Introduced Mangroves along the Coast of Moloka‘i, Hawai‘i may Represent Novel Habitats for Megafaunal Communities

IF 0.7 4区 生物学 Q4 MARINE & FRESHWATER BIOLOGY
Pacific Science Pub Date : 2021-07-01 DOI:10.2984/75.2.4
Bryan A. Nakahara, A. Demopoulos, Y. Rii, R. Alegado, Kauaoa M. S. Fraiola, C. Smith
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引用次数: 0

Abstract

Abstract: Mangrove forests are prevalent along tropical/subtropical coastlines and provide valuable ecosystem services including coastline stabilization, storm impact reduction, and enhanced coastal productivity. However, mangroves were absent from the Hawaiian Islands and their introduction to Moloka‘i in 1902 has provided an opportunity to examine their unique influence on coastal landscapes. Previous studies indicate an inability of native detritivores to utilize tannin-rich substrates, yielding poor cycling of mangrove-derived detritus in Hawaiian tidal zones. We hypothesize that in addition to altering detrital inputs, introduced mangroves facilitate the persistence of introduced species in the Hawaiian coastal zone by providing novel habitat for juvenile megafauna. To determine whether mangrove-dominated tidal zones harbor megafaunal assemblages distinct from open sandflats, we sampled in two mangrove (M1 and M2) and two adjacent sandflat (S1 and S2) sites along the southern coast of Moloka‘i, where the most mature mangrove forests occur in Hawai‘i. There were no statistical differences in total abundances between M1 and M2 or S1 and S2; therefore, results from individual deployments were pooled across the sites in order to conduct between-habitat (mangrove vs. sandflat) comparisons. Our mangrove study site had significantly higher abundances of megafauna, including several shrimp and crab species, compared to the sandflat site. The community composition within the mangrove site differed from the sandflat site, including higher abundances of non-native mangrove crabs (Scylla serrata), as well as native fish Bathygobius cocosensis and crustaceans (Thalamita crenata, Palaemon pacificus, P. debilis) than in the sandflat site, indicating that the mangrove site may provide niches for both invasive and native species. In addition, mean body length for several similar species was smaller in the mangrove site than in the sandflat site, suggesting that these mangroves may be providing a habitat for juvenile species. While our study was spatially limited to two mangrove and two adjacent sandflat sites, our results suggest that introduced mangroves in Moloka‘i may support small-bodied, native, and non-native megafauna, influencing coastal Hawaiian trophic dynamics. Our case study provides a baseline for megafaunal fish and invertebrate communities present prior to non-native mangrove removal as well as for monitoring potential community changes following expansion of mangrove habitats due to climate change.
夏威夷莫洛卡岛海岸引进的红树林可能代表着巨型动物群落的新栖息地
摘要/ Abstract摘要:红树林在热带/亚热带海岸线上普遍存在,具有稳定海岸线、减少风暴影响和提高海岸生产力等重要的生态系统服务功能。然而,夏威夷群岛上没有红树林,1902年它们被引入莫洛卡伊岛,这为研究它们对沿海景观的独特影响提供了机会。先前的研究表明,当地的碎屑动物无法利用富含单宁的基质,导致夏威夷潮带红树林碎屑的循环不良。我们假设,除了改变碎屑输入外,引入的红树林通过为幼年巨型动物提供新的栖息地,促进了引入物种在夏威夷沿海地区的持久性。为了确定红树林占主导地位的潮汐区是否有不同于开阔沙地的巨型动物群落,我们在莫洛卡岛南部海岸的两个红树林(M1和M2)和两个相邻的沙地(S1和S2)取样,夏威夷最成熟的红树林发生在那里。总丰度M1与M2、S1与S2之间无统计学差异;因此,单个部署的结果汇集在各个地点,以便在栖息地(红树林与沙滩)之间进行比较。与沙地相比,我们的红树林研究地点有明显更高的巨型动物丰度,包括几种虾和蟹。红树林站点内的群落组成与滩地站点不同,包括非本地红树蟹(Scylla serrata)、本地鱼(Bathygobius cocosensis)和甲壳类(Thalamita crenatata、Palaemon pacificus、P. debuis)的丰度高于滩地站点,表明红树林站点可能为入侵物种和本地物种提供了生态位。此外,几个相似物种的平均体长在红树林站点比在沙地站点要小,这表明这些红树林可能为幼种提供了栖息地。虽然我们的研究在空间上仅限于两个红树林和两个相邻的沙滩,但我们的结果表明,莫洛卡伊岛的红树林可能支持小型,本地和非本地巨型动物,影响夏威夷沿海的营养动态。我们的案例研究为非本土红树林移除之前的巨型鱼类和无脊椎动物群落提供了基线,并为监测由于气候变化导致红树林栖息地扩张后的潜在群落变化提供了基线。
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来源期刊
Pacific Science
Pacific Science 生物-动物学
CiteScore
1.40
自引率
14.30%
发文量
17
审稿时长
3 months
期刊介绍: Pacific Science: A Quarterly Devoted to the Biological and Physical Sciences of the Pacific Region The official journal of the Pacific Science Association. Appearing quarterly since 1947, Pacific Science is an international, multidisciplinary journal reporting research on the biological and physical sciences of the Pacific basin. It focuses on biogeography, ecology, evolution, geology and volcanology, oceanography, paleontology, and systematics. In addition to publishing original research, the journal features review articles providing a synthesis of current knowledge.
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