响、温度和种群大小对若蛛存活率的影响、若蛛对限制性空间的利用及其扩散方式进行了观察和研究.结果表明,若蛛从卵袋出蛰后不经历群居扩散即具备结网能力,可结完整网,也具备在扩散前不进食水存活的能力;在变温条件下若蛛存活率要远远高于室温条件下的存活率,而在室温条件下若蛛开始死亡和半数死亡的时间比其聚居期长得多;若蛛主要通过群体空中扩散的方式进行扩散,可以减小能耗与敌害的威胁;不同种群大小的若蛛在限制性空间的分布均从第5d左右开始发生较大变化的,这与在空间不受限的条件下若蛛在第5d开始扩散的结果是一致的.据此我们推断:个体扩散代价最小化(包括御敌和能耗)和维持种群较高的生存率可能是寡居种悦目金蛛若蛛群居生活的主要原因. 相似文献
4.
对中国圆顶瓢蜡蝉属Thabena Stl,1861进行了分类回顾,共有4种:海南圆顶瓢蜡蝉T.hainanensis(Ran & Liang,2006)(中国海南)、兰坪圆顶瓢蜡蝉T.lanpingensis sp.nov.(中国云南)、黎桃圆顶瓢蜡蝉T.litaoensis(Yang,1994)(中国台湾、海南)和云南圆顶瓢蜡蝉T.yunnanensis(Ran & Liang,2006)(中国云南)。对其中2个种兰坪圆顶瓢蜡蝉T.lanpingensis和黎桃圆顶瓢蜡蝉T.litaoensis进行了描记或重新描记,绘制了特征图。提供了中国圆顶瓢蜡蝉属全部已知种的检索表。 相似文献
5.
Responses in allometric growth of two dominant species of subalpine meadow—Arundinella anomala and Miscanthus sinensis—to climate warming in Wugongshan Mountains,China 
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下载免费PDF全文 《植物生态学报》2016,40(9):871
AimsArundinella anomala and Miscanthus sinensis are dominant species in the subalpine meadow of Wugongshan Mountains. Here we studied the effects of climate warming on allometric relationships among different growth components in the two species through simulated warming in natural habitat.
Methods The warming experiments were conducted with open-top chambers (OTCs) in natural habitat in a subalpine meadow community of Wugongshan Mountains. The two main Gramineae species, Arundinella anomala and Miscanthus sinensis, were selected as the study materials. Two sizes of OTCs were set up to create contrasting levels of warming (i.e. TD for low warming and TG for high warming). The morphological variables, such as the plant height and the basal diameter of shoots, were measured. Allometric analysis was conducted with the Smart Package in R software.
Important findings Significant or highly significant correlations and significant allometric relationships were found between and among growth components in both species. The allometry of the growth in most morphological features was strengthened and modified by simulated warming. Stem diameter and plant height, and spike length in A. anomala and M. sinensis changed from isometric to allometric following warming. The relationship The synchronized growth between stem diameter and spikelet in A. anomala was weakened, but their allometry was enhanced with increased warming. The allometric relationship between plant height and leaf length in A. anomala transformed into isometric growth, but it was in reversed pattern in M. sinensis. Warming promoted the plant height and leaf sheath length in A. anomala, whilst higher warming changed the growth relationship between plant height and leaf sheath length in M. sinensis. Similar allometric relationships among the leaf traits were observed, but warming did not significantly impact their allometric exponents. The results suggested that climate warming could have varied effects on different plants, and the differences are often related to the adaptability of plants. 相似文献
Methods The warming experiments were conducted with open-top chambers (OTCs) in natural habitat in a subalpine meadow community of Wugongshan Mountains. The two main Gramineae species, Arundinella anomala and Miscanthus sinensis, were selected as the study materials. Two sizes of OTCs were set up to create contrasting levels of warming (i.e. TD for low warming and TG for high warming). The morphological variables, such as the plant height and the basal diameter of shoots, were measured. Allometric analysis was conducted with the Smart Package in R software.
