闽东近海春秋季游泳动物多样性、密度及群落特征

doi:10.17520/biods.2022635

生物多样性 ›› 2023, Vol. 31 ›› Issue (7): 22635. DOI: 10.17520/biods.2022635

• 研究报告: 动物多样性 • 上一篇下一篇

闽东近海春秋季游泳动物多样性、密度及群落特征

刘彩莲¹, 许庆¹, 王林龙², 邢衍阔², 宋稼豪¹, 林柏岸¹, 康斌², 刘敏¹^,^*()

1.厦门大学海洋与地球学院, 福建厦门 361102
2.中国海洋大学水产学院, 山东青岛 266003

收稿日期:2022-11-10 接受日期:2022-12-24 出版日期:2023-07-20 发布日期:2023-06-16
通讯作者: *E-mail: minliuxm@xmu.edu.cn
作者简介:*E-mail: minliuxm@xmu.edu.cn
基金资助:
国家自然科学基金(41976091)

Nekton diversity, density, and community structure of spring and autumn in coastal waters of eastern Fujian Province

Cailian Liu¹, Qing Xu¹, Linlong Wang², Yankuo Xing², Jiahao Song¹, Baian Lin¹, Bin Kang², Min Liu¹^,^*()

1. College of Ocean and Earth Sciences, Xiamen University, Xiamen, Fujian 361102
2. Fisheries College, Ocean University of China, Qingdao, Shandong 266003

Received:2022-11-10 Accepted:2022-12-24 Online:2023-07-20 Published:2023-06-16
Contact: *E-mail: minliuxm@xmu.edu.cn

摘要/Abstract

摘要：

近海游泳动物的调查可以丰富生物多样性数据库, 摸清渔业资源现状及变化趋势, 并为当地渔业的有效管理提供基础数据支撑。为了解闽东近海游泳动物种类组成、密度及群落结构等特征, 本研究于2021年春季(4月)和秋季(10月)在该海域布设8个站位进行游泳动物底拖网调查, 应用相对重要性指数(index of relative importance, IRI)、多样性指数、数量生物量比较曲线(abundance biomass comparison curve, 简称ABC曲线)、非度量多维标度(non-metric multidimensional scaling, NMDS)、相似性百分比分析(similarity percentage analysis, SIMPER)及生物-环境变量相关性(biota-environment matching, BIOENV)等方法, 分析了游泳动物的物种多样性及群落特征。结果显示两个季度共捕获游泳动物147种, 春季优势种表现出小型低值的特点, 而秋季优势种则以经济价值较高的种类为主, 其中龙头鱼(Harpadon nehereus)是唯一一种在春秋两季均占优势的种类(IRI > 4,000)。春季的游泳动物物种数显著低于秋季(P < 0.05)。基于质量计算的Shannon-Wiener多样性指数(H'_BW)在春季显著低于秋季(P < 0.05), 且春季游泳动物种间亲缘关系较近, 平均分类差异指数较低。游泳动物密度中, 春季平均尾数密度和平均质量密度分别为16.9 × 10³ ± 14.5 × 10³ ind./km²和474.0 ± 362.0 kg/km², 极显著低于秋季的240.8 × 10³ ± 178.6 × 10³ ind./km²和2,587.5 ± 1,495.5 kg/km²(P < 0.01)。春季鱼类幼体尾数比例极显著低于秋季(P < 0.01)。ABC曲线表明, 游泳动物群落受到中等甚至严重干扰, 且秋季尤为严重。游泳动物群落结构表现出极显著的春秋季差异(P < 0.01), 与群落结构相关性最高的环境因子组合为温度和溶解氧(r = 0.548, P < 0.01)。本研究揭示了闽东近海游泳动物平均质量密度在经历2017年低值后目前恢复到2007年的水平。春秋季调查分别在伏季休渔期前后开展, 如果能做到长期和持续的跟踪调查, 可以为今后休渔期成效的评估提供依据。

关键词: 福建海域, 游泳动物, 群落结构, 多样性, 密度, 伏季休渔

Abstract

Aim: Nekton surveys in coastal waters can enrich our understanding of species diversity, assess the status of local fishery resources and variations in their trends, and provide the fundamental data that needed for effective management. The aim of this study was to understand nekton species composition, density, and community structure in coastal waters of eastern Fujian Province.

