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RESEARCH ARTICLE
Contents Vol 59(8)

Arthropod ‘rain’ into tropical streams: the importance of intact riparian forest and influences on fish diets

Eric K. W. Chan A , Yixin Zhang B and David Dudgeon A C
+ Author Affiliations
- Author Affiliations

A Division of Ecology & Biodiversity, School of Biological Sciences, The University of Hong Kong, Pokfulam Road, Hong Kong SAR, China.

B Department of Biology, Texas State University, San Marcos, TX 78666, USA.

C Corresponding author. Email: ddudgeon@hkucc.hku.hk

Marine and Freshwater Research 59(8) 653-660 https://doi.org/10.1071/MF07191
Submitted: 18 October 2007  Accepted: 18 March 2008   Published: 22 August 2008

Abstract

Terrestrial arthropods might represent an important energy source for stream predators, but these trophic linkages have seldom been studied in the tropics. Terrestrial arthropod inputs (essentially, arthropod ‘rain’) into four streams with different riparian vegetation (two draining shrublands and two draining forests) were measured over three consecutive seasons (dry, wet, dry) from 2005 to 2007 in monsoonal Hong Kong. Predatory minnows, Parazacco spilurus (Cyprinidae), were collected and their consumption of terrestrial arthropods was estimated. Inputs of arthropods were dominated by Diptera, Collembola, Formicidae and aerial Hymenoptera, accounting for ≥73% of the arthropod abundance. Seasonal variation was marked: numbers in the dry seasons were approximately half (47–57%) those in the wet season, and biomass fell to one-third (33–37%) of the wet-season value. Shrubland streams received 19–43% fewer individuals and 6–34% less biomass than shaded forest streams. An analysis of fish diets in three of the four streams showed that terrestrial insects and spiders were more important prey in the two forest streams, accounting for 35–43% of prey abundance (39–43% by volume) v. 28% (27%) in the shrubland stream. Because riparian vegetation is the source of terrestrial arthropod inputs to streams, degradation of streamside forests that reduce these inputs will have consequences for the diets of stream fishes.

Additional keywords: allochthonous inputs, energy subsidies, fish gut contents, food webs, riparian zone.


Acknowledgements

We thank Lily Ng and M. H. Cheung for technical assistance and Dr Nancy Karraker for constructive comments on earlier drafts of the manuscript. We also thank the Agriculture, Fisheries and Conservation Department (AFCD) of the Hong Kong Government for permission to conduct field studies inside protected areas. A permit for the collection of fish and insects was given by the AFCD before the study began (permit reference number: (132) in AF CON 11/17 pt. 3). The work described in this paper was partially supported by a grant from the Research Grants Council of Hong Kong Special Administrative Region, China (Project No. [HKU] 7619/05M), and E. K. W. Chan was supported by a postgraduate studentship from The University of Hong Kong while this study was undertaken.


References

Ades, G. A. W. , and Dudgeon, D. (1999). Insect seasonality in Hong Kong: a monsoonal environment in the northern tropics. Memoirs of the Hong Kong Natural History Society 22, 81–97.
Clarke K. R., and Warwick R. M. (1994). ‘Change in Marine Communities: an Approach to Statistical Analysis and Interpretation.’ (Plymouth Marine Laboratory: Plymouth.)

Cloe, W. W. III , and Garman, G. C. (1996). The energetic importance of terrestrial arthropod inputs to three warm-water streams. Freshwater Biology 36, 104–114.
Crossref | GoogleScholarGoogle Scholar | Dudgeon D. (1999). ‘Tropical Asian Streams: Zoobenthos, Ecology and Conservation.’ (Hong Kong University Press: Hong Kong.)

Dudgeon D., and Corlett R. T. (2004). ‘The Ecology and Biodiversity of Hong Kong.’ (Friends of the Country Parks and Joint Publishing (HK) Company Ltd: Hong Kong.)

