Variation in Biomass Yield and Cell Wall Composition in Switchgrass Natural Variants Under Two Nitrogen Regimes

IF 3.1 3区工程技术 Q3 ENERGY & FUELS

BioEnergy Research Pub Date : 2025-04-29 DOI:10.1007/s12155-025-10838-8

Mitra Mazarei, Anne E. Harman-Ware, Thomas H. Pendergast IV, Vivek Shrestha, Yaping Xu, Cristiano Piasecki, Reginald J. Millwood, Katrien M. Devos, C. Neal Stewart Jr.

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Abstract

Switchgrass (Panicum virgatum) is a promising lignocellulosic biofuel crop for which biomass and processing quality are important. Inherent plant variability across genotypes and environments challenges uniformity and product quality. In this study, the impact of nitrogen (N) application on switchgrass yield and quality was examined under field conditions using a highly diverse switchgrass panel over a 4-year period at Knoxville, TN. Overall, biomass production was correlated between low (0 kg of added N/ha) and moderate (135 kg of added N/ha) nitrogen treatments, suggesting that the N impact is largely uniform across the genotypes. Nonetheless, high biomass genotypes were identified with high nitrogen-use efficiency ; biomass was congruent or even higher (up to 9-fold) in the low N treatment. Genotypes were also identified with up to 94% nitrogen-remobilization efficiency. Furthermore, nitrogen application appeared to impact lignin content in whole tillers but was neutral to lignin monomer syringyl-to-guaiacyl (S/G) ratio. The same panel grown under natural conditions in Watkinsville, GA, produced significantly more biomass than the Tennessee panel in the first 3 years, but biomass was similar across both sites and treatments in year 4. Top performing genotypes overlapped between sites by 20–37%. There were low correlations in lignin content in whole tillers across the two field sites, but moderate correlations were observed for S/G ratios. The high yielding genotypes from the low N plot identified in this study can be used in breeding programs and management strategies in switchgrass to evade adverse environmental and economic effects.

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两种氮肥制度下柳枝稷自然变异种生物量产量和细胞壁组成的变化

柳枝稷（Panicum virgatum）是一种很有前途的木质纤维素生物燃料作物，其生物量和加工质量至关重要。植物在基因型和环境中的固有变异性对一致性和产品质量提出了挑战。在本研究中，在田纳西州诺克斯维尔，在4年的时间里，利用高度多样化的柳枝稷面板，在田间条件下研究了氮肥(N)施用对柳枝稷产量和品质的影响。总体而言，生物量产量在低（0 kg N/ha）和中等（135 kg N/ha）氮肥处理之间存在相关性，这表明氮肥的影响在不同基因型之间基本一致。然而，高生物量基因型被鉴定出具有高氮利用效率；低氮处理的生物量基本相同，甚至更高（可达9倍）。基因型也鉴定出高达94%的氮再动员效率。此外，施氮对整个分蘖中木质素含量有影响，但对木质素单体丁香基与愈创木酰（S/G）比无影响。在佐治亚州沃特金斯维尔自然条件下生长的相同面板在前3年产生的生物量明显高于田纳西州面板，但在第4年，两个地点和处理的生物量相似。表现最好的基因型在位点之间重叠了20-37%。两个样地的全分蘖木质素含量呈低相关性，但S/G比呈中等相关性。本研究鉴定的低氮地块高产基因型可用于柳枝稷的育种规划和管理策略，以避免不利的环境和经济影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BioEnergy Research ENERGY & FUELS-ENVIRONMENTAL SCIENCES

CiteScore

6.70

自引率

8.30%

发文量

174

审稿时长

3 months

期刊介绍： BioEnergy Research fills a void in the rapidly growing area of feedstock biology research related to biomass, biofuels, and bioenergy. The journal publishes a wide range of articles, including peer-reviewed scientific research, reviews, perspectives and commentary, industry news, and government policy updates. Its coverage brings together a uniquely broad combination of disciplines with a common focus on feedstock biology and science, related to biomass, biofeedstock, and bioenergy production.