[1]
A.I. Payne, R.C. Wakeford, E.T. Ndomahina, Bumbuna Hydroelectric Project Baseline Biodiversity Surveys. Final Draft Baseline Fish Survey. Nippon Koel U.K, 2006.
Google Scholar
[2]
T.S. Imam et al., Length-weight relationship and condition factor of four fish species from Wasai Reservoir in Kano, Nigeria. African Studies. 6 (2010) 125-130.
Google Scholar
[3]
C. I. Atama et al., Length-Weight Relationship and Condition Factor of Six Cichlid (Cichilidae: Perciformis) Species of Anambra River, Nigeria. Journal of Fisheries and Aquaculture. 4(2) (2013) 82-86.
Google Scholar
[4]
W. Ndiaye et al., The length-weight relationship and condition factor of white grouper (Epinephelus aeneus, Geoffroy Saint Hilaire, 1817) at the south-west coast of Senegal, West Africa. International Journal of Advanced Research. 3(3) (2015) 145-153.
DOI: 10.21608/ejabf.2021.191720
Google Scholar
[5]
S.C. Izah, T.C.N. Angaye, Environmental Impacts of Oil palm processing in Nigeria. Biotechnological Research. 2(3) (2016) 132-141.
Google Scholar
[6]
I.R. Inyang, N.C. Okon, S.C. Izah, Effect of glyphosate on some enzymes and electrolytes in Heterobranchus bidosalis (a common African catfish). Biotechnological Research. 2(4) (2016).161-165.
Google Scholar
[7]
I.R. Inyang, K. Akio, S.C. Izah, Effect of dimethoate on lactate dehydrogenase, creatinine kinase and amylase in Clarias lazera. Biotechnological Research. 2(4) (2016). pp.155-160.
Google Scholar
[8]
S.C. Izah, T.C.N. Angaye, E.I. Ohimain, Environmental Impacts of Oil palm processing in Nigeria. Biotechnological Research. 2(3) (2016) 132-141.
Google Scholar
[9]
M. Chandel, S.K. Tank, Cytogenetic Study of Allium cepa Root Tip Cells treated with Textile Effluent. Biotechnological Research. 2(3) (2016) 100-103.
Google Scholar
[10]
E.I. Seiyaboh, G.A. Harry, S.C. Izah, Length-Weight Relationship and Condition Factor of Five Fish Species from River Brass, Niger Delta. Biotechnological Research. 2(4) (2016) 187-192.
Google Scholar
[11]
A. Samat et al., Length-weight Relationship and Condition Factor of Pterygoplichthys pardalis (Pisces: Loricariidae) in Malaysia Peninsula. Research Journal of Fisheries and Hydrobiology. 3(2) (2008) 48-53.
Google Scholar
[12]
A. Nehemia, J.D. Maganira, C. Rumisha, Length-Weight relationship and condition factor of tilapia species grown in marine and fresh water ponds. Agriculture and Biology Journal of North America. 3(3) (2012) 117-124.
DOI: 10.5251/abjna.2012.3.3.117.124
Google Scholar
[13]
P.L. Lalrinsanga et al., Length Weight Relationship and Condition Factor of Giant Freshwater Prawn Macrobrachium rosenbergii (De Man, 1879) Based on Developmental Stages, Culture Stages and Sex. urkish Journal of Fisheries and Aquatic Sciences. 12(4) (2012) 917-924.
DOI: 10.33997/j.afs.2016.29.4.001
Google Scholar
[14]
K. Mahmood et al., Length-weight relationship and condition factor of Ilesha melastoma (Clupeiformes pristigasteridae) off Pakistan. Pakistan Journal of Zoology. 44(1) (2012). 71 – 77.
Google Scholar
[15]
A. I. Hart, J. F. N. Abowei, A study of the length-weight relationship, condition factor and age of ten fish species from the lower Nun River. Niger Delta. Niger Delta. Afr. J. Appl. Z. Zool. Environ. Biol. 9 (2007).13-19.
