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植硅体形态测量学是植硅体研究的重要方向之一,随着学科交叉研究的深入,植硅体形态测量学在植物分类与生态学、环境考古学、全球变化与生态响应等领域得到快速发展。综合已有研究成果表明,长鞍型植硅体形态测量学在日本、中国的竹亚科属一级竹类生态学具有独特的指示作用,而扇型和长鞍型形态测量学在中国西南西双版纳竹亚科木本竹子属一级分类中具有重要的参考价值;稻亚科扇型形态测量学可以有效区分籼稻与粳稻,且扇型鱼鳞状纹饰与颖壳双峰植硅体形态测量学结合可以准确判别亚洲栽培稻与普通野生稻;黍亚科树状表皮长细胞形态测量学被成功运用到区分中国西北黍和粟及其亲缘物种的关系,葫芦科南瓜属刻面球型植硅体形态测量学揭示了野生种、半驯化种和驯化种之间植硅体形态大小及其关系,证实南美洲低地地区早全新世出现的南瓜驯化历史;中国东北不同环境条件下的禾本科羊草、芦苇植硅体形态测量学研究反映了陆生植物对全球变化的生理生态响应,为研究陆地生态系统对全球变化的响应及古环境重建提供了重要参考。 相似文献
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鱼类形态特征与营养级位置之间关系初探 总被引:2,自引:0,他引:2
以长江中下游洪泛平原湖泊鱼类为例,探讨鱼类功能性形态特征与其营养级位置之间的关系.所用的116种鱼的食性数据来自于226个鱼类群落,总计16267尾鱼.用几何形态测量法的界标分析法提取鱼类形态特征,相对扭曲度法的前2个主成份能较好地区分鱼类的形态差异,它不仅能够生成散点图,而且能客观地反映出鱼类的形态性状.营养级位置采用肠含物定量分析法,合理地假定肠含物的营养级位置,利用食性数据计算出鱼类的营养级位置.采用广义加性模型分析鱼类营养级位置与功能性形态之间的关系.结果表明:只有当鱼类为植食性鱼类和肉食性鱼类才有特化的功能性形态与之相适应,植食性鱼类有较窄的口裂,而对肉食性鱼类而言,不同生活型的鱼类拥有各自特化的形态特征,如伏击型肉食性鱼类体型呈纺锤形,背鳍靠近头部,眼睛较大且靠上,头部面积较大;而追击型肉食性鱼类体型呈流线型,头部较小,背鳍和腹鳍靠近尾部.而杂食性鱼类在本研究中无更多证据证明有特化的外部形态,亟待进一步研究. 相似文献
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基于几何形态测量学的四种滨螺形态差异与系统发生关系研究 总被引:1,自引:0,他引:1
运用几何形态测量学方法研究浙江省大陈岛海域常见的4种滨螺间的形态关系。对4种滨螺的壳口、螺体分别进行数字化标点,经叠印分析、主成分分析(PCA)和薄片样条法分析,获得4种滨螺在壳口和螺体上的差异,并进一步分析其形态特征与潮间带环境适应性关系。PCA结果表明四种滨螺壳口间差异在主成分轴上无法有效分开,而螺体间差异在主成分轴上能有效分开,说明壳口特征在不同滨螺间不具有规律性差异。螺体的PCA中PC1轴可以将短滨螺与其他3种滨螺区分,薄片样条法分析显示差异的部位主要在体螺层的宽度和螺体的高度间,PC2轴可以将粒结节滨螺与其他3种滨螺分开,薄片样条法分析显示差异部位主要是体螺层之上第一层以及体螺层之间。基于螺体特征的4种滨螺亲缘关系分析表明粗糙滨螺与塔结节滨螺亲缘关系最近,其次为短滨螺,粒结节滨螺最不相近。运用特征追踪法对螺层和螺肋特征追踪,结果表明螺层6层,螺肋密生是滨螺的祖先特征,后来演化出7层和8层的螺层特征以及颗粒状突起的螺肋特征。 相似文献
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ANDREW J. WHEELER MAXIM KOZACHENKO DOUG G. MASSON VEERLE A. I. HUVENNE 《Sedimentology》2008,55(6):1875-1887
The Darwin Mounds are small (up to 70 m in diameter), discrete cold‐water coral banks found at c. 950 m water depth in the northern Rockall Trough, north‐east Atlantic. Formerly described in terms of their genesis, the Darwin Mounds are re‐evaluated here in terms of mound growth processes based on 100 and 410 kHz side‐scan sonar data. The side‐scan sonar coverage is divided into a series of acoustic facies representing increasing current speed and sediment transport/erosion from south to north: pockmark facies, ‘mounds within depressions’ facies, Darwin Mound facies, stippled seabed facies and sand wave facies. Mound morphometric changes are quantified and show a south‐to‐north divergence from an inherited morphology, reflecting the outline of coral‐colonized fluid escape structures, to developed, downstream elongated, elevated mound forms. It is postulated that increasing current speeds and bedload sand transport favour mound growth and development by a process of enhanced sand sedimentation within mounds due to current deceleration by frictional drag around coral colonies. Comparisons are made with similar growth processes attributed to comparably sized cold‐water coral mounds in the Porcupine Seabight, offshore Ireland. 相似文献
