Aquatic insects: a review study for some biological and environmental aspects in Shatt Al- Arab and Southern Marshes of Iraq

Huda Kadhim  Ahmed

doi:10.58629/ijaq.v18i2.387

Authors

Huda Kadhim Ahmed Basrah University, Iraq

DOI:

https://doi.org/10.58629/ijaq.v18i2.387

Keywords:

aquatic insect, biology, environment indicater, Shatt A-Arab and Marshes, water pollution

Abstract

Several studies have been conducted on aquatic insects in southern Iraq that included various taxonomic, biological and ecological aspects of the larval and adult stages in aquatic environments, which reflects their abundance and important role in the societies and ecosystems inhabited by them. They serve as adequate food for groups of predatory vertebrates and invertebrates. The studies included the environments of the Shatt al-Arab River and its branches, temporary and permanent ponds emanating from them, as well as some areas of the marshes. Aquatic insects play an important nutritional role, as many types of fish depend on them and form an important link for energy transfer from the bottom to the top in the food web because many types of them show a wide difference in their feeding habitats, so their importance lies in the interconnected ecosystems in creating an ecological balance within the rings of the food chain. The ability of aquatic insects to increase their reproduction rates make them excellent model for analyzing the structure and function of the freshwater ecosystem. Some of their species that spend part of their life in water have been used as ecological indicators in determining the state of aquatic environments and estimating environmental risks as they are greatly affected by the state of the environment in which they live. It is one of the most affected individuals in terms of surface water pollution.

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Author Biography

Huda Kadhim Ahmed, Basrah University, Iraq

Marine biology dep., Marine Sciences Center

References

Abdul-Hussein, A. (1987). Aquatic insect. Published by Ministry of Higher Education and Scientific Research of Iraq. 485pp. (in Arabic)

Ahmed, H.K. and Kareem, D. K. (2020). Effect of some environmental factors on the density of Odonata naiads in the temporary ponds of Basrah Province, South of Iraq. J. Basrah Res. (Sciences). 46 (1): 110-121.URL

Ahmed, H.K. and Kareem, D.K. (2020). Seasonal variations in diversity and the relative abundance of naiads from the temporary pools in Basrah Province - Southern Iraq. Iraqi J. Aquacult., 17(1): 27-61. (in Araic). DOI: 10.58629/ijaq.v17i1.92

Alak, F.A. (2017). Identification and Ecological study to some species of Insecta: Coleoptera, Family: Dytiscidae and ability to use it in Biological Control in Basra Province. M.SC. Thesis. Coll. Agricult. Univ. Basrah, 125 pp. (In Arabic)

Al-Ansari, N., Knutsson, S. and Ali, A. A. (2012). Restoring the Garden of Eden, Iraq. J. Ear. Sci. Geotech. Eng., 2(1): 53-88. URL

Al-Badran, M.K.M. (2000). History of life and secondary production of damselfly Ishnura evensi (Odonata: Coenagrionidae) in some ponds Garmat Ali- region- Basrah. M.Sc. Thesis, Coll. Educ. Univ. of Basrah. 96 pp. (in Araic).

Al-Badran, B.N. (2006). Sedimenmlogy and mineralogy of the Al-Hammar Marsh/ Southern Iraq. A review. Mar. Bull. 1(1):32-39. (in Arabic). URL

Al-Edany, A.A.Z.S.(2014). Taxonomical and Ecological Study of Aquatic and Semiaquatic Insects(Heteroptera: Hemiptera) In Basrah Province. Ph.D. Thesis. Coll. Educ. Pure Sci. Univ. Basrah. 230 pp. (in Arabic(

Al-Edany, A.A.Z. and Kareem, D.K. (2015). Diagnosis and ecological distribution of aquatic (Hemiptera: Heteroptera) in Sullein marsh in Basrah, South of Iraq. Mesopot. J. Mar. Sci., 30(1): 33-46. URL

Al-Hejuje, M.M. (2014). Application of Water Quality and Pollution Indices to Evaluate the Water and Sediments Status in the Middle Part of Shatt Al-Arab River".Ph.D. Thesis Univ. Basrah, Coll. Science, biology department. 240 pp. (in Arabic)

Ali, H. A. (1976). Preliminary study on the aquatic beetles of Iraq (Haliplidae, Coleoptera). Bulletin of the Basrah Natural History Museum, 3: 89-94.