DOI: 10.4314/jasem.v12i1.55560
Google Scholar
[16]
D. Pauly, Linear regressions in fisheries research, Journal of the Fisheries Research Board of Canada. 30 (1993) 409-434.
Google Scholar
[17]
R. Riedel, L.M. Caskey, S.H. Hurlbert, Length-weight relations and growth rates of dominant fishes of the Salton Sea: implications for predation by fish-eating birds. Lake and Reservoir Management. 23 (2007) 528-535.
DOI: 10.1080/07438140709354036
Google Scholar
[18]
K.A. Ighwela, A.B. Ahmed, A.B. Abol-Munafi, Condition Factor as an Indicator of Growth and Feeding Intensity of Nile Tilapia Fingerlings (Oreochromis niloticus) Feed on Different Levels of Maltose American-Eurasian. American-Eurasian Journal of Agricultural and Environmental Science. 11(4) (2011) 559-563.
Google Scholar
[19]
H. Musa et al., Length Weight Relationship, Condition Factor and Stomach Contents Analysis of Oreochromis Niloticus in Shirmu Lake Hungu, Kano state, Nigeria. Global Advanced Research Journal of Agricultural Science. 5(7) (2016) 315-324.
Google Scholar
[20]
U.B. Iyabo, Length-Weight Relationship and Condition Factor of Chrysichthys nigrodigitatus (Lacepede: 1803) of Ebonyi River, South Eastern Nigeria. American Journal of Agricultural Science. 2(2) (2015).70-74.
Google Scholar
[21]
K.B. Olurin, O.A. Aderibigbe, Length-Weight Relationship and Condition Factor of Pond Reared Juvenile Oreochromis niloticus. Journal of Zoology. 1 (2006) 82-85.
Google Scholar
[22]
A.I. Payne, R.C. Wakeford, E.T. Ndomahina, Fish distribution and zonation along, a tropical African river, the Rokel/Seli River, Sierra Leone, West Africa. Smithiana Bulletin. 12 (2010) 25-36.
Google Scholar
[23]
Naiman R.J., Latterell J.J., Principles for linking fish habitat to fisheries management and conservation, 2005.
Google Scholar
[24]
A.Kamdem-Toham, G.G. Teugels, First data on an index of Biotic Integrity (IBI) based on fish assemblages for the assessment of the impact of deforestation in a tropical West-African river. Hydrobiologia. 397 (1999) 29-38.
DOI: 10.1023/a:1003605801875
Google Scholar
[25]
J.E. Beyer, On length-weight relationships computing the mean weight of the fish of a given length class. Fishbyte. 5(1) (1987) 1-3
Google Scholar
[26]
R.S. Tebiera de Mello, The condition factor of fish from two river basins in Sao Paulo, Brazil. Acta Scienta Maringa. 24 (3) (2006) 14-18.
Google Scholar
[27]
M. King, Fisheries Biology, assessment and management. 2nd edition, Blackwell Scientific Publications, Oxford, 2007, pp.189-192.
Google Scholar
[28]
E.D. Le Cren, The length-weight relationship and seasonal cycle in gonad weight and condition in perch (Perca fluviatilis). The Journal of Animal Ecology. 20 (1951) 201-219.
DOI: 10.2307/1540
Google Scholar
[29]
T.B. Bagenal, F.W. Tesch, Methods for assessment of fish production in freshwaters. Oxford, Blackwell Scientific Publication, 1978, p.350.
Google Scholar
[30]
A.I. Payne, The ecology, distribution and diversity of fish species in Sierra Leone rivers and response to human impacts, Environmental biology of fishes. 101(5) (2018) 843-864.
DOI: 10.1007/s10641-018-0742-2
Google Scholar
[31]
J. Daget, Les poissons du Fouta Dialon et de la Basse Guineé. Mémoires de l'Institut Francaise d'Afrique Noire No. 65 (1962) 1–20.
