Challenges to Agriculture Systems
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Abstract
Food production has to be greatly increased simply to feed a population
growing from 7 billion to in excess of 9 billion over the next 35 years and
we still have more than a billion undernourished people. To increase global
food production is an unprecedented challenge in the history of agriculture,
particularly if we consider that the solutions adopted in the past are much
less of an option. Previous solutions have been to increase the area made
available for agriculture and to enhance land productivity by an increase in
crop yields, with the latter being particularly important. Only limited areas
of new land are available for adoption by agriculture but soil degradation
and urbanization are removing considerable areas from the existing productive
land bank. In consequence, intensification of production is going to be
essential. At the same time there is an urgent need to reduce the environmental
impacts of food production. It will be crucial to close the gap in yield
between the climatic potential and what farmers achieve across the different
regions of the world, particularly those areas where the difference is greatest
due to environmental, economic, and social conditions. The world is not in a
position to ignore the possible contribution from any technological solution
on ideological grounds and the concept of sustainable intensification of agriculture
has to be on the agenda. Among the possible solutions the intentional
use of beneficial soil microbes in agricultural systems is only in its early
days. There is a much greater need than ever to find ways of exploiting the
benefits from the microbes in our soils and to develop tools that will help
farmers implement strategies related to sustainable soil use and management.
Our focus is on arbuscular mycorrhizal fungi (AMF) that can impact several
soil processes, including the cycling of phosphorus and nitrogen, their acquisition
by plants and reducing losses of nitrogen by leaching or volatilization,
as well as play other crucial roles within the agricultural ecosystem. AMF
can protect their host plants from both biotic and abiotic stresses, including
root pathogens, toxic metals, and water shortage. Managing the soil microbiota,
particularly AMF, has the potential not only to increase production,
while decreasing the incorporation of inputs, with the potential to be applied
to productive and marginal soils and used in regions of the world where the
resources required by farmers are scarce.
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Goss M.J., Carvalho M., Brito I. (2017) Challenges to Agriculture Systems. In: Functional Diversity of Mycorrhiza and Sustainable Agriculture - Management to Overcome Biotic and Abiotic Stresses. Academic Press pp 1-14.