Methods: Bottom trawl surveys were conducted at eight stations in coastal waters of eastern Fujian Province to collect nekton samples in spring (April) and autumn (October) of 2021. Fishes, crustaceans and cephalopods were identified to species level if possible. The index of relative importance (IRI), Shannon-Wiener diversity index based on number (H'_N) and weight (H'_BW), taxonomic diversity indices (taxonomic diversity, Δ; taxonomic distinctness, Δ^*; average taxonomic distinctness, Δ⁺; variation in taxonomic distinctness, Λ⁺) and densities (i.e. abundance and biomass) were calculated. The proportions of the number of juvenile fishes were estimated based on length measurements and the lengths at fish sexual maturation were obtained from Fishbase (www.fishbase.org). Abundance biomass comparison curve (ABC curve) of nekton and different taxonomic groups (fishes, crustaceans and cephalopods) were also evaluated. Non-metric multidimensional scaling (NMDS), similarity percentage analysis (SIMPER), and biota-environment matching (BIOENV) were used to describe the characteristics of the nekton community structure and the relationships with five environmental factors (temperature, dissolved oxygen, salinity, pH and water depth). The differences in the nekton community between spring and autumn were also tested statistically.

Results: A total of 147 nekton species, including 82 fishes, 57 crustaceans, and 8 cephalopods, were collected. Eleven dominant species (IRI ≥ 500) were identified, including Harpadon nehereus, which had the highest IRI values (IRI > 4,000) in both spring and autumn, and was the only species that dominated in both seasons. The dominant species were generally small-sized and low-valued in spring, and large-sized and high-valued in autumn. The Shannon-Wiener diversity index based on weight (H'_BW) in spring was significantly lower than that of autumn (P < 0.05). The low average taxonomic distinctness (Δ⁺) in spring indicated that the taxonomic relationship of nekton species was closely associated. The average densities of nekton were 16.9 × 10³ ± 14.5 × 10³ ind./km² and 474.0 ± 362.0 kg/km² in spring, which were significantly lower than those in autumn (240.8 × 10³ ± 178.6 × 10³ ind./km² and 2,587.5 ± 1,495.5 kg/km²) (P < 0.01). The number of nekton species, the H'_BW and the proportions of the number of juvenile fishes in spring were significantly lower than those in autumn (P < 0.05). ABC curves suggested that the nekton communities in coastal waters of eastern Fujian Province were under a disturbed-even stressed-condition, especially in autumn. The nekton community structure was significantly distinct between spring and autumn (P < 0.01). The community structure was closely related to the combination of temperature and dissolved oxygen factors according to the BIOENV results (r = 0.548, P < 0.01).

Conclusion: This study revealed that the number of nekton species in coastal waters of eastern Fujian Province was relatively high, irrespective of only two seasonal surveys, compared to other coastal areas in Fujian. Based on comparisons of the average density and the average body weight of nekton in 2007-2021 in the same area or other waters of Fujian, the fishery resources in coastal waters of eastern Fujian Province showed a positive trend. As these surveys were conducted before and after the national summer fishing moratorium, long-term monitoring can be applied to evaluate the effectiveness of the fishing moratorium regulation in the future.

Key words: Fujian waters, nekton, community structure, diversity, density, summer fishing moratorium

刘彩莲, 许庆, 王林龙, 邢衍阔, 宋稼豪, 林柏岸, 康斌, 刘敏 (2023) 闽东近海春秋季游泳动物多样性、密度及群落特征. 生物多样性, 31, 22635. DOI: 10.17520/biods.2022635.