Google Scholar
[32]
J. Daget, A. Iltis, Poissons de Cote d'Ivoir (eaux douce et saumatre). Mémoires de l'Institut Francaise d'Afrique Noire, No. 74 (1965) 1–385.
Google Scholar
[33]
R.H. Lowe-McConnell, Fish Communities in Tropical Freshwaters: Their Distribution Ecology and Evolution. Longman. London, 1975, p.337.
Google Scholar
[34]
C. Leveque, D. Paugy, Les poissons des eaux continentals africaines. IRD, Paris, 1999, 521 pp.
Google Scholar
[35]
R. Abell et al., Freshwater Eco regions of the world: a new map of biogeographic units for freshwater biodiversity conservation. BioScience. 58(5) (2008) 403–414.
Google Scholar
[36]
G.W. Ssentengo, M. Ansa-Emmin, Marine Fishery Resources of Sierra Leone: A Review of Exploited Stocks. FAO CECAF/ECAF Ser. 86/34, 1986, 67 pp.
Google Scholar
[37]
A.I. Payne, R.A. Wakeford, A Guide to the Fish Species of the Rokel/Seli River in Sierra Leone (MRAG), 2007.
Google Scholar
[38]
D. Paugy, C. Leveque, G.G. Teugels, The Fresh water and Brackish Water fishes of West Africa. IRD, Paris, MRAC, Tervuren. 2 vols., 2004, p.1272.
Google Scholar
[39]
A. Malik et al., Length-weight Relationship and Condition Factor of Red Tilapia (Hybrid) Reared in Cemented Tanks of Sun-bright Red Tilapia and Ornamental Hatchery-Karachi, Sindh-Pakistan. Sindh University Research Journal-SURJ (Science Series). 49(1) (2017) 159-162.
DOI: 10.26692/surj/2017.12.59
Google Scholar
[40]
Environmental Protection (Water) Policy, Monitoring and Sampling Manual Biological assessment, 2018.
Google Scholar
[41]
R.O. Anderson, S.S. Gutreuter, Length-weight relationship and associated indices. American Fisheries Society, 1985, pp.283-300.
Google Scholar
[42]
S. Nandlal, T. Pickering, Tilapia fish farming in Pacific Island countries. Volume 1. Tilapia hatchery operation. Noumea, New Caledonia: Secretariat of the Pacific Community, 2004.
Google Scholar
[43]
D. Pauly, Some simple methods for the assessment of tropical fish stocks. FAO Fisheries Technical paper, (234), FAO, Rome, Italy, 1983, p.52.
DOI: 10.1002/iroh.19840690521
Google Scholar
[44]
L.M. Gomiero, F.M.S. Braga, The condition factor of fishes from two river basins in Sao Paulo state, Southeast of Brazil. Acta Scientiarum. 27 (2005) 73-78.
Google Scholar
[45]
M. Lizama, A.P. De los, A.M. Ambrósio, Condition factor in nine species of fish of the characidae family in the upper paraná river floodplain, Brazil. Brazilian Journal of Biology. 62 (2002). 113-124.
DOI: 10.1590/s1519-69842002000100014
Google Scholar
[46]
E.O Ahmed, M.E. Ali, A.A. Aziz, Length-weight Relationships and Condition factors of six fish species in Atbara River and Khashm elgirba Reservoir, Sudan. International Journal of Agriculture Sciences. 3(1) (2011) 65-70.
DOI: 10.9735/0975-3710.3.1.65-70
Google Scholar
[47]
A.S. Dan-Kishiya, Length-weight relationship and condition factor of five fish species from a tropical water supply reservoir in Abuja, Nigeria. American Journal of Research Communication. 1 (2013). 175-187.
Google Scholar
[48]
R. Riedel, L.M. Caskey, S.H. Hurlbert, Length-weight relations and growth rates of dominant fishes of the Salton Sea: implications for predation by fish-eating birds. Lake and Reservoir Management, 2007, 23:528-535.
DOI: 10.1080/07438140709354036
Google Scholar
[49]
R.C. Viadero, Factors Affecting Fish Growth and Production, 2005.
