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Genotypic variation in maize ( Zea mays ) influences rates of soil organic matter mineralization and gross nitrification
Author(s) -
Mwafulirwa Lumbani,
Paterson Eric,
Cairns Jill E.,
Daniell Tim J.,
Thierfelder Christian,
Baggs Elizabeth M.
Publication year - 2021
Publication title -
new phytologist
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.742
H-Index - 244
eISSN - 1469-8137
pISSN - 0028-646X
DOI - 10.1111/nph.17537
Subject(s) - mineralization (soil science) , nitrification , agronomy , nutrient , tillage , biology , nitrogen cycle , subtropics , soil water , environmental science , nitrogen , chemistry , ecology , organic chemistry
Summary Agricultural management practices that increase soil organic matter (SOM), such as no‐tillage (NT) with crop residue retention, together with crop varieties best able to source nutrients from SOM, may help reverse soil degradation and improve soil nutrient supply and uptake by plants in low‐input environments of tropical and subtropical areas. Here, we screened germplasm representing genetic diversity within tropical maize breeding programmes in relation to shaping SOM mineralization. Then we assessed effects of contrasting genotypes on nitrification rates, and genotype‐by‐management history interactions on these rates. SOM‐C mineralization and gross nitrification rates varied under different maize genotypes. Cumulative SOM‐C mineralization increased with root diameter but decreased with increasing root length. Strong influences of management history and interaction of maize genotype‐by‐management history on nitrification were observed. Overall, nitrification rates were higher in NT soil with residue retention. We propose that there is potential to exploit genotypic variation in traits associated with SOM mineralization and nitrification within breeding programmes. Root diameter and length could be used as proxies for root–soil interactions driving these processes. Development of maize varieties with enhanced ability to mineralize SOM combined with NT and residue retention to build/replenish SOM could be key to sustainable production.

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