Nanomaterial interactions with soil microbial communities and soil fauna

Conventional agriculture needs large inputs of nutrients, through the addition of fertiliser, in order to produce the amount of food needed globally to sustain the population. Typical fertilisers are hugely wasteful, polluting the atmosphere and waterways, and affecting human health, wildlife, and ecosystem stability. Nanomaterials are very small particles that have potential to be used as fertilisers in order to improve nutrient use efficiency and reduce waste. This project will look at the interactions between a pre-selected range of nanomaterials and soil microbes, specifically looking at how polluting gases released from soils differ, how microbial activity changes, and how nutrients are stored in the soil differently. The project will also look at the effects of the nanomaterials on earthworms in order to look at any potentially toxic effects the nanomaterials may have. The research project will develop collaboration between McGill and Birmingham and hopefully lead to joint publications.

Faculty Supervisor:

Cynthia Kallenbach

Student:

Partner:

University of Birmingham

Discipline:

Life Sciences

Sector:

Agriculture and Food; Environmental Science and Technology; Sustainability & the Environment

University:

McGill University

Program: