巨型海带定殖生态学及其对海藻林恢复的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-27 DOI:10.1111/jpy.13487
Daniel C. Reed, Stephen C. Schroeter, David Huang, Denise Weisman, Kathryn M. Beheshti, Rachel S. Smith
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引用次数: 0

摘要

海藻森林恢复的成功和成本效益取决于对海藻定殖生态学的了解,特别是在扩散潜力、招募成功率和后续建立方面。为了深入了解这些过程,我们研究了巨型海带(Macrocystis pyrifera)在大型人工礁石上定居的空间模式和时间轨迹。这个 151 公顷的人工鱼礁群在 21 年内分三个阶段建成,因此可以对各种环境条件、扩散距离和来源种群规模下的扩散、招募和后续建立进行研究。大海藻在人工礁石所有阶段的自然定殖都很迅速(1 年内),并扩展到整个 7 公里长的礁石群。定殖密度随着与最近来源种群的距离而下降,但只有在第一阶段与最近来源种群的距离≤3.5千米时才会下降。尽管出现了这种下降,但距离源种群最远的人工鱼礁模块上的新生物足以在几年内形成茂密的海藻群。用实验室饲养的海带胚胎进行人工礁石外植实验基本成功,但证明没有必要,因为在人工礁石建造后的 2-3 年内,自然繁殖的海带生物量超过了在附近天然礁石上观察到的所有三个阶段的生物量。这种干扰后的高自然增殖潜力对海藻林恢复工作具有重要意义,因为海藻林恢复工作采用了成本高昂、物流困难的方法,通过主动播种和移植来模拟这一过程。
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The ecology of giant kelp colonization and its implications for kelp forest restoration

The success and cost-effectiveness of kelp forest restoration hinges on understanding the colonization ecology of kelps, particularly with respect to dispersal potential, recruitment success, and subsequent establishment. To gain needed insight into these processes we examined spatial patterns and temporal trajectories of the colonization of a large artificial reef by the giant kelp Macrocystis pyrifera. The 151 ha artificial reef complex was constructed in three phases over 21 years, enabling dispersal, recruitment, and subsequent establishment to be examined for a wide range of environmental conditions, dispersal distances, and source population sizes. Natural colonization of all phases of the artificial reef by giant kelp was rapid (within 1 year) and extended across the entire 7-km-long reef complex. Colonization density declined with distance from the nearest source population, but only during the first phase when the distance from the nearest source population was ≤3.5 km. Despite this decline, recruitment on artificial reef modules farthest from the source population was sufficient to produce dense stands of kelp within a couple of years. Experimental outplanting of the artificial reef with laboratory-reared kelp embryos was largely successful but proved unnecessary, as the standing biomass of kelp resulting from natural recruitment exceeded that observed on nearby natural reefs within 2–3 years of artificial reef construction for all three phases. Such high potential for natural colonization following disturbance has important implications for kelp forest restoration efforts that employ costly and logistically difficult methods to mimic this process by active seeding and transplanting.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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