王捧娜, 代雯慈, 于敏, 翁颖, 黄谨卫, 吴宇, 蔡洪梅, 郭健鹏, 高赛, 郑宝强, 李金才, 陈翔. 倒春寒对开花期小麦根际土壤真菌群落的影响[J]. 中国生态农业学报 (中英文), 2023, 31(10): 1565−1578. DOI: 10.12357/cjea.20230017
引用本文: 王捧娜, 代雯慈, 于敏, 翁颖, 黄谨卫, 吴宇, 蔡洪梅, 郭健鹏, 高赛, 郑宝强, 李金才, 陈翔. 倒春寒对开花期小麦根际土壤真菌群落的影响[J]. 中国生态农业学报 (中英文), 2023, 31(10): 1565−1578. DOI: 10.12357/cjea.20230017
WANG P N, DAI W C, YU M, WENG Y, HUANG J W, WU Y, CAI H M, GUO J P, GAO S, ZHENG B Q, LI J C, CHEN X. Effects of late spring coldness on fungal communities in wheat rhizosphere soil at flowering stage[J]. Chinese Journal of Eco-Agriculture, 2023, 31(10): 1565−1578. DOI: 10.12357/cjea.20230017
Citation: WANG P N, DAI W C, YU M, WENG Y, HUANG J W, WU Y, CAI H M, GUO J P, GAO S, ZHENG B Q, LI J C, CHEN X. Effects of late spring coldness on fungal communities in wheat rhizosphere soil at flowering stage[J]. Chinese Journal of Eco-Agriculture, 2023, 31(10): 1565−1578. DOI: 10.12357/cjea.20230017

倒春寒对开花期小麦根际土壤真菌群落的影响

Effects of late spring coldness on fungal communities in wheat rhizosphere soil at flowering stage

  • 摘要: 全球气候变暖导致小麦生产中倒春寒灾害频发重发, 根际微生物群落对小麦生长和适逆性至关重要。本研究以抗倒春寒性弱的‘新麦26’(XM)和抗倒春寒性强的‘烟农19’(YN)两小麦品种为试验材料, 采用盆栽试验, 于小麦幼穗分化的药隔期(敏感期)人工模拟倒春寒, 以10 ℃为对照(CK), 设置2 ℃ (T1)和−2 ℃ (T2)两个低温胁迫处理。小麦开花期采集根际土壤, 利用高通量测序研究不同抗性小麦品种在倒春寒下根际土壤真菌群落结构和多样性的变化。结果表明: 与CK相比, 倒春寒胁迫后开花期两品种地上、地下干物质重较对照分别降低1.65%~12.22%、15.05%~35.49%, 根冠比增加, 且对XM影响程度大于YN。倒春寒胁迫使子囊菌门(Ascomycota)相对丰度显著升高, 而被孢霉目(Mortierellales)、被孢霉科(Mortierellaceae)、被孢霉属(Mortierella)相对丰度显著降低; 随胁迫程度增强XM的下降幅度更大, 其中被孢霉属相对丰度T2处理较CK下降54.70%。抗倒春寒性强的品种YN根际土壤中担子菌门(Basidiomycota)伞菌纲(Agaricomycetes)真菌的相对丰度显著高于抗倒春寒性弱的XM。多样性分析结果显示, 倒春寒胁迫对小麦根际土壤真菌群落多样性与丰富度影响显著, 同时显著影响不同生态功能群的占比, XM_T2的菌群更为丰富。综上, 倒春寒胁迫降低了开花期小麦植株地上、地下部生物量的积累, 同时显著改变了小麦根际真菌群落结构和多样性, 影响程度随胁迫程度增强而加深且对XM影响大于YN。本研究从根际微生物角度为丰富小麦倒春寒致灾机理研究提供了新的见解。

     

    Abstract: Due to global warming, late spring coldness is a major agrometeorological disaster frequently occurring in wheat production. The wheat yield can be reduced by 30%–50% in severe cases. Rhizosphere microorganisms endow wheat with stress resistance, and variations in their community structures and ecological functions reflect the adaptability of wheat to environmental changes. Studying the impact of late spring coldness on the structure and diversity of fungal communities in the rhizosphere soil of wheat is important for understanding the disaster mechanisms of wheat in response to late spring coldness. This study used wheat cultivars of ‘Xinmai 26’ (XM, sensitive to late spring coldness) and ‘Yannong 19’ (YN, resistant to late spring coldness) as experimental subjects. A pot experiment was conducted to artificially simulate late spring coldness during the anther differentiation period (a sensitive stage) of young ear differentiation of wheat. With 10 ℃ as the control treatment (CK), two low-temperature stress treatments were set at 2 ℃ (T1) and −2 ℃ (T2). The rhizosphere soil was collected at the wheat flowering stage, and changes in the fungal community structure and diversity in the rhizosphere soil of different wheat cultivars were determined by the Illumina high-throughput sequencing platform. Additionally, the aboveground and belowground biomass of the wheat plants were measured, and the root-to-shoot ratio was calculated. Compared with CK, the aboveground and belowground dry matter weight of the two wheat cultivars at the flowering stage under late spring coldness decreased by 1.65%−12.22% and 15.05%−35.49%, respectively, and the root-to-shoot ratio increased by 15.79%−36.08%, which had a greater effect on XM than YN. Late spring coldness significantly increased the relative abundance of Ascomycota but significantly decreased the relative abundance of Mortierellales, Mortierellaceae and Mortierella, with a greater decrease in XM as the degree of stress increased. For XM, in T2 treatment, the relative abundance of Mortierella decreased by 54.70% compared with that of CK. The relative abundance of Agaricomycete fungi was significantly higher in YN than in XM under late spring coldness. The diversity analysis showed that late spring coldness significantly affected the diversity and richness of fungal communities in the wheat rhizosphere soil. The FUNGuild function prediction showed that the proportions of different ecological functional groups were affected by late spring coldness. The relative abundance of Endophytes was the highest, which decreased with the increase in late spring coldness. The wood saprotroph and plant pathogen were more abundant in XM_T2. In conclusion, late spring coldness decreased the aboveground and belowground biomass accumulation of wheat plants at the flowering stage, causing imbalanced growth and development of wheat roots and canopies, which was not conducive to yield. Late spring coldness significantly changed the community structure and diversity of wheat rhizosphere fungi; the degree of influence increased with an increase in the degree of stress, and the influence on XM was greater than that on YN. This study provides new insights into the disaster mechanism of late spring coldness in wheat from the perspective of rhizosphere microorganisms and provides theoretical support for exploring the response of the “root-soil-microbial” interaction system to late spring coldness from the perspective of the root-soil environment.

     

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