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Coral reefs are in crisis worldwide. Fish play a key role in the resilience of reefs because most of the biomass of the ecosystem flows through them. Evidence indicates that the response to stressors will vary markedly depending on the resilience of the ecosystem. In order to assess the functional groups of reef fishes, morphometric and ecomorphological analyses were carried out on the shape and diet of 117 reef fish species from the Mexican Eastern Pacific (MEP) from 23°N to 15°N, spanning the years 2009–2012. Six trophic groups were identified and subdivided into 19 functional groups: (A) detritus and plants consumers, three morphologies; (B) plants and zoobenthos consumers, four morphologies; (C) zoobenthos consumers, two morphologies; (D) zoobenthos and zooplankton consumers, three morphologies; (E) zooplankton and nekton consumers, three morphologies; and (F) nekton consumers, four morphologies. Our main conclusions are: (i) fish communities of the MEP have a high degree of ecological redundancy; (ii) fish diversity is not related to the coral cover; and (iii) the combination of using both morphology and diet produce a more effective classification of functional groups. Future studies such as these will allow a deeper understanding of environment and it will help illuminate the effects of fish morphology and diet on population structure. 相似文献
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Long‐term nutrient enrichment alters nematode trophic structure and body size in a Spartina alterniflora salt marsh 
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下载免费PDF全文 The effects of long‐term experimental nutrient enrichment on nematode trophic guilds and morphometrics were examined in intertidal saltmarsh creeks of Plum Island Estuary, Massachusetts, USA. Nematodes from the marsh‐edge Spartina alterniflora habitat in a reference creek (n = 3300) were sampled annually and compared with nematodes (n = 3100) from a creek in which nitrate and phosphate loading rates were increased approximately 10–15× for 6 years. Trophic guilds in both creeks were dominated by epistrate (diatom) feeders and predators, and natural temporal variability across years was high. However, after 4 years of nutrient enrichment, a shift in the nutrient‐enriched creek was detected from a dominance of epistrate feeders to an increased proportion of predators, even though neither the benthic microalgae biomass nor the total density of nematodes was affected by fertilization. Nematodes also became longer, and longer relative to their diameter over time with nutrient enrichment because of the shift in trophic structure as short‐stout epistrate feeders were replaced with longer, more slender predators. These changes may have been directly related to nutrient enrichment effects on benthic algae or indirectly to the many other effects of enrichments on ecosystem structure or function. Our research indicates that nutrient enrichment alters the nematode community and this alternation may directly or indirectly affect the response of benthic algae to nutrient enrichment and as well as other ecosystem services. 相似文献