Severe storm damage and short‐term weather stresses on corn: A review

Lindsey, Alexander J.; Ortez, Osler A.; Thomison, Peter R.; Carter, Paul R.; Coulter, Jeffrey A.; Roth, Greg W.; Carrijo, Daniela R.; Quinn, Daniel J.; Licht, Mark A.

doi:10.1002/csc2.21212

Crop Science

2024

DOI: 10.1002/csc2.21212

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Severe storm damage and short‐term weather stresses on corn: A review

Alexander J. Lindsey,

Osler A. Ortez,

Peter R. Thomison

et al.

Abstract: Adverse weather conditions from acute events (e.g., storms causing lodging, flooding, or hail) or short‐duration weather patterns (i.e., periods of cold events; extended waterlogged field conditions) can result in yield losses, though management practices may play key roles in aiding with crop recovery or avoidance of these stress events. This review summarizes current knowledge (with emphasis placed on the US Midwest) related to corn response to short‐term weather stresses of (i) cold temperature, (ii) excess… Show more

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Evaluating the yield of surviving plants from early‐season hail damage in corn: A field survey

Lisboa,

Proctor,

Elmore

et al. 2024

Agrosystems Geosci & Env

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Economic losses due to hailstorms across US corn fields occur every year. Hailstorms result in leaf defoliation, decreasing photosynthetic area and impairing carbon assimilation and crop yield for all corn (Zea mays L.) development stages. However, more attention is often given to stand reductions rather than damage to stems or leaf defoliation. During the 2014 growing season, a natural hail event affected many areas of eastern Nebraska. Twelve affected corn fields were surveyed and included in this study. An injury score scale (1–5) was developed based on various injury and severity levels before the V6 (6‐leaf corn growth stage) (six‐collared leaves). Scores were assigned to affected fields approximately 10–15 days after the hailstorm. At the end of the growing season, ears were harvested, and grain yield per plant was determined. The highest grain yield (p < 0.05) was recorded with plants that were affected but retained a main stem in good condition, albeit defoliation was present (score 1, lowest damage category). In contrast, when the main stem was cut and the plant had poor regrowth (score 3), yields were reduced by approximately 53% compared to plants with an injury score of 1. A significant negative linear relationship (R2 = 0.63, p < 0.01) between injury score and yield was observed (higher injury score from hail events resulted in lower yields). Based on these results, corn yield reduction due to plant injury from hail events before V6 should not be only attributed to stand reductions. Our findings indicate an opportunity to adjust the US evaluation standards for early‐season hail damage events in corn fields.

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Evaluating the yield of surviving plants from early‐season hail damage in corn: A field survey

Lisboa,

Proctor,

Elmore

et al. 2024

Agrosystems Geosci & Env

View full text Add to dashboard Cite

show abstract

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Severe storm damage and short‐term weather stresses on corn: A review

Cited by 1 publication

References 242 publications

Evaluating the yield of surviving plants from early‐season hail damage in corn: A field survey

Evaluating the yield of surviving plants from early‐season hail damage in corn: A field survey

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