Muhammad, A., Ibrahim, S. S., Mukhtar, M. M., Irving, H., Abajue, M. C., Edith, N. M. A., . . . Wondji, C. S. (2021). High pyrethroid/DDT resistance in major malaria vector Anopheles coluzzii from Niger-Delta of Nigeria is probably driven by metabolic resistance mechanisms. PLoS One.

Muhammad, Abdullahi, Sulaiman S. Ibrahim, Muhammad M. Mukhtar, Helen Irving, Maduamaka C. Abajue, Noutcha M. A. Edith, Sabitu S. Da’u, Mark J. I. Paine, und Charles S. Wondji. "High Pyrethroid/DDT Resistance in Major Malaria Vector Anopheles Coluzzii From Niger-Delta of Nigeria Is Probably Driven By Metabolic Resistance Mechanisms." PLoS One 2021.

Muhammad, Abdullahi, et al. "High Pyrethroid/DDT Resistance in Major Malaria Vector Anopheles Coluzzii From Niger-Delta of Nigeria Is Probably Driven By Metabolic Resistance Mechanisms." PLoS One 2021.