Ali, H.A. (1978a). A list of some aquatic of beetles of Iraq (Coleoptera: Dytiscidae).Bull. Nat. Hist. Res. Cent.7(2):11 -14.

Ali, H.A. (1978b). Some taxonomic studies on the aquatic beetles of Iraq (Coleoptera: Gyrinidae). Bulletin of the Iraq Natural History Museum, 7: 15-20.

Ali, M.H.; Anon, M.R. and Mohammed, H.H. (2002). The seasonal variation on Abundance and Biomass of two Odonata naiads Morton (Odonata: Coenagrionidae) and Brachythemis fuscopilliata Selys (Odonata: Libellulidae) at Garmat Ali region, Basrah. Mesopot. J. Mar. Sci., 17(2): 405-415. URL

Al-Khafaji, K.K.; Al-Essa, S. A. K. and Hashem, A. A. (2015). The diversity, abundance and distribution of Macroinvertebrates community in the intertidal zone of the Shatt Al- Arab, South- Iraq. Thi Qar J., 5 (2): 54-64. (in Arabic). URL

Allen, K. (2009). The ecology and conservation of threatened damselflies. The Envi. Agen. pp. 1–6. ISBN 978-1-84911-093-8. URL

Al- Mahmood, H.K.; Abdullah, S.S and Mahdi, A.A. (2008). The interaction between Water Masses of the Marshes and the Shatt Al-Arab River (South of Iraq). Mesopot. J. Mar. Sci., 23 (1): 181-199. (in Arabic). URL

Al-Onaan, H. M. K. (2018). Diagnostic and Distribution of Aquatic insects in Ponds located in Garmat Ali- river and the study of Acute Toxicity Effects of Some heavy Metals towards the Sympterum flaveolum, M.SC. thesis, Coll. Educ. . Pure Sci. Univ. Basrah. 98 pp. (In Arabic)

Al-Saffar, H.H. and Augul, R.Sh. (2021). Survey Of Insects in Some Southern Iraqi Marshes. Bull. Iraq nat. Hist. Mus. 16 (4): 571- 621. DOI: 10.26842/binhm.7.2021.16.4.0571

Arimoro, F.O. and Ikomi, R.B. (2008). Ecological integrity of upper Warri River, Niger Delta using aquatic insects as bio indicators. Ecol. Indic.,395: 1-7. DOI: 10.1016/j.ecolind.2008.06.006

Bedair, H.M., Al-Saad, H.T. and Salman, N.A. (2006) Iraq southern marshes something to be conserved. A case study. Mars. Bull.,1(2): 99-162. URL

Baurnfeid, E. and Mooy, O.(2000). Mayflies (Insecta: Ephemeroptera) And assessment of ecological integrity: A methodological approach. Hydrobiology, 135: 155–165. DOI: 10.1023/A:1017090504518

Bell, H. L. (1971). Effect of low pH on the survival and emergence of aquatic insects. Wat. Res., 5:313-319.

Bitzer, R.J. (2003). Odonates of the Middle East and their potential as biological indicators for restoring the Mesopotamian marshlands of southern Iraq. (Report submitted to the Eden Again Project to Restore the Mesopotamian Marshlands, February 16). URL

Boudot, J-P., Kalkman, V.J., Amorín, M.A., Bogdanović, T., Rivera, A.C., Degbriele, G., Dommanget, J-L., Ferreira, S., Garrigós, B., Jović, M., Kotarac, M. Lopau, W., Marinov, M., Mihoković, N., Riservato, E., Samraoui, B. and Schneider, W. (2009). Atlas of the Odonata of the Mediterranean and North Africa. Libellula Supplement, 9: 1-256. URL

Butler, M.G. (1982). A 7-year life cycle for two Chironomus species in arctic Alaskan tundra ponds (Diptera: Chironomidae). Can. J. Zool., 60: 58-70. DOI: 10.1139/z82-008

Crossly, M. N. (2002). The effect of water ,PH and nutrition on the growth of the native aquatic plant Apongeton elonyatus .Thesis, University of Queensland. Cotton.,171 pp. URL

Cummins, K.W. and Klug, M. J. (1979). Feeding ecology of stream invertebrates. Ann. Rev. Ecol. Syst.,10: 147-172. DOI: 10.1146/annurev.es.10.110179.001051