Cailian Liu, Qing Xu, Linlong Wang, Yankuo Xing, Jiahao Song, Baian Lin, Bin Kang, Min Liu (2023) Nekton diversity, density, and community structure of spring and autumn in coastal waters of eastern Fujian Province. Biodiversity Science, 31, 22635. DOI: 10.17520/biods.2022635.

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图/表 12

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物种 Species	贡献度 Contribution (%)
物种 Species	春秋季差异性 Dissimilarity between spring and autumn	春季相似性 Similarity in spring	秋季相似性 Similarity in autumn
黄鲫 Setipinna tenuifilis		7.50
龙头鱼 Harpadon nehereus	3.11	7.46	8.08
中华管鞭虾 Solenocera crassicornis		6.69	4.35
沙带鱼 Lepturacanthus savala		6.59
口虾蛄 Oratosquilla oratoria		6.13
断脊小口虾蛄 Oratosquillina interrupta		5.83	4.42
刺鲳 Psenopsis anomala		4.98
双斑蟳 Charybdis bimaculata		4.63
杜氏枪乌贼 Uroteuthis duvaucelii		4.44
六丝矛尾虾虎鱼 Amblychaeturichthys hexanema		3.57
哈氏仿对虾 Mierspenaeopsis hardwickii	4.34		8.12
大头银姑鱼 Pennahia macrocephalus	4.09		5.98
红星梭子蟹 Portunus sanguinolentus	3.37		5.37
刀额仿对虾 Mierspenaeopsis cultrirostris	2.61		4.81
鳞鳍叫姑鱼 Johnius distinctus	2.33		3.73
六指多指马鲅 Polydactylus sextarius	2.15		3.59
三疣梭子蟹 Portunus trituberculatus	2.56		3.56
大黄鱼 Larimichthys crocea	1.76
曼氏无针乌贼 Sepiella inermis	1.75

物种 Species	贡献度 Contribution (%)
物种 Species	春秋季差异性 Dissimilarity between spring and autumn	春季相似性 Similarity in spring	秋季相似性 Similarity in autumn
黄鲫 Setipinna tenuifilis		7.50
龙头鱼 Harpadon nehereus	3.11	7.46	8.08
中华管鞭虾 Solenocera crassicornis		6.69	4.35
沙带鱼 Lepturacanthus savala		6.59
口虾蛄 Oratosquilla oratoria		6.13
断脊小口虾蛄 Oratosquillina interrupta		5.83	4.42
刺鲳 Psenopsis anomala		4.98
双斑蟳 Charybdis bimaculata		4.63
杜氏枪乌贼 Uroteuthis duvaucelii		4.44
六丝矛尾虾虎鱼 Amblychaeturichthys hexanema		3.57
哈氏仿对虾 Mierspenaeopsis hardwickii	4.34		8.12
大头银姑鱼 Pennahia macrocephalus	4.09		5.98
红星梭子蟹 Portunus sanguinolentus	3.37		5.37
刀额仿对虾 Mierspenaeopsis cultrirostris	2.61		4.81
鳞鳍叫姑鱼 Johnius distinctus	2.33		3.73
六指多指马鲅 Polydactylus sextarius	2.15		3.59
三疣梭子蟹 Portunus trituberculatus	2.56		3.56
大黄鱼 Larimichthys crocea	1.76
曼氏无针乌贼 Sepiella inermis	1.75

