Identifying the Best High-Biomass Sorghum Hybrids Based on Biomass Yield Potential and Feedstock Quality Affected by Nitrogen Fertility Management Under Various Environments

IF 4.1 3区工程技术 Q1 AGRONOMY

Global Change Biology Bioenergy Pub Date : 2025-09-12 DOI:10.1111/gcbb.70082

Chunhwa Jang, Nictor Namoi, Jung Woo Lee, Talon Becker, William Rooney, DoKyoung Lee

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Abstract

The growing interest in high-biomass sorghum (Sorghum bicolor L. Moench), hereafter referred to as sorghum, as a bioenergy feedstock in the United States requires an understanding of geographical adaptation to identify the most suitable hybrids for the Midwest. In this study, 13 sorghum hybrids (H1–H13) were evaluated for biomass yield potential in central and southern IL over two growing seasons (2022 and 2023). In addition to biomass yield, the effects of nitrogen (N) fertilization on yield, nutrient removal (N, P, and K), and feedstock composition (cellulose, hemicellulose, lignin, and soluble fractions) were determined to identify the best-performing sorghum hybrid across environmental gradients. The experimental design was a split-plot arrangement within a randomized complete block design with four replications at each of two locations: N rates (0 and 112 kg-N ha⁻¹) as a whole plot factor and 13 sorghum hybrids as a subplot factor. As a result, complex genotypes (13 hybrids) by environment (2 sites and 2 years) and management (2 N rates) interactions were observed in biomass yield. The best hybrids at both sites were H1 (ATx2932/F10702_PSL) and H13 (TX08001), which were very photoperiod sensitive (PS). These hybrids produced superior biomass yield, and they also exhibited less nutrient removal and high energy-rich feedstock compositions (cellulose, hemicellulose, and lignin). Biomass yield potential was associated with morphological and phenological traits according to environmental conditions. Low-yielding hybrids were short-stature (H5 and H6) with pollinators (F10801_PSL-3dw and F10805_PSL-3dw) that are recessive at the Dw3 locus. Moderate PS hybrids (H7, H8, H11, and H12) that produced grain panicles at harvest showed high biomass yield plasticity and excessive nutrient removal as they accumulated high K concentrations in biomass tissues and high N and P in grain panicles.

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基于不同环境下氮肥管理对高产潜力和原料品质的影响，优选高生物量高粱最佳杂交品种

在美国，人们对高生物量高粱（sorghum bicolor L. Moench）（以下简称高粱）作为生物能源原料的兴趣日益浓厚，这需要了解地理适应性，以确定最适合中西部地区的杂交品种。在本研究中，对13个高粱杂交种（H1-H13）在伊利诺伊州中部和南部两个生长季节（2022年和2023年）的生物量产量潜力进行了评估。除生物量产量外，还研究了氮肥施肥对产量、养分去除（N、P和K）和原料组成（纤维素、半纤维素、木质素和可溶性组分）的影响，以确定不同环境梯度下表现最佳的高粱杂交种。试验设计采用完全随机区组设计，在2个地点各设4个重复：氮素水平（0和112 kg-N ha - 1）作为整块因子，13个高粱杂交种作为副块因子。结果表明，环境（2个站点，2年）和管理（2施氮量）互作对生物量产量产生复杂的基因型（13个杂交种）。两个地点的最佳杂交品种分别是H1 （ATx2932/F10702_PSL）和H13 (TX08001)，它们对光周期非常敏感。这些杂交种产生了更高的生物质产量，而且它们还表现出较少的营养物质去除和高能量的原料成分（纤维素、半纤维素和木质素）。生物量产量潜力与环境条件下的形态和物候性状有关。低产杂交种身材矮小（H5和H6），传粉者（F10801_PSL-3dw和F10805_PSL-3dw）在Dw3位点是隐性的。收获时产生穗粒的中等PS杂交种（H7、H8、H11和H12）表现出较高的生物量产量可塑性和过多的养分去除，生物量组织中积累了高浓度的钾，穗粒中积累了高浓度的氮磷。

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来源期刊

Global Change Biology Bioenergy AGRONOMY-ENERGY & FUELS

CiteScore

10.30

自引率

7.10%

发文量

审稿时长

1.5 months

期刊介绍： GCB Bioenergy is an international journal publishing original research papers, review articles and commentaries that promote understanding of the interface between biological and environmental sciences and the production of fuels directly from plants, algae and waste. The scope of the journal extends to areas outside of biology to policy forum, socioeconomic analyses, technoeconomic analyses and systems analysis. Papers do not need a global change component for consideration for publication, it is viewed as implicit that most bioenergy will be beneficial in avoiding at least a part of the fossil fuel energy that would otherwise be used. Key areas covered by the journal: Bioenergy feedstock and bio-oil production: energy crops and algae their management,, genomics, genetic improvements, planting, harvesting, storage, transportation, integrated logistics, production modeling, composition and its modification, pests, diseases and weeds of feedstocks. Manuscripts concerning alternative energy based on biological mimicry are also encouraged (e.g. artificial photosynthesis). Biological Residues/Co-products: from agricultural production, forestry and plantations (stover, sugar, bio-plastics, etc.), algae processing industries, and municipal sources (MSW). Bioenergy and the Environment: ecosystem services, carbon mitigation, land use change, life cycle assessment, energy and greenhouse gas balances, water use, water quality, assessment of sustainability, and biodiversity issues. Bioenergy Socioeconomics: examining the economic viability or social acceptability of crops, crops systems and their processing, including genetically modified organisms [GMOs], health impacts of bioenergy systems. Bioenergy Policy: legislative developments affecting biofuels and bioenergy. Bioenergy Systems Analysis: examining biological developments in a whole systems context.