Important findings Significant or highly significant correlations and significant allometric relationships were found between and among growth components in both species. The allometry of the growth in most morphological features was strengthened and modified by simulated warming. Stem diameter and plant height, and spike length in A. anomala and M. sinensis changed from isometric to allometric following warming. The relationship The synchronized growth between stem diameter and spikelet in A. anomala was weakened, but their allometry was enhanced with increased warming. The allometric relationship between plant height and leaf length in A. anomala transformed into isometric growth, but it was in reversed pattern in M. sinensis. Warming promoted the plant height and leaf sheath length in A. anomala, whilst higher warming changed the growth relationship between plant height and leaf sheath length in M. sinensis. Similar allometric relationships among the leaf traits were observed, but warming did not significantly impact their allometric exponents. The results suggested that climate warming could have varied effects on different plants, and the differences are often related to the adaptability of plants. 相似文献
6.
通过查阅相关文献资料,深入分析了中国外来入侵植物的生活型,繁殖方式,果实类型,花大小、颜色和花期等特征。结果表明:中国分布的137种外来入侵植物,隶属于30科94属,其中菊科(46种)、禾本科(26种)、豆科(11种)、苋科(10种)和十字花科(6种)的植物占了中国入侵植物的72.3%。对其生活型分析的结果表明,外来入侵植物中,草本植物最多,有130种,占总种数的94.8%;灌木有3种;乔木有2种;和藤本有2种;分别占了2.2%、1.5%、1.5%。与全球部分地区相比,中国入侵植物中,木本植物(乔木和灌木)入侵比例较低。从繁殖方式来看,有88个种的主要繁殖方式是种子繁殖,占了64.2%;43个种的繁殖方式兼有克隆繁殖和种子繁殖,占31.4%。从花大小和颜色看,大部分的物种花比较小,产生小花的物种占了63.5%;而且其颜色鲜艳,有利于吸引昆虫传粉,花期也不长,花期短于5个月的占了66.4%。这些特征都有助于植物入侵。另外,果实的类型中干果占优势,占总入侵植物总数的95.6%,其中瘦果有62种;肉果占4.4%。结果表明,草本、可种子繁殖、花小、花期短的物种更容易入侵成功。 相似文献
7.
泽陆蛙(Fejervarya limnocharis)地理分布非常广,目前针对该物种的种群生态学研究还相对较少。2010年10月至2013年10月,我们研究了吉安市郊区稻田及其周边环境中的泽陆蛙种群生态。非冬眠期,每月均采集一次泽陆蛙样本,测量其体长、体重数据。研究期间共捕获泽陆蛙样本3 349个。采用体长、体重指标重心聚类法,结合泽陆蛙的生活史特征,将研究种群年龄结构划分为3个年龄组。其中,1龄为体长29 mm以下当年幼体,约占62.02%;2龄个体相对比例较高(体长30~39 mm,占34.61%),而3龄个体数量极少(体长40~50 mm,占3.37%)。通过种群平均年龄以及各年龄组相对百分比的逐月变化趋势分析及年间比较发现,泽陆蛙种群平均年龄的逐月变化曲线呈"M"型;1龄个体和2龄个体所占百分比的逐月变化曲线波动非常大;种群年龄结构季节性变化的年间比较也差异明显。这表明该种群可能面临高的生存压力,但种群更新较快。 相似文献
8.
