Liu Cheng, Xia Rong, Tang Man, Chen Xue, Zhong Bin, Liu Xiaoyu, Bian Rongjun, Yang Li, Zheng Jufeng, Cheng Kun, Zhang Xuhui, Drosos Marios, Li Lianqing, Shan Shengdao, Joseph Stephen, Pan Genxing
Institute of Resource, Ecosystem and Environment of Agriculture, and Department of Soil Science, Nanjing Agricultural University, Nanjing 210095, Jiangsu, China.
College of Chinese Medicinal Materials, Jilin Agricultural University, 28888 Xincheng Street, Changchun 130118 China.
Hortic Res. 2022 May 17;9:uhac108. doi: 10.1093/hr/uhac108. eCollection 2022.
The production of ginseng, an important Chinese medicine crop, has been increasingly challenged by soil degradation and pathogenic disease under continuous cropping in Northeast China. In a field experiment, an Alfisol garden continuously cropped with Chinese ginseng ( C. A. Meyer) was treated with soil amendment at 20 t ha with maize (MB) and wood (WB) biochar, respectively, compared to conventional manure compost (MC). Two years after the amendment, the rooted topsoil and ginseng plants were sampled. The changes in soil fertility and health, particularly in the soil microbial community and root disease incidence, and in ginseng growth and quality were portrayed using soil physico-chemical assays, biochemical assays of extracellular enzyme activities and gene sequencing assays as well as ginsenoside assays. Topsoil fertility was improved by 23% and 39%, ginseng root biomass increased by 25% and 27%, and root quality improved by 6% and 18% with WB and MB, respectively, compared to MC. In the ginseng rhizosphere, fungal abundance increased by 96% and 384%, with a significant and insignificant increase in bacterial abundance, respectively, under WB and MB. Specifically, the abundance of spp. was significantly reduced by 19-35%, while that of spp. increased by folds under biochar amendments over MC. Relevantly, there was a significant decrease in the abundance proportion of pathotrophic fungi but a great increase in that of arbuscular mycorrhizal fungi, along with an enhanced microbial community network complexity, especially fungal community complexity, under biochar amendments. Thus, biochar, particularly from maize residue, could promote ginseng quality production while enhancing soil health and ecological services, including carbon sequestration, in continuously cropped fields.
人参作为一种重要的中药材作物,在中国东北地区连作条件下,其产量日益受到土壤退化和病害的挑战。在田间试验中,将一块连续种植人参(C. A. Meyer)的淋溶土花园分别用20吨/公顷的玉米(MB)和木材(WB)生物炭进行土壤改良处理,与传统的粪肥堆肥(MC)进行比较。改良两年后,采集了表层生根土壤和人参植株样本。通过土壤理化分析、细胞外酶活性生化分析、基因测序分析以及人参皂苷分析,描述了土壤肥力和健康状况的变化,特别是土壤微生物群落和根病发病率的变化,以及人参生长和品质的变化。与MC相比,WB和MB处理分别使表层土壤肥力提高了23%和39%,人参根生物量增加了25%和27%,根品质提高了6%和18%。在人参根际,WB和MB处理下真菌丰度分别增加了96%和384%,细菌丰度分别显著增加和不显著增加。具体而言,在生物炭改良处理下, spp.的丰度显著降低了19 - 35%,而 spp.的丰度成倍增加。相关地,在生物炭改良处理下,致病真菌的丰度比例显著下降,但丛枝菌根真菌的丰度比例大幅增加,同时微生物群落网络复杂性增强,尤其是真菌群落复杂性增强。因此,生物炭,特别是玉米残渣制成的生物炭,可以在促进连作农田人参优质生产的同时,增强土壤健康和生态服务功能,包括碳固存。
