巨藻的全球生态学:从生态型到生态系统

1区 生物学 Q1 Agricultural and Biological Sciences Oceanography and Marine Biology Pub Date : 2007-06-20 DOI:10.1201/9781420050943-4
M. Graham, J. Vásquez, A. Buschmann
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引用次数: 349

摘要

巨藻(Macrocystis)是世界上最大的底栖生物,也是分布最广泛的海带分类群,是多种多样、富含能量的栖息地的基础,具有重要的生态和经济意义。虽然关于大囊藻的基础和应用文献是广泛和跨国的,但对东北太平洋大囊藻森林的研究受到了最大的关注。这篇综述综合了现有的大囊藻文献,以更全面的视角。在过去的20年里,主要文献已经从对当地大囊藻分布、丰度、种群和群落结构(如竞争和食草)的描述性和实验性研究转向对大囊藻生活史、扩散、招募、生理和种群和群落过程的大尺度变异的综合研究。现在有充分的证据表明该属是单特异性的。由于其高度可变的生理和生活史,巨囊藻占据了广泛的环境(潮间带至60+ m,北温带至暖温带),孢子体具有多种形态形式。大孢子藻孢子体对环境变化的反应非常敏感,这导致了大孢子藻种群动态的差异和对当地环境的影响。在南加州巨大的潮下巨藻森林中,巨囊藻孢子体活得很长,形成广泛的表面树冠,遮蔽底层,抑制水流,并产生和保留大量的生殖繁殖体。然而,全世界潮下大囊藻种群的大多数是小的、狭窄的、边缘的森林,它们具有生产力并改变环境资源(例如,光),但比它们在南加州的大型同类更具活力,可能是由于远程繁殖产生的本地补充。潮间带时,巨囊藻种群表现为无性繁殖。高纬度大囊藻孢子体的生长是季节性的,与太阳日照的时间变化一致,而低纬度的生长则更多地遵循养分输送的偶发性变化。尽管大囊藻的生境和能量供应随其形态和生产力的生态型变异而变化,但现有的研究表明,大囊藻相关群落具有普遍的多样性和生产力。此外,这些系统的结构和动态的时空变异性似乎是由调节大囊藻分布、丰度和生产力的过程驱动的,而不是使其他一些海带系统容易受到过度开发的消耗过程。这种全球综合表明,大囊藻形态和功能的巨大可塑性是大囊藻全球生态成功的关键决定因素。
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GLOBAL ECOLOGY OF THE GIANT KELP MACROCYSTIS : FROM ECOTYPES TO ECOSYSTEMS
The giant kelp Macrocystis is the world's largest benthic organism and most widely distributed kelp taxon, serving as the foundation for diverse and energy-rich habitats that are of great ecological and economical importance. Although the basic and applied literature on Macro- cystis is extensive and multinational, studies of large Macrocystis forests in the northeastern Pacific have received the greatest attention. This review synthesises the existing Macrocystis literature into a more global perspective. During the last 20 yr, the primary literature has shifted from descriptive and experimental studies of local Macrocystis distribution, abundance and population and commu- nity structure (e.g., competition and herbivory) to comprehensive investigations of Macrocystis life history, dispersal, recruitment, physiology and broad-scale variability in population and community processes. Ample evidence now suggests that the genus is monospecific. Due to its highly variable physiology and life history, Macrocystis occupies a wide variety of environments (intertidal to 60+ m, boreal to warm temperate) and sporophytes take on a variety of morphological forms. Macrocystis sporophytes are highly responsive to environmental variability, resulting in differential population dynamics and effects of Macrocystis on its local environment. Within the large subtidal giant kelp forests of southern California, Macrocystis sporophytes live long, form extensive surface canopies that shade the substratum and dampen currents, and produce and retain copious amounts of reproductive propagules. The majority of subtidal Macrocystis populations worldwide, however, are small, narrow, fringing forests that are productive and modify environmental resources (e.g., light), yet are more dynamic than their large southern California counterparts with local recruitment probably resulting from remote propagule production. When intertidal, Macrocystis populations exhibit vegetative propagation. Growth of high-latitude Macrocystis sporophytes is seasonal, coin- cident with temporal variability in solar insolation, whereas growth at low latitudes tracks more episodic variability in nutrient delivery. Although Macrocystis habitat and energy provision varies with such ecotypic variability in morphology and productivity, the few available studies indicate that Macrocystis -associated communities are universally diverse and productive. Furthermore, tem- poral and spatial variability in the structure and dynamics of these systems appears to be driven by processes that regulate Macrocystis distribution, abundance and productivity, rather than the consumptive processes that make some other kelp systems vulnerable to overexploitation. This global synthesis suggests that the great plasticity in Macrocystis form and function is a key determinant of the great global ecological success of Macrocystis .
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期刊介绍: With increasing interest in the field and its relevance in global environmental issues, Oceanography and Marine Biology: An Annual Review provides authoritative reviews that summarize results of recent research in basic areas of marine research, exploring topics of special and topical importance while adding to new areas as they arise
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