Biogas slurry: A potential substance that synergistically enhances rapeseed yield and lodging resistance

IF 5.6 1区 农林科学 Q1 AGRICULTURAL ENGINEERING
Chongtao Liu , Xiaoyu Nie , Zongkai Wang , Hua Yang , Jun Wang , Heshan Zhang , Youzhong Fan , Leilei He , Ali Mahmoud El-Badri , Maria Batool , Jing Wang , Jie Kuai , Bo Wang , Guangsheng Zhou
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Abstract

Biogas slurry (BS) plays a vital role in improving the efficiency of crop production. On the flip side, the impact of BS on plant lodging factors and yield related traits is still obscure. Hence, we aimed to study the effects of pig and cow BS applications on yield formation, morpho-anatomical, mechanical, physiological properties and transcript expression patterns. The results showed that the yield and lodging resistance of rapeseed were synergistically improved via applying full BS dosage versus nitrogen fertilizer (CK). In addition, the seed yield was significantly increased by 23.9 % by promoting the dry matter accumulation and transport-ability, increasing number of pods by 8.4 % and 1000-seed weight by 5.1 %, respectively. Moreover, BS developed the stem mechanical strength by decreasing lodging index by 34.2 %, which was manifested by an increase in stem thickness and stiffness and a reduction in plant height. Besides, it enhanced the photosynthesis through promoting chlorophyll synthesis, delaying plant senescence, and accumulating N and K concentration. Anatomical observations revealed that BS increased greater number and area of stem vascular bundles, vessels, and maintained a dense microstructure than CK. Also, it boosted pectin, Ca2+ and K+ contents, which were significantly positively correlated with stem mechanical strength and reduced cellulose, lignin and hemicellulose contents. Meanwhile, correlation and structural equation modeling analysis validated the above results. Additionally, the differentially expressed genes were enriched in cell wall formation pathway, especially about the biosynthesis of pectin (PME, PG and PL), cellulose (CesA and CSL), lignin (PAL, POD, CCR, LAC and COMT) and hemicellulose (XTH and Xyl) were identified under BS. The above-mentioned results indicated that BS simultaneously affected lodging behavior by altering structural carbohydrates and modified yield composition by regulating dry-matter accumulation and allocation. This is the first comprehensive strategy on synchronizing rapeseed yield increase and lodging resistance under optimized BS management.

Abstract Image

沼气浆:一种可协同提高油菜籽产量和抗倒伏性的潜在物质
沼气浆(BS)在提高作物生产效率方面发挥着重要作用。另一方面,沼渣对植物生长发育因素和产量相关性状的影响仍不明显。因此,我们旨在研究猪和牛施用 BS 对产量形成、形态解剖、机械、生理特性和转录表达模式的影响。结果表明,施用全量 BS 与施用氮肥(CK)相比,油菜籽的产量和抗倒伏性得到了协同提高。此外,通过促进干物质积累和运输能力,种子产量显著增加了 23.9%,荚果数增加了 8.4%,千粒重增加了 5.1%。此外,BS 还提高了茎秆的机械强度,降低了 34.2% 的干枯指数,表现为茎秆粗度和硬度增加,植株高度降低。此外,BS 还能促进叶绿素合成、延缓植物衰老、增加 N 和 K 浓度,从而提高光合作用。解剖观察显示,与 CK 相比,BS 增加了茎维管束和血管的数量和面积,并保持了致密的微观结构。此外,BS还提高了果胶、Ca2+和K+的含量,与茎杆机械强度呈显著正相关,降低了纤维素、木质素和半纤维素的含量。同时,相关分析和结构方程模型分析验证了上述结果。此外,差异表达基因富集于细胞壁形成途径,尤其是果胶(PME、PG 和 PL)、纤维素(CesA 和 CSL)、木质素(PAL、POD、CCR、LAC 和 COMT)和半纤维素(XTH 和 Xyl)的生物合成。上述结果表明,BS 同时通过改变结构碳水化合物来影响结实行为,并通过调节干物质积累和分配来改变产量组成。这是首个在优化BS管理下实现油菜增产与抗倒伏同步的综合策略。
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来源期刊
Industrial Crops and Products
Industrial Crops and Products 农林科学-农业工程
CiteScore
9.50
自引率
8.50%
发文量
1518
审稿时长
43 days
期刊介绍: Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.
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