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A comparative study of predation of three aquatic heteropteran bugs on Culex quinquefasciatus larvae

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Abstract

The aquatic bugs Anisops bouvieri Kirkaldy 1704 (Heteroptera: Notonectidae), Diplonychus (=Sphaerodema) rusticus Fabricius 1781, and Diplonychus annulatus Fabricius 1781 (Heteroptera: Belostomatidae) are common members of the freshwater insect communities of the East Calcutta Wetlands along the eastern fringe of Kolkata, India. These insects are established predators of dipteran larvae and other organisms. A comparative account of their predatory efficiency was made using larvae of Culex quinquefasciatus Say 1823 in the laboratory. It was revealed that a single adult of A. bouvieri could consume 28–34 fourth-instar mosquito larvae per day, D. rusticus 11–87 fourth-instar mosquito larvae per day, and D. annulatus 33–122 fourth-instar mosquito larvae per day, depending upon the prey and predator densities. The mean predation rate of A. bouvieri and D. annulatus remained stable over a 6-day feeding period but varied for D. rusticus. The predatory impact (PI) values were 14.77–17.31, 46.9–55.73, and 61.74–72.72 larvae/day for A. bouvieri, D. rusticus, and D. annulatus, respectively. Compared to these, the clearance rate (CR) value range was 9.06–13.25 for A. bouvieri, 13.64–15.99 for D. rusticus, and 13.50–16.52 larvae l/day/predator for D. annulatus. The values of mutual interference, “m,” remained 0.06–0.78 for A. bouvieri, 0.003–0.25 for D. rusticus, and 0.09–0.27 for D. annulatus, and did not vary between the days. The difference in predatory efficiency, CR, and PI values varied significantly among the three predators, indicating the possible difference in the function as predators occupying the same guild. It can be assumed that these predators play an important role in larval population regulation of mosquitoes and thereby impart an effect on species composition and interactions in the aquatic insect communities of the wetlands and other similar habitats where they occur.

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References

  • Aditya G, Bhattacharyya S, Kundu N, Saha GK, Raut SK (2004) Predatory efficiency of the water bug Sphaerodema annulatum on mosquito larvae (Culex quinquefasciatus) and its effect on adult emergence. Bioresour Technol 95:169–172

    Article  PubMed  CAS  Google Scholar 

  • Aditya G, Bhattacharyya S, Kundu N, Saha GK (2005) Frequency-dependent prey selection of predacious water bugs on Armigeres subalbatus immatures. J Vector Borne Dis 42:9–14.

    PubMed  CAS  Google Scholar 

  • Aditya G, Ash A, Saha GK (2006) Predatory activity of Rhantus sikkimensis and larvae of Toxorhynchites splendens on mosquito larvae in Darjeeling, India. J Vector Borne Dis 43:66–72

    PubMed  Google Scholar 

  • Alto BW, Griswold MW, Lounibos LP (2005) Habitat complexity and sex dependent predation of mosquito larvae in containers. Oecologia (Berl) 146:300–310

    Article  Google Scholar 

  • Bhattacharya DK (1998) Insect fauna associated with large water hyacinth in freshwater wetlands of West Bengal. In: Aditya AK, Halder P (eds) Proceedings of the national seminar on environmental biology. Daya, New Delhi, pp 165–169

  • Blaustein L (1998) Influence of the predatory backswimmer, Notonecta maculata, on invertebrate community structure. Ecol Entomol 23:246–252

    Article  Google Scholar 

  • Blaustein L, Kiflawi M, Eitam A, Mangel M, Cohen JE (2004) Oviposition habitat selection in response to risk of predation in temporary pools: mode of detection and consistency across experimental venue. Oecologia (Berl) 138:300–305

    Article  Google Scholar 

  • Blios C, Cloarec A (1983) Density dependent prey selection in water stick insect Ranatra linearis (Heteroptera). J Anim Ecol 52: 849–866

    Article  Google Scholar 

  • Cloarec A (1990) Factors influencing the predatory tactics of the water bug Diplonychus indicus Venk. & Rao. Heteroptera. Anim Behav 40:262–271

    Article  Google Scholar 

  • Das PK, Sivagnaname N, Amalraj DD (2006) Population interactions between Culex vishnui mosquitoes and their natural enemies in Pondicherry, India. J Vector Ecol 31(1):84–88.

