Diazinon-Induced Clastogenity and Pathological Changes in Ovaries and Testes of Clarias gariepinus ()
1. Introduction
Catfish have inhabited all continents at one time or another [1] . Catfish are most diverse in tropical South America, Africa and Asia [2] . Clarias gariepinus is hardy and does not easily succumb to disease; it has a high capacity to attain massive growth depending on the species being bred. In most developing countries, one of the problems facing aquaculture industry is the pollution of ponds and rivers with pesticides such organophosphate chlorinated pesticides [3] . Although they are useful tools in agriculture, forestry and in veterinary medicine, their contribution to the general degradation of the aquatic ecosystem cannot be ignored [4] and not all their effects on fish have evaluated. Organophosphate pesticides have fully replaced the persistent chlorinated pesticide in the 1970s and in the beginning of 1980s the main advantage of the organosphosphate pesticide was their low cumulative ability and short-term persistence in the environment; although the organophosphate pesticides have been replaced by pyrethroid based pesticides, there is still very intensive use of the organophosphate [5] . For example, diazinon is used on home gardens and farm to control a wide variety of suckling and leaf eating insects. It is also used in rice, fruits, tress, sugarcane, corn, tobacco, potatoes, cocoa and horticultural plants. Organophosphate pesticides are used in fish culture in order to suppress some parasitic diseases nevertheless, the pesticide preparations are considered harmful to fish in most cases [5] . In all parts of the world, pesticides have been found in the aquatic ecosystem and also enter the food chain. Often, information on how these pesticides affect inhabiting organisms is not available [6] . This study therefore undertakes to assess the acute effect of diazinon on micronuclei induction and chronic effect on histological changes in the gonads of Clarias gariepinus.
2. Methodology
Seventy two (72) apparently healthy adult and juvenile catfish (Clarias gariepinus) of both sexes were set up in triplicate, adults and juveniles were exposed separately to avoid cannibalism. Five (5) catfish each (adult & Juvenile) male and female were exposed to different treatment which includes pre-determined no effect concentration (0.405 ppm) of diazinon, positive control of environmentally relevant concentration (0.0625 µg/L) of sodium arsenite; a known clastogen, while negative control samples were exposed to culture water only. Route of exposure was via culture water. For each group, samples were collected on days 21 and 28 for histology which is the specify days for most chronic effects of fish in aquaculture (organs collected were ovaries and testes). The slices were stained by Hematoxylin-Eosin (H & E).
Micronucleus Assay
Genotoxic effects were evaluated in peripheral blood using micronuclei test described by [7] with some modifications. Blood were collected from living fish specimens in experimental group between twenty four (24) and forty eight (48) hours through the caudal veins using 2G needles and syringes. Immediately after blood collections, thin, uniform blood smears were prepared on clean microscopic slides and air-dried. The slides were fixed in methanol and later stained in May-Grunnwald. Slides were mounted in DPX mountant, dried (20˚C - 30˚C), cleaned and properly coded. The frequencies of micronuclei (MN) in polychromatic erythrocytes (PCE) were estimated by scoring 1000 PCE per animal.
3. Results
Micronucleus Induction
The mean micronucleated polychromatic erythrocyte in catfish exposed to diazinon was 15 ± 0.00), sodium arsenite was 28 ± 0.00) while that of the negative control group (cultured water only was 10 ± 0.00) as shown in Table 1. Data were subjected to analysis of variance of SAS 2004 [8] at significantly different (p < 0.05).
4. Histopathology
The group exposed to the no effect concentration (0.405 ppm) of diazinon had distorted mature ovarian cells as shown in Figure 2 when compared with Figure 3 the normal ovary and the testes had locally extensive testicular degeneration as shown Figure 4 when compared with Figure 5 the normal testis.
5. Discussion
At present, more than 1000 chemicals have been classified as pesticides and studies using different models have indicated that some of them have genotoxic properties [9] .
Fish and aquatic invertebrates have been considered to be efficient and cost effective model system for study-
Figure 1. Photomicrograph of an adult female catfish blood exposed to diazinon with an arrow showing a micronucleated polychromatic erythrocytes cells (May-Grunnwald ×400).
Figure 2. Photomicrograph of the ovary with arrow showing distorted matured cells (H & E) M: ×400 (At 28 days of exposure).
Figure 3. Photomicrograph of a normal ovary (H & E) M: ×400.
Figure 4. Photomicrograph of the testis with arrow showing extensive testicular degeneration (H & E) M: ×400 (At 28 days of exposure).
Table 1. The frequency of micronucleated PCE/1000 PCE in catfish blood cells following administration of test substances.
Sex and age of catfish did not have significant effect on micronuclei induction.
Figure 5. Photomicrograph of a normal testis (H & E) M: ×400.
ing the toxic, mutagenic, and carcinogenic potential of pollutants [10] - [13] due to their ability to metabolise, concentrate, and store water-borne pollutants [14] .
The clastogenic effects of chemical agents on fish cells compared with that of a known clastogen sodium arsenite was demonstrated with emphasis on the induction of micronuclei in polychromatin erythrocytes. The re- sult obtained in this experiment indicated that sodium arsenite had the highest number of micronucleated polychromatic erythrocyte (PCE)/1000 PCE (28.00 ± 0.00) which is the positive control (Table 1). This is confirming that sodium arsenite is highly clastogenic which is in line with the report of [15] - [17] . While that of the of the tested group diazinon (15.00 ± 0.00) as compared with the sodium arsenite group, suggesting genetic damage. Effect of sex and age on micronuclei induction is not significant; however more immature erythrocytes were seen in Juvenile groups than in the adult groups.
The exposure of fish to chemical contaminants is likely to induce a number of lesions in different organs [18] . Histology is an important tool to investigate changes at cellular level like the endocrine disrupting effects of diazinon on fish. It is believed that diazinon is one of the most harmful organophosphate that could be as Endocrine Disrupting Chemicals (EDCs) and suppress reproductive activities with endogenous hormonal disruption [19] -[21] . It also could have direct effects on gonads, disrupting sexual behaviours, gemates quality and spawning process.
6. Conclusions
The clastogenic effects of chemical agents on fish cells compared with that of a known clastogen (sodium arsenite) were demonstrated with emphasis on the induction in micronuclei in polychromatic erythrocytes (PCE). The result obtained in this experiment indicated that sodium arsenite had the highest PCE (28), affirming that sodium arsenite is highly clastogenic (positive control) and those exposed to test group diazinon (15) suggestive of genetic damage when the normal is supposed to be ≤4.
This study showed histopathological changes in ovary and testis of catfish exposed to low level of diazinon, indicative of diazinon having a detrimental effect on the cellular integrity of the reproductive organs. Therefore, in culturing, these could lead to poor performance, reduced productivity, compromised immune status and may eventually lead to death of the fish.
A stringent control of the use of diazinon is hereby recommended to forestall adverse impact on feral and cultured fish.
NOTES
*Corresponding author.