In Vivo Genotoxicity of Rice Husk Biochar on Eudrilus eugeniae in Soil.

Biochar (char-product), generated by pyrolyzing organic materials, is produced for the intended use of land application to promote carbon sequestration, soil improvement and crop-yield. Despite the benefits biochar applications offers, scientific probing on impacts that may result from amendments with biochar is still fragmented. In this study, impact of biochar on Eudrilus eugeniae DNA was investigated. Rice-husk biochar was applied to soil at rates up to 80% d/w and earthworms were exposed for 35-day. Impact on DNA was measured using electrophoresis-gel-extraction-method. Data obtained showed that biochar application over 25% resulted in decreased survival. Electrophoresis-gel-analysis showed that DNA decreased from 450 to 300 bp in biochar soils (p = 0.002). Biochar rates (5%-25%) induced DNA damage. The DNA showed smeared bands or tail; indicating DNA degradation and/or damage. DNA damage is a clear evidence of negative impact of biochar(s) to soil-biota; suggesting that loading of soil with biochar could have serious consequences on soil-fauna.

Report of high prevalence of schistosome infection in Biomphalaria snails from a geographic area with no previous prevalence of human schistosomiasis in Nigeria.

Previous study using the traditional method of screening snails for infection reported shedding of Schistosoma cercaria by Biomphalaria snails from a river in Nkalagu, southeastern Nigeria. This is contrary to published reports that Biomphalaria from this part of the country does not shed schistosome cercaria. Here, we employed the use of polymerase chain reaction (PCR) methods to screen and characterize the Biomphalaria snails from Nkalagu. Snails were collected from the River Uzuru in dry season, identified and subjected to molecular assays. Genomic DNA (gDNA) was extracted from whole tissues of the 212 Biomphalaria snails and amplified using conventional PCR to check for the schistosome infection level. Assay for the detection of S. mansoni infection was further done using a nested PCR (nPCR). We amplified the entire internal transcribed spacer 2 (ITS2) regions from gDNA of the 212 snails. The representative samples were sequenced and subjected to BLAST searches to confirm snail species. Of the 212 snails screened, 164 (77.4%) of the snails were infected with schistosomes, but only 16 (9.76%) of the snails were positive for S. mansoni infection. Amplification of the snails' ITS2 region yielded a product of 460 bp, and BLAST searches confirmed the snails to be B. pfeifferi, and BLAST searches confirmed the snails to be B. pfeifferi. This paper reports for the first time the presence of S. mansoni positive B. pfeifferi in Nkalagu, which suggest there may be cases of intestinal schistosomiasis in this part of Nigeria.

Urinary schistosomiasis in Ebonyi State, Nigeria from 2006 to 2017.

Urinary schistosomiasis, caused by Schistosoma haematobium is very common in Nigeria, with Ebonyi State implicated to have the highest prevalence in the southeastern part of the country. The aim of this review was to estimate the status of urinary schistosomiasis in the State with regards to the elimination goals of World Health Organization (WHO). A comprehensive search of published articles on urinary schistosomiasis in Ebonyi State, Nigeria from 2006 to 2017 was conducted using Google Scholar, PubMed and African Journals Online (AJOL) databases. Out of 26 retrieved articles, 15 met the inclusion criteria. The MetaXL software was used to compute the pooled prevalence of urinary schistosomiasis using the random effect model and results are presented as forest plot. Based on meta-analysis output, the pooled prevalence of urinary schistosomiasis was 26.02% [95% Confidence Interval (CI) = 17.91-35.04%]. The pooled prevalence was higher before 2014, the year when treatment with praziquantel (PZQ) was started. Of the senatorial zones, Ebonyi North had the highest pooled prevalence of 34.57% (95% CI = 10.50-61.32%). In addition, the prevalence of the disease was higher when all the age groups were sampled (31.33%; 95% CI = 12.75-51.98%) than when only schoolchildren were used as sampling population (25.23%; 95% CI = 15.66-35.93%). The pooled prevalence revealed that despite the mass drug distribution (MDA) of PZQ in the State, there is continued transmission of urinary schistosomiasis. Hence, if the WHO elimination goal of the disease has to be met, focused control and elimination programmes along with intense complementary public-health interventions are necessary.