调查水域 Survey waters	调查时间 Survey time	H'平均值(范围) H' average (Range)		文献来源 Data source
调查水域 Survey waters	调查时间 Survey time	质量 Weight	数量 Number	文献来源 Data source
台湾海峡 Taiwan Strait	2007.04	2.34 (1.61-2.79)	-	宋普庆等, 2012
台湾海峡 Taiwan Strait	2007.10-11	2.64 (2.19-3.11)	-	宋普庆等, 2012
东山湾 Dongshan Bay	2009.05	1.33 (0.58-2.03)	-	张静等, 2013b
东山湾 Dongshan Bay	2008.11	1.90 (1.17-2.67)	-	张静等, 2013b
东山湾 Dongshan Bay	2010.02	2.01 (0.89-2.72)	-	林龙山等, 2012
东山湾 Dongshan Bay	2010.08	1.94 (1.24-2.27)	-	林龙山等, 2012
兴化湾 Xinghua Bay	2012.04	1.83 (1.30-2.33)	-	王飞跃, 2017
兴化湾 Xinghua Bay	2012.10	2.19 (1.32-2.64)	-	王飞跃, 2017
九龙江口 Jiulong River Estuary	2013.04	1.93 (1.34-2.57)	-	刘勇等, 2015
九龙江口 Jiulong River Estuary	2013.11	1.81 (1.00-2.18)	-	刘勇等, 2015
闽江口 Min River Estuary	2017.04	1.51 (0.66-2.78)	1.62 (0.48-2.76)	张蓝蓝, 2020^①(①张蓝蓝 (2020) 福建省闽江口及附近海域游泳动物密度和群落多样性研究. 硕士学位论文, 厦门大学, 福建厦门.)
	2017.08	2.11 (0.33-2.98)	1.61 (1.14-2.46)
	2018.04	1.55 (0.40-2.40)	2.26 (0.16-3.27)
	2018.08	2.34 (1.00-3.12)	2.42 (1.58-2.97)
闽东近海(大范围) Coastal waters of eastern Fujian Province (large scale)	2017.05	2.76 (1.80-2.93)	2.33 (1.37-2.88)	刘金虎等, 2020
	2017.10	2.96 (2.04-3.02)	2.75 (1.58-2.83)	刘金虎等, 2020
闽东近海 Coastal waters of eastern Fujian Province	2021.04	2.18 (1.83-3.20)	2.41 (1.74-3.17)	本调查 This study
闽东近海 Coastal waters of eastern Fujian Province	2021.10	2.63 (2.25-2.93)	2.35 (2.07-2.62)	本调查 This study

调查水域 Survey waters	调查时间 Survey time	H'平均值(范围) H' average (Range)		文献来源 Data source
调查水域 Survey waters	调查时间 Survey time	质量 Weight	数量 Number	文献来源 Data source
台湾海峡 Taiwan Strait	2007.04	2.34 (1.61-2.79)	-	宋普庆等, 2012
台湾海峡 Taiwan Strait	2007.10-11	2.64 (2.19-3.11)	-	宋普庆等, 2012
东山湾 Dongshan Bay	2009.05	1.33 (0.58-2.03)	-	张静等, 2013b
东山湾 Dongshan Bay	2008.11	1.90 (1.17-2.67)	-	张静等, 2013b
东山湾 Dongshan Bay	2010.02	2.01 (0.89-2.72)	-	林龙山等, 2012
东山湾 Dongshan Bay	2010.08	1.94 (1.24-2.27)	-	林龙山等, 2012
兴化湾 Xinghua Bay	2012.04	1.83 (1.30-2.33)	-	王飞跃, 2017
兴化湾 Xinghua Bay	2012.10	2.19 (1.32-2.64)	-	王飞跃, 2017
九龙江口 Jiulong River Estuary	2013.04	1.93 (1.34-2.57)	-	刘勇等, 2015
九龙江口 Jiulong River Estuary	2013.11	1.81 (1.00-2.18)	-	刘勇等, 2015
闽江口 Min River Estuary	2017.04	1.51 (0.66-2.78)	1.62 (0.48-2.76)	张蓝蓝, 2020^①(①张蓝蓝 (2020) 福建省闽江口及附近海域游泳动物密度和群落多样性研究. 硕士学位论文, 厦门大学, 福建厦门.)
	2017.08	2.11 (0.33-2.98)	1.61 (1.14-2.46)
	2018.04	1.55 (0.40-2.40)	2.26 (0.16-3.27)
	2018.08	2.34 (1.00-3.12)	2.42 (1.58-2.97)
闽东近海(大范围) Coastal waters of eastern Fujian Province (large scale)	2017.05	2.76 (1.80-2.93)	2.33 (1.37-2.88)	刘金虎等, 2020
	2017.10	2.96 (2.04-3.02)	2.75 (1.58-2.83)	刘金虎等, 2020
闽东近海 Coastal waters of eastern Fujian Province	2021.04	2.18 (1.83-3.20)	2.41 (1.74-3.17)	本调查 This study
闽东近海 Coastal waters of eastern Fujian Province	2021.10	2.63 (2.25-2.93)	2.35 (2.07-2.62)	本调查 This study