Edwards, E. D. , and Huryn, A. D. (1996). Effect of riparian land use on contributions of terrestrial invertebrates to streams. Hydrobiologia 337, 151–159.
Crossref | GoogleScholarGoogle Scholar |

Gaston, G. R. , Bartlett, J. H. W. , McAllister, A. P. , and Heard, R. W. (1996). Biomass variations of estuarine macrobenthos preserved in ethanol and formalin. Estuaries 19, 674–679.
Crossref | GoogleScholarGoogle Scholar |

Gomi, T. , Sidle, R. C. , Noguchi, S. , Negishi, J. N. , Nik, A. R. , and Sasaki, S. (2006). Sediment and wood accumulations in humid tropical headwater streams: effects of logging and riparian buffers. Forest Ecology and Management 224, 166–175.
Crossref | GoogleScholarGoogle Scholar |

Hyslop, E. J. (1980). Stomach contents analysis – a review of methods and their application. Journal of Fish Biology 17, 411–429.
Crossref | GoogleScholarGoogle Scholar |

Kawaguchi, Y. , and Nakano, S. (2001). Contribution of terrestrial invertebrates to the annual resource budget for salmonids in forest and grassland reaches of a headwater stream. Freshwater Biology 46, 303–316.
Crossref | GoogleScholarGoogle Scholar |

Kwok, H. K. , and Corlett, R. T. (2002). Seasonality of forest invertebrates in Hong Kong, South China. Journal of Tropical Ecology 18, 637–644.
Crossref | GoogleScholarGoogle Scholar |

Mason, D. F. , and MacDonald, S. M. (1982). The input of terrestrial invertebrates from tree canopies to a stream. Freshwater Biology 12, 305–311.
Crossref | GoogleScholarGoogle Scholar |

Moyle, P. B. , and Senanayake, F. R. (1984). Resource partitioning among the fishes of rainforest streams in Sri Lanka. Journal of Zoology 202, 195–223.


Nakano, S. , and Murakami, M. (2001). Reciprocal subsidies: dynamic interdependence between terrestrial and aquatic food webs. Proceedings of the National Academy of Sciences of the United States of America 98, 166–170.
Crossref | GoogleScholarGoogle Scholar | PubMed |

Nakano, S. , Miyasaka, H. , and Kuhara, N. (1999). Terrestrial–aquatic linkages: riparian arthropod inputs alter trophic cascades in a stream food web. Ecology 80, 2435–2441.


Ormerod, S. J. , Jones, M. E. , Jones, M. C. , and Phillips, D. R. (2004). The effects of riparian forestry on invertebrate drift and brown trout in upland streams of contrasting acidity. Hydrology and Earth System Sciences 8, 578–588.


Polis, G. A. , Anderson, W. B. , and Holt, R. D. (1997). Toward an integration of landscape and food web ecology: the dynamics of spatially subsidized food webs. Annual Review of Ecology and Systematics 28, 289–316.
Crossref | GoogleScholarGoogle Scholar |

Romero, N. , Gresswell, R. E. , and Li, J. L. (2005). Changing patterns in coastal cutthroat trout (Oncorhynchus clarki clarki) diet and prey in a gradient of deciduous canopies. Canadian Journal of Fisheries and Aquatic Sciences 62, 1797–1807.
Crossref | GoogleScholarGoogle Scholar |

Sodhi, N. S. , Koh, L. P. , Brook, B. W. , and Ng, P. K. L. (2004). Southeast Asian biodiversity: an impending disaster. Trends in Ecology & Evolution 19, 654–660.
Crossref | GoogleScholarGoogle Scholar |

Wallace, J. B. , Eggert, S. L. , Meyer, J. L. , and Webster, J. R. (1997). Multiple trophic levels of a forest stream linked to terrestrial litter inputs. Science 277, 102–104.
Crossref | GoogleScholarGoogle Scholar |

Wipfli, M. S. (1997). Terrestrial invertebrates as salmonid prey and nitrogen sources in streams: contrasting old growth and young growth riparian forests in southeastern Alaska, U.S.A. Canadian Journal of Fisheries and Aquatic Sciences 54, 1259–1269.
Crossref | GoogleScholarGoogle Scholar |