A simple cultivar suitability index for low‐pH agricultural soils

Simon Fordyce; Clain A. Jones; Sally J. Dahlhausen; Jennifer Lachowiec; Jed O. Eberly; Jamie D. Sherman; Kevin E. McPhee; Patrick M. Carr

doi:10.1002/ael2.20036

Agricultural & Environmental Letters (Jan 2020)

A simple cultivar suitability index for low‐pH agricultural soils

Simon Fordyce,
Clain A. Jones,
Sally J. Dahlhausen,
Jennifer Lachowiec,
Jed O. Eberly,
Jamie D. Sherman,
Kevin E. McPhee,
Patrick M. Carr

Affiliations

Simon Fordyce: Dep. of Research Centers–Central Agricultural Research Center Montana State Univ. 52583 US Hwy 87 Moccasin MT 59462
Clain A. Jones: Dep. of Land Resources and Environmental Science Montana State Univ. P.O. Box 173120 334 Leon Johnson Hall Bozeman MT 59717 USA
Sally J. Dahlhausen: Dep. of Research Centers–Central Agricultural Research Center Montana State Univ. 52583 US Hwy 87 Moccasin MT 59462
Jennifer Lachowiec: Dep. of Plant Sciences and Plant Pathology Montana State Univ. Bozeman MT 59717 USA
Jed O. Eberly: Dep. of Research Centers–Central Agricultural Research Center Montana State Univ. 52583 US Hwy 87 Moccasin MT 59462
Jamie D. Sherman: Dep. of Plant Sciences and Plant Pathology Montana State Univ. Bozeman MT 59717 USA
Kevin E. McPhee: Dep. of Plant Sciences and Plant Pathology Montana State Univ. Bozeman MT 59717 USA
Patrick M. Carr: Dep. of Research Centers–Central Agricultural Research Center Montana State Univ. 52583 US Hwy 87 Moccasin MT 59462

DOI: https://doi.org/10.1002/ael2.20036
Journal volume & issue: Vol. 5, no. 1
pp. n/a – n/a

Abstract

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Abstract Planting wheat (Triticum aestivum L.) cultivars that carry the aluminum (Al) resistance gene TaAlmt1 is a potentially lower cost alternative to lime applications in acidic agricultural soils. However, the relative importance of TaAlmt1 expression and adaptedness (to regional environmental conditions) for preserving grain yield in acidic soils is not well understood. Adaptation trials were established in low‐pH soils to compare lime‐amended (YL) and unamended grain yield (YU) among regionally adapted spring wheat cultivars with and without TaAlmt1. Averaged across YL and YU (YAVG), yield of adapted TaAlmt1 carriers was similar to adapted noncarriers (p = .939) but greater than nonadapted noncarriers (p = .024). Soil pH‐driven spatial heterogeneity appears to inflate yield coefficients of variation and the probability of committing type II errors in cultivar yield comparisons. Our results support the use of YAVG as a suitability index and decision support tool for cultivar selection in acid‐affected soils.

Published in Agricultural & Environmental Letters

ISSN: 2471-9625 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Agriculture; Geography. Anthropology. Recreation: Environmental sciences
Website: https://acsess.onlinelibrary.wiley.com/journal/24719625

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