    PubMed  CAS  Google Scholar 

  • Dieguez MG, Gilbert JJ (2003) Predation by Buenoa macrotibialis (Insecta, Hemiptera) on zooplankton: effect of light on selection and consumption of prey. J Plankton Res 25:759–769

    Article  Google Scholar 

  • Elliott JM (2003) Interspecific interference and the functional response of four species of carnivorous stoneflies. Freshw Biol 50:1022–1033

    Article  Google Scholar 

  • Fox LR, Murdoch WW (1978) Effects of feeding history on short-term and long-term functional responses in Notonecta hoffmani. J Anim Ecol 47:945–959

    Article  Google Scholar 

  • Fincke OM, Yanoviak SP, Hanschu RD (1997) Predation by Odonates depresses mosquito abundance in water filled tree holes in Panama. Oecologia (Berl) 112(2):244–253

    Article  Google Scholar 

  • Gilbert JJ, Burns CW (1999) Some observations on the diet of backswimmer Anisops wakefieldi (Hemiptera, Notonectidae). Hydrobiologia 412:111–118

    Article  Google Scholar 

  • Gilbert JJ, Burns CW, Gilbert CC (1999) Summer distribution patterns of backswimmer, Anisops wakefieldi (Hemiptera: Notonectidae), in a New Zealand pond. N Z J Freshw Res 33:661–672

    Google Scholar 

  • Gittleman SH (1974) Locomotion and predatory strategy in backswimmers (Hemiptera: Notonectidae). Am Midl Nat 92:496–500

    Article  Google Scholar 

  • Hampton SE (2004) Habitat overlap of enemies: temporal patterns and the role of spatial complexity. Oecologia (Berl) 138:475–484

    Article  Google Scholar 

  • Hampton SE, Gilbert JJ (2001) Observations of insect predation on rotifers. Hydrobiologia 446/447:437–444

    Google Scholar 

  • Hampton SE, Gilbert JJ, Burns CW (2000) Direct and indirect effects of juvenile Bueona macrotibialis (Hemiptera: Notonectidae) of zooplankton of a shallow pond. Limnol Oceanogr 45:1006–1012

    Article  Google Scholar 

  • Hassell MP, Lawton JH, Beddington JR (1976) The components of arthropod predation. I. The prey death rate. J Anim Ecol 45: 135–164

    Article  Google Scholar 

  • Hati AK (1988) Studies on four predaceous arthropods for biological control of mosquitoes. Bicovas 1:25–40

    Google Scholar 

  • Ikeda K, Nakasuji F (2002) Spatial-structure mediated indirect effects of an aquatic plant Trapa japonica, on the interaction between a leaf beetle Galerucella nipponensis, and a water strider, Gerris nepalensis. Popul Ecol 44:41–47.

    Article  Google Scholar 

  • Institute of Wetland Management and Ecological Design (2004) Preliminary study on the biodiversity of sewage fed fisheries of East Calcutta Wetland Ecosystem. Department of Environment, Government of West Bengal, India

    Google Scholar 

  • Jones CJ, Schreiber ET (1998) Rearing Toxorhynchites for field releases. Environ Entomol 27:315–321

    Google Scholar 

  • Khan RA, Ghosh LK (2000) Faunal diversity of aquatic insects in freshwater wetlands of southeastern West Bengal. Rec Zool Surv India Occas Paper 194:28–59

    Google Scholar 

  • Lundkvist E, Landin J, Jackson M, Svensson C (2003) Diving beetles (Dytiscidae) as predators of mosquito larvae (Culicidae) in field experiments and in laboratory tests of prey preference. Bull Entomol Res 93:219–226

    Article  PubMed  CAS  Google Scholar 

  • Mukherjee M, Pal S, Nandi NC (1998) Macroinvertebrate diversity of some urban wetlands of Calcutta. In: Aditya AK, Halder P (eds) Proceedings of the national seminar on environmental biology. Daya, New Delhi, pp 139–142

  • Mogi M, Memah V, Miyagi I, Toma T, Sembel DT (1995) Mosquito and aquatic predator abundance in irrigated and rain fed rice fields in north Sulawesi, Indonesia. J Med Entomol 32:361–367

    PubMed  CAS  Google Scholar 

  • Murdoch WW, Scott MA, Ebsworth P (1984) Effects of the general predator, Notonecta (Hemiptera) upon a freshwater community. J Anim Ecol 49:667–686.