Google Scholar
[50]
A.K. Suman et al., Assessment of water quality and fish growth in micro-water sheds of Banswara District in Southern Rajasthan. 1 (2017) 111-120.
Google Scholar
[51]
R.D. Zweig, J.D. Morton, M.M. Stewart, Source Water Quality for Aquaculture. The World Bank, Washington, DC. 1999.
Google Scholar
[52]
J. E. G. Parra, B. Baldisserotto, Effect of water pH and hardness on survival and growth of freshwater teleosts. Fish Osmoregulation. (2007) 135-150.
DOI: 10.1201/b10994-6
Google Scholar
[53]
I.O. Elegbede et al., Effect of Water Quality Characteristics on Fish Population of the Lake Volta, Ghana. Journal of Environmental & Analytical Toxicology. 5 (2015) 317.
Google Scholar
[54]
G.U. Ahmed et al., Growth and Production Performance of Monosex Tilapia (Oreochromis niloticus) Fed with Homemade Feed in Earthen Mini Ponds. Pak. J. Biol. Sci. (23) (2013) 1781-1785.
DOI: 10.3923/pjbs.2013.1781.1785
Google Scholar
[55]
R. Hile, Age and growth of cisco Leucicthyes artedi le Suercur in the lake of north eastern highland. 48 (1936) 211-314.
Google Scholar
[56]
W.R. Martin, The mechanics of environmental control of body form in fishes. Univ. Toronto. 58 (1949) 1-91.
Google Scholar
[57]
T.B. Bagenal, F.W. Tesch, Methods for assessment of fish production in freshwaters. Oxford, Blackwell Scientific Publication, 1978, p.350.
Google Scholar
[58]
U. Bala et al., Study of ichtyofauna of Daberam reservoir in Katsina State. Bayero Journal of Pure and Applied Sciences. 2(2) (2009) 172-174.
DOI: 10.4314/bajopas.v2i2.63807
Google Scholar
[59]
P.E. Ndimele et al., Length-weight relationship, condition factor and dietary composition of Sarotherodon melanotheron, Ruppell, 1852 (Pisces: Cichlidae) in Ologe Lagoon, Lagos, Nigeria. Agriculture and Biology Journal of North America. 1(4) (2010) 584-590.
DOI: 10.4314/agrosh.v21i1-2.5
Google Scholar
[60]
A. Anene, Condition factor of four cichlid species of a man-made lake in Imo State, South-eastern Nigeria. Turkish Journal of Fisheries and Aquatic Sciences. 60 (2005) 215-230.
Google Scholar
[61]
A.A. Ayoade, Length-Weight Relationship and Diet of African Carp Labeo ogunensis (Boulenger, 1910) in Asejire Lake Southwestern Nigeria, Journal of Fisheries and Aquatic Science. 6(4) (2011) 472-478.
DOI: 10.3923/jfas.2011.472.478
Google Scholar
[62]
A.I. Eleshinnia, S.O. Olufeagba, R. Aminu, Effects of some environmental factors on the fecundity of tilapia species (family cichlidae) in Kigera Reservoir New Bussa, 2005, p.863.
Google Scholar
[63]
J.F.N. Abowei, The Condition Factor, Length-Weight Relationship and Abundance of Ilisha Africana (Block, 1795) from Nkoro River Niger Delta, Nigeria. Advance Journal of Food Science and Technology. 2(1) (2010) 6-11.
Google Scholar
[64]
R.H. Lowe, The breeding behavious of tilapia species (Pisces: Cichlidae) in natural waters: observations on T. Karomo Poll and T. variabilis Booulenger, Behaviour. 9(1) (1956) 140-162.
DOI: 10.1163/156853956x00282
Google Scholar
[65]
M.B. Timmons et al., Recirculating Aquaculture Systems, 2nd Edition. Cayuga Aqua Ventures, Ithaca, NY 14850, USA. NRAC Publication No. 01-002, 2002, p.800.
Google Scholar