Darweesh, H. S. (2018). Identification and Ecological study to some species of nymph Order Odonata: Insecta and ability to use it in Biological Control in Basra Province. M. Sc. Thesis Coll. Agric. Univ. Basrah, 117pp. (In Arabic)

Edelstein, K. (2016). Pond and Stream Safari: A Guide to the Ecology of Aquatic Invertebrates. 4-H Leader’s Guide 147L24. A Cornell Cooperative Extension Publication. URL

Greenfield, R. (2004). An assessment protocol for water quality ied & Nat. Sci., 11(1):18-22. URLintegrity and management of the Nile river wetland system. Ph.D. Thesis, Univ. Johannesburg., 282 pp. URL

Hanna, N.S. and Shekha, Y.A. (2015). Using aquatic insects in water quality assessment of some branches of Greater Zab River within Erbil City, Iraqi Kurdistan Region. A. In. J. of R. in F., Appl.

Hassan, K.S. and Habeeb, M.A. (1996). Hassan, K.S.; Habeeb, M.A. and Al-Mousawi, N.J. (2000). Occurrence of aquatic insects with algae in Basrah Province. Mesopot. J. Mar. Sci., 15(1): 137-143. URL

Hershey, A.E.; Lamberti, G. A. and Chaloner, D. T. (2010). Aquatic Insecta Ecology. Chapter 17 ,Ecology and Classification of North American Freshwater Invertebrates.URL

Helgen, J. (2002). Methods for evaluating wetland condition: developing an invertebrate indexof biological integrity for wetlands. EPA 822R01007i. U.S. Environmental Protection Agency; Office of Water; Washington, D.C.57pp.

Hmuod, O.A.M. (2019). Biodiversity of Macroinvertebrates on the aquatic plant Ceratophyllum demersum L. in the North part of Shatt Al Arab River- Basrah/ South of Iraq. M. sc. Thesis. Univ. Basrah, Coll. Sci. 104 pp. (in Arabic)

Huryn, A.D.; Wallaca, J.B. and Andderson, N.H. (2008). Habitat, life history, secondary production, and behavioral adaptations of aquatic insects. Dubuque, IA: Kendall/ Hunt Publishing Co.; 55-104. DOI: 10.13140/2.1.4538.4481

Hussain, N.A. (2014). Biotopes of Iraqi Marshlands. DIFAF Publishing, 1st ed.432 pp.

Hussain, R. and Ahmed, K.B. (2003). Damselfly Naiads (Odonata:Zygoptera) of Sindh–Pakistan. Int. J. Agri. Biol., 5(1): 53-56. URL

Hussein, S.A.; Al- Sabunji, A.A. and Fahd, K.K. (2006). Environmental characteristics of the Euphrates River at the city of Nasiriyah and seasonal differences in physical and chemical factors. Dhi Qar Uni. J., 2(2): 2-6. URL

Inoda, T.; Tajima, F.; Taniguchi, H.; Saeki, M.; Numakura, S. (2007). Temperature Dependent Regulation of Reproduction in the Diving Beetle Dytiscus sharpi (Coleoptera:Dytiscidea) .J. Zool. Sci., 24(11):1115-1121. DOI: 10.2108/zsj.24.1115

Kalkman, V.J. ; Clausnitzer, V.; Dijkstra, K.D. B ; Orr, A. G.; Paulson, D.R. and Tol, J.V. (2008). Global diversity of dragonflies (Odonata) in freshwater. Hydrobiologia, 595:351–363. DOI: 10.1007/978-1-4020-8259-7_38

Khalaf, R.Z. (2016). Synecology of Macrobenthic Invertebrates of Three Different Aquatic Habitat at Southern Iraq. Ph. D. Thesis. Coll. Sci. Univ. Basrah, 243 pp. (In Arabic)

Khaliq, A.; Javed, M.; Sohail, M .and Sagheer, M. (2014). Environmental effects on insects and their population dynamics. J. of En. and Z. St.,2(2):1-4. URL

Latimore, J. (2012). Macroinvertebrates. Michigan's Clean Water Corps Retrieved from www.microps.net. Accessed on 4th June. URL

Lencioni, V. (2004). Survival strategies of freshwater insects in cold environments. J. Limnol., 63:45-55. DOI: 10.4081/jlimnol.2004.s1.45

Olomukoro, J.O. and Dirisu, A.(2013). Macroinvertebrate Community and Pollution Tolerance Index in Edion and Omodo Rivers in Derived Savannah Wetlands in Southern Nigeria. Jordan J. Bio. Sci.,7(1):19 -24.URL

