新西兰奥特亚生物群的特殊特有性表明,分类群的分散特征,而不是系统发育,与全球物种丰富度相关

IF 2.1 4区 综合性期刊 Q2 MULTIDISCIPLINARY SCIENCES
Journal of the Royal Society of New Zealand Pub Date : 2023-04-20 eCollection Date: 2024-01-01 DOI:10.1080/03036758.2023.2198722
Mark John Costello
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引用次数: 0

摘要

物种的扩散较为有限,因此基因流动较少,更有可能形成新的空间隔离物种,从而对地方生物群和全球物种丰富度做出不成比例的贡献。新西兰奥特亚罗瓦地区的特有性尤为突出,在其 54,000 个命名物种中,52% 为特有物种,其中淡水、海洋和陆地环境中的特有物种比例分别为 32%、39% 和 68%。淡水生物群(不包括昆虫)的特有性较低,这是因为它们需要在进化时间尺度上暂时性的栖息地之间分散。作为系统发生关系的一种衡量标准,高等类群(从纲到目)的地方性百分比与区域和全球物种丰富度并不相关。不过,根据环境、典型体型、移动能力(包括飞行能力)以及海洋性、浮游性或底栖性等因素,地方性与各扩散特征类群的物种丰富度之间存在正相关。典型的飞行类群具有较高的地方特有性,这与扩散-地方特有性假说相反,但反映了距离和时间上的特殊隔离,以及岛屿上飞行能力的降低。有人提出,移动大型动物的高丰富度和高地方性分别是由生态位特化机会和限制扩散的捕食共同造成的。因此,散布特征比系统发育更能预测地方性和全球物种丰富度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exceptional endemicity of Aotearoa New Zealand biota shows how taxa dispersal traits, but not phylogeny, correlate with global species richness.

Species' with more limited dispersal and consequently less gene flow are more likely to form new spatially segregated species and thus contribute disproportionally to endemic biota and global species richness. Aotearoa New Zealand has exceptional endemicity, with 52% of its 54,000 named species endemic, including 32%, 39% and 68% for freshwater, marine and terrestrial environments respectively. The lower endemicity of freshwater biota (excluding insects) is attributed to their need to disperse between habitats that are temporary on evolutionary timescales. The percent endemicity of higher taxa (Order to Kingdom), a measure of phylogenetic relationships, was not correlated with regional and global species richness. However, there was a positive correlation between endemicity and species richness across dispersal trait groups based on their environment, typical body size, mobility (including flight), and if marine, whether pelagic or benthic. Typically flighted taxa had high endemicity contrary to the dispersal-endemicity hypothesis, but reflecting exceptional isolation by distance and time, and reduced flight ability as occurs on islands. It is proposed that the high richness and endemicity of mobile macrofauna is caused by a combination of niche specialisation opportunities and predation limiting dispersal respectively. Thus, dispersal traits better predicted endemicity and global species richness than phylogeny.

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来源期刊
Journal of the Royal Society of New Zealand
Journal of the Royal Society of New Zealand 综合性期刊-综合性期刊
CiteScore
4.60
自引率
0.00%
发文量
74
审稿时长
3 months
期刊介绍: Aims: The Journal of the Royal Society of New Zealand reflects the role of Royal Society Te Aparangi in fostering research and debate across natural sciences, social sciences, and the humanities in New Zealand/Aotearoa and the surrounding Pacific. Research published in Journal of the Royal Society of New Zealand advances scientific knowledge, informs government policy, public awareness and broader society, and is read by researchers worldwide.
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