    Google Scholar 

  • Nandi NC, Das SR, Bhuniya S, Dasgupta JM (1993) Wetland faunal resources of West Bengal. North and South 24 Parganas district. Rec Zool Surv India Occas Paper 150:1–50

    Google Scholar 

  • Nishi R, Venkatesan P (1989) Predation ingestion rate and its bearing on prey death rate in Anisops bouvieri Kirkaldy. J Entomol Res (New Delhi) 13:140–145

    Google Scholar 

  • Nishi R, Venkatesan P (1997) Influence of vegetation on the predatory performance of Anisops bouvieri Kirkaldy. J Ecotoxicol Environ Monit 7:121–124

    Google Scholar 

  • Pal S, Dey SR, Bhattacharya DK, Das SK, Nandi NC (1998) Macrophyte preference and insect diversity of freshwater wetlands in South Eastern Bengal. In: Aditya AK, Halder P (eds) Proceedings of the national seminar on environmental biology. Daya, New Delhi, pp 165–169

  • Pal TK, Ghosh KK (1988) Predatory habit of Sphaerodema annulatum (Hemiptera) on mosquito larvae and its prospects as a biocontrol agent. Bicovas 2:163–172

    Google Scholar 

  • Panickar KN, Rajagopalan PK (1977) Biological control potential of Anisops bouvieri (Kirkaldy). Ind J Med Res 66:772–776

    Google Scholar 

  • Pramanik MK, Raut SK (2003) The water bug Sphaerodema rusticum destroying vector mosquitoes larvae. J Natl Taiwan Mus 56:19–24

    Google Scholar 

  • Pramanik MK, Raut SK (2005) Predation rhythm in the water-bug Sphaerodema rusticum Fabricius. Environ Ecol 23:707–713

    Google Scholar 

  • Rao TKR (1981) Ecology of the population of some species of aquatic Hemiptera. Proc Symp Ecol Anim Popul Zool Surv India 2:91–94

    Google Scholar 

  • Rey JR, O’Connell S, Suarez S, Menendez Z, Lounibos LP, Byer G (2004) Laboratory and field studies of Macrocyclops albidus (Crustacea: Copepoda) for biological control of mosquitoes in artificial containers in a subtropical environment. J Vector Ecol 29: 124–134

    PubMed  Google Scholar 

  • Scott MA, Murdoch WW (1983) Selective predation by the backswimmer Notonecta. Limnol Oceanogr 28:352–366

    Article  Google Scholar 

  • Streams FA (1987) Foraging behaviour in a notonectid assemblage. Am Midl Nat 117:353–361

    Article  Google Scholar 

  • Su T, Mulla MS (2002) Introduction and establishment of tadpole shrimp Triops newberryi (Notostraca: Triopsidae) in a date garden for biological control of mosquito in Coachella Valley, Southern California. J Vector Ecol 27(1):138–148

    PubMed  Google Scholar 

  • Sunahara T, Ishizaka K, Mogi M (2002) Habitat size: a factor determining the opportunity for encounters between mosquito larvae and aquatic predators. J Vector Ecol 27:8–20

    PubMed  Google Scholar 

  • Sunish IP, Reuben R (2002) Factors influencing the abundance of Japanese encephalitis vectors in rice fields in India: II. Biotic. Med Vet Entomol 16:1–9

    Article  CAS  Google Scholar 

  • Tawfik MFS, El-Husseini MM, Abu Bakr H (1986) The biology of the notonectid Anisops sardea H. S., an active mosquito predator in Egypt. Bull Soc Entomol Egypt 66:12–144

    Google Scholar 

  • Victor TJ, Reuben R (1999) Population dynamics of mosquito immatures and the succession of aquatic insects in rice fields in Madurai, South India. Ind J Malariol 36:19–32

    CAS  Google Scholar 

  • Victor TJ, Marimithu S, Sivaramakrishnan KG (1991) Aquatic macrophytes and the associated mosquitoes in and around Madurai city (Tamil Nadu). Ind J Malariol 28:151–155

    CAS  Google Scholar 

  • Venkatesan P, D’sylva T (1990) Influence of prey size on choice by the water bug Diplonychus indicus Venk. and Rao Hemiptera Belostomatidae. J Entomol Res (New Delhi) 14:130–138

    Google Scholar 

  • von Kögel F (1987) Zur biologie und ökologie von Rhantus consputus STRM. Entomol Arb Mus 35/36:5–19

    Google Scholar 

  • Zar JH (1999) Biostatistical analysis, 4th edn. Pearson Education (Singapore) Pte. Ltd., New Delhi (Indian Branch), pp 1–663

    Google Scholar 

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Correspondence to Goutam Kumar Saha.

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Saha, N., Aditya, G., Bal, A. et al. A comparative study of predation of three aquatic heteropteran bugs on Culex quinquefasciatus larvae. Limnology 8, 73–80 (2007). https://doi.org/10.1007/s10201-006-0197-6

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  • DOI: https://doi.org/10.1007/s10201-006-0197-6

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