调查水域 Survey waters	调查时间 Survey time	尾数密度 Abundance (×10³ind./km²)	质量密度 Biomass (kg/km²)	平均质量 Average body weight (g/ind.)	文献来源 Data source
闽江口(大范围) Min River Estuary (large scale)	2007.04	-	558.4	-	黄良敏等, 2010
闽江口(大范围) Min River Estuary (large scale)	2007.10	-	2,514.1	-	黄良敏等, 2010
东山湾 Dongshan Bay	2009.05	15.0	375.7	25.05	张静等, 2013b
东山湾 Dongshan Bay	2008.11	8.1	168.7	20.83	张静等, 2013b
东山湾 Dongshan Bay	2010.05	9.0	366.7	40.74	林龙山等, 2012
东山湾 Dongshan Bay	2010.11	11.0	390.3	35.48	林龙山等, 2012
兴化湾 Xinghua Bay	2012.04	72.1	829.3	11.50	王飞跃, 2017
兴化湾 Xinghua Bay	2012.10	82.2	764.2	9.30	王飞跃, 2017
九龙江口 Jiulong River Estuary	2013.04	10.5	252.3	24.03	刘勇等, 2015
九龙江口 Jiulong River Estuary	2013.11	19.0	402.5	21.18	刘勇等, 2015
闽江口 Min River Estuary	2017.04	106.8	721.0	6.75	张蓝蓝, 2020^①(①张蓝蓝 (2020) 福建省闽江口及附近海域游泳动物密度和群落多样性研究. 硕士学位论文, 厦门大学, 福建厦门.)
	2017.11	51.2	482.9	9.43
	2018.04	537.2	2,396.3	4.46
	2018.11	17.9	282.0	15.75
闽东近海(大范围) Coastal waters of eastern Fujian Province (large scale)	2017.05	102.0	1,013.7	9.94	刘金虎等, 2020
	2017.10	66.0	899.0	13.62	刘金虎等, 2020
闽东近海 Coastal waters of eastern Fujian Province	2021.04	16.9	474.0	28.05	本调查 This study
闽东近海 Coastal waters of eastern Fujian Province	2021.10	24.8	2,587.0	104.31

闽东近海春秋季游泳动物多样性、密度及群落特征

Nekton diversity, density, and community structure of spring and autumn in coastal waters of eastern Fujian Province

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季节 Season	站位 Station	鱼类* Fishes*	甲壳类 Crustaceans	头足类 Cephalopods	总计* Total*
春季 Spring	1	10	23	1	34
	2	19	21	3	43
	3	12	31	1	44
	4	13	12	3	28
	5	18	0	2	20
	6	7	12	0	19
	7	25	18	1	44
	8	14	19	1	34
	平均 Average	15	12	2	33
秋季 Autumn	1	17	18	1	36
	2	26	19	3	48
	3	23	16	0	39
	4	26	18	2	46
	5	23	24	3	50
	6	28	20	2	50
	7	15	19	3	37
	8	23	18	2	43
	平均 Average	23	19	2	44

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