Ross, H. H. (1976). Introduction to Aquatic insects. In Freshwater Biology. Edmondson, W. T. (ed.). 2nd edition, united states of America, 902 pp. URL

Sabeeh, A. J., Abdul Qader, A.A. and Al-janaany, H.Sh.D. (2018). A diagnostic of two species of of Odonata nymph Ischnura evansi (Morton) 1919 (Odonata: Coenagrionidae) and Anax prathenope(Seyls) 1839 (Odonata: Aeschidae) in Basra province. Iraqi J. Aquacult. Vol. 15(2): 116-128. (In Arabic). DOI: 10.58629/ijaq.v15i2.55

Sanchez-Fernandaz, D.; Abellan,P.; Velasco, J. and Millado, A. (2004). Selecting areas to protect the biodiversity of aquatic ecosystem in a semiarid Mediterranean region using water beetles. Aquatic Conservation: Marine and Freshwater Ecosystem, 14: 465-479. DOI:10.1002/aqc.633

Salman, D. S.; Abbas, M. F.; Ghazi, A. M.; Ahmed, H. K.; Akash, A.N.; Douabul, A.A.Z.; Warner, B. G. and Asada, T. (2014). Seasonal changes in zooplankton communities in the re-flooded Mesopotamian wetlands, Iraq., J. Fresh Ecol., 29(3): 397-412.

DOI: 10.1080/02705060.2014.907547

Skern, M.; Zweimuller, I. and Schiemer, F.(2010). Aquatic Heteroptera as indicators for terrestrialisation of floodplain habitats .Limnol., 40(3): 241-250. URL

Smith, I. L. (1995). The Distribution and Movement Pattern of Adult Aquatic Insects and Their Effect on Terrestrial Insectivore Food Webs Among Riparian Habitats Adjacent to Two Mountain Streams in South-East Queensland, Australia. Honours Thesis. Fac. Environ. Sci., Griffith Uni. URL

Smith, K.G., Barrios, V., Darwall, W.R.T. and Numa, C. (Editors). (2014). The status and distribution of freshwater biodiversity in the Eastern Mediterranean. Cambridge, UK, Malaga, Spain and Gland, Switzerland: IUCN. xiv+132 pp URL

Solanki, R. and Shukla, A. (2015). Aquatic Insects for Biomonitoring Freshwater Ecosystems: A Report. I.J.S.R , ISSN (Online) : 2319-7064. URL

Subramanian, K.A. and Sivaramakrishnan, K.G. (2007). Aquatic Insects for Biomonitoring Freshwater Ecosystems-A Methodology Manual. Ashoka Trust for Ecology and Environment (ATREE), Bangalore, India. 31 pp. URL

Thamer, N. K. (1997). Ecological study and production of Chironomus pseudohummi (Kieffer) (Diptera: Cironomidae) in Garmat Ali region. M. Sc. Thesis, Coll. Educ. Univ. Basrah. 103 pp.(in Arabic). URL

Trueman, J. W. H. and Richard, J. R.(2009). Odonata: dragonflies and damselflies. URL

Voshell, J.R. (2002). Guide to common freshwater invertebrates of North America. Blacksburg, Virginia : McDonald and Woodward publishing Company, 456 pp. URL

White, D.S. ; Brigham, W.U .and Doyen, J.T. (1984). Aquatic Coleoptera. In: R.W. Merritt and K.W. Cummins (eds.). An Introduction to the Aquatic Insects of North America, Kendall Hall Publishing Company, United States of America, 361-437Pp. URL

Ylue, C.M. and Yong , H.S. ( 2004 ). "Freshwater Invertebrates of the Region Academy of Sciences Malaysia , Kuala Lumpur Malaysia Aditional noteson the Aphelocheridae, Naucoridae and Notonectidae (Insecta :Heteroptera: Nepomorpha) of the Philippine Islands . Annalen desNaturhistoricha Museams in Wan,Senic., 101:109-130. URL

Zatwarnicki, T. and Kahanpää, J. (2014) Checklist of the family Ephydridae of Finland (Insecta, Diptera). In: Kahanpaa, J. and Salmela, J. (Eds.) Checklist of the Diptera of Finland. ZooKeys, 441: 339-346. DOI:10.3897/zookeys.441.7448