Potential for Enhancing Forage Sorghum Yield and Yield Components in a Changing Pannonian Climate

Potential for Enhancing Forage Sorghum Yield and Yield Components in a Changing Pannonian Climate

Climatic variability, particularly fluctuating precipitation and rising temperatures, poses a significant threat to crop productivity and stability. Forage sorghum hybrids are a promising alternative for fodder and bioenergy due to their high level of drought tolerance. This study evaluated genotypi...

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Main Authors: Anja Dolapčev Rakić, Slaven Prodanović, Vladimir Sikora, Sanja Vasiljević, Vesna Župunski, Radivoje Jevtić, Ana Uhlarik
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Agriculture
Subjects:
forage sorghum
yield
climatic variations
combining abilities
Online Access:https://www.mdpi.com/2077-0472/15/13/1439
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Summary:Climatic variability, particularly fluctuating precipitation and rising temperatures, poses a significant threat to crop productivity and stability. Forage sorghum hybrids are a promising alternative for fodder and bioenergy due to their high level of drought tolerance. This study evaluated genotypic variation and environmental adaptability of 60 forage sorghum genotypes: 13 parental lines, their 40 crosses and seven commercial hybrids, to identify high-yielding, stable hybrids for biomass production under changing agroecological conditions. Field trials conducted over two contrasting years revealed significant genotype-by-environment interactions (<i>p</i> < 0.05), highlighting the need for multi-year evaluations. While favorable rainfall in 2020 enhanced vegetative traits (plant height, stem diameter, leaf area), biomass yield variability increased, emphasizing that favorable vegetative development does not necessarily correlate with yield stability. Principal component analysis indicated that plant height, stem diameter and leaf-related traits contributed most to genotypic differentiation. However, no single trait emerged as a reliable predictor of yield, suggesting complex trait interaction. These findings underscore the importance of integrative breeding strategies that combine phenotypic trait assessment with environmental adaptability to ensure sustainable biomass production. Sorghum’s drought tolerance and resilience make it a promising crop for future food and feed security in regions prone to climatic stress.
ISSN:2077-0472

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