3种中型蜘蛛卵袋形态特征与纤维组成结构 总被引:1,自引:0,他引:1
采用扫描电镜和氨基酸自动分析仪对球蛛科(Theridiidae)温室拟肥腹蛛(Parasteatodatepidariorum)、肖蛸蛛科(Tetragnathidae)肩斑银鳞蛛(Leucauge blanda)及狼蛛科(Lycosidae)猴马蛛(Hippasa holmerae)3种中型蜘蛛卵袋的超微结构和氨基酸组成进行了观察。形态观察表明,这3种蜘蛛的卵袋形态各异,温室拟肥腹蛛卵袋一头尖,呈梨状;肩斑银鳞蛛卵袋呈扁平状;猴马蛛卵袋呈椭球形。扫描电镜观察表明,温室拟肥腹蛛卵袋外覆盖层仅仅由一种均一直径的柱状腺丝组成,而另外2种蜘蛛卵袋外覆盖层主要由柱状腺丝与少量其他丝腺纺出的丝纤维组成。氨基酸组成分析表明,温室拟肥腹蛛卵袋外覆盖层的丝纤维的氨基酸组成与具有保守性的其他种类蜘蛛柱状腺丝心蛋白的氨基酸组成差异较大,这表明其可能含有新的丝心蛋白家族成员。本文根据氨基酸组成与扫描电镜的结果分析探讨了不同直径丝纤维的丝腺来源。 相似文献
9.
全球气候变暖影响植物-传粉者网络的研究进展 总被引:1,自引:0,他引:1
植物与传粉者间相互作用,构成了复杂的传粉网络。目前,以气候变化为主要特征的全球变暖对植物-传粉者网络的影响备受关注,概述了近年来这方面研究的几个主要热点问题及其进展,和相关研究方法。并在此基础上,提出了气温持续上升背景下,植物-传粉者网络未来的研究趋势。当前研究的主要热点问题有:(1)气候变暖使植物、传粉者的物候发生变化,并通过影响植物的开花时间和传粉者活动时间,导致两者在物候时间上的不同步。(2)气候变暖导致植物、传粉者的群落结构变化,促使其地理分布向更高纬度和更高海拔扩散,这可能潜在的导致两者空间分布的不匹配。(3)植物和传粉者通过增加或减少其丰富度来响应气候变暖,可能导致传粉网络结构特征发生变化。(4)面对气候变暖导致植物和传粉者间物候和地理分布错配所引发的互作改变、甚至解体,传粉网络可通过自身网络结构及快速进化来缓冲和适应。在今后研究中,以下几个问题值得探讨:1)气候变暖对植物-传粉者网络影响的大时空尺度变异模式。2)多因素协同作用对植物-传粉者网络的影响特征。3)全球气候变暖对植物、传粉者物候匹配性影响的机理。 相似文献
10.
Physiological responses and photo-protective mechanisms of two Rhododendron plants to natural sunlight after long term shading 下载免费PDF全文
下载免费PDF全文 《植物生态学报》2015,39(11):1093
AimsResponses of plants to increased irradiance are governed by two strategies: an increase in the utilization of absorbed light and photo-protective mechanisms. Varied physiological responses to increased irradiance were observed in plant species with differing adaptabilities to light regimes. This research aims to explore the physiological responses and photo-protective mechanisms of two Rhododendron plants to changes in light regimes. MethodsChlorophyll fluorescence parameters and rapid light curves were measured for leaves of R. hybrida (a shade-tolerant species) and R. simsii (a light-loving and shade-tolerant species) following exposure to sunlight for five days after growing in the shade for one year.Important findings Natural sunlight decreased the efficiency of photochemical reaction by reducing the fraction of incident light in photochemical energy utilization and decreased thermal dissipation through regulating energy dissipation in photosystem II (PSII) in the leaves of R. hybrida. As a result, natural sunlight induced the accumulation of excess excitation energy in PSII, and caused photo-inhibition and even photodamage in the leaves of R. hybrida, which was suddenly transferred from long-term shading to sun exposures. The acclimation capacity to changes of growth light regimes was stronger in R. simsii than in R. hybrida, due to a higher capability for photochemical reaction, thermal dissipation and cyclic electron flows around photosystem I in the leaves of R. simsii. Rhododendron simsii could utilize a high fraction of incident light in photochemistry and regulate energy dissipation in PSII to protect the photosynthetic apparatus under both shading and natural sunlight condition. Therefore, high light intensity under natural sunlight did not cause photo-inhibition in R. simsii. 相似文献