Effects of Bio-organic Fertilizer on Growth, Physiological Characteristics of Apple Seedlings and Soil Microbial Functional Diversity

doi:10.11924/j.issn.1000-6850.casb2020-0704

Abstract

Abstract:

To understand the effect of bio-organic fertilizer on growth and soil microbial functional diversity, one-year-old ‘Yanfu No.8’ apple seedlings were used as materials in pot experiment, and four treatments were set up, namely: chicken manure CK [35 g/(kg·soil)], bio-organic fertilizer T1 [23.3 g/(kg·soil)], T2 [35 g/(kg·soil)] and T3 [70 g/(kg·soil)]. The results showed that bio-organic fertilizer could promote the growth of apple seedlings. Among the treatments, the plant height and root length under 23.3 g/(kg·soil) treatment significantly increased by 14.24% and 24.02% compared with those under CK, while the difference between 23.3 g/(kg·soil) treatment and other treatments was significant. Bio-organic fertilizer could enhance the resistance of apple seedlings and promote nutrient absorption. Leaf proline content, chlorophyll SPAD value and potassium content significantly increased by 38.46%, 15.45% and 27.33%, while the MDA content was decreased significantly under 23.3 g/(kg·soil) treatment. The soil microbial Shannon's index H', richness index S, McIntosh index U, and soil microbial utilization of carbohydrates and amines in the treatment of 70 g/(kg·soil) were the highest, increased by 0.91%, 7.60%, 4.14%, 6.33%, and 18.92% compared with those of CK. respectively, while the difference between 70 g/(kg·soil) and 23.3 g/(kg·soil) treatments was not significant. In the principal component analysis, the 23.3 g/(kg·soil) bio-organic fertilizer treatment had the highest score. Therefore, bio-organic fertilizer can improve the growth, stress resistance and nutrient absorption of apple seedlings, and soil microbial functional diversity and utilization intensity of carbon source, and 23.3 g/(kg·soil) treatment is the best.

Key words: bio-organic fertilizer, apple seedling, physiological characteristics, functional diversity of soil microbial communities

CLC Number:

S661.1

YU Huili, XU Bianbian, XU Guoyi, SHAO Wei, GAO Dengtao, SI Peng. Effects of Bio-organic Fertilizer on Growth, Physiological Characteristics of Apple Seedlings and Soil Microbial Functional Diversity[J]. Chinese Agricultural Science Bulletin, 2022, 38(1): 32-38.

Figures/Tables 8

References 31

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处理	株高/cm	叶面积/cm²	百叶鲜重/g	根体积/mL	根长/cm
CK	92.29±0.91c	20.97±0.72a	54.97±1.77a	143.92±0.58a	40.67±1.20b
T1	105.43±1.27a	19.59±0.39ab	53.03±0.84a	157.00±6.56a	50.44±1.72a
T2	96.88±0.94b	19.13±0.68ab	52.29±1.58a	74.53±4.69b	42.33±1.86b
T3	97.56±0.29b	18.29±1.06b	41.86±1.35b	78.00±3.06b	42.67±1.76b

处理	株高/cm	叶面积/cm²	百叶鲜重/g	根体积/mL	根长/cm
CK	92.29±0.91c	20.97±0.72a	54.97±1.77a	143.92±0.58a	40.67±1.20b
T1	105.43±1.27a	19.59±0.39ab	53.03±0.84a	157.00±6.56a	50.44±1.72a
T2	96.88±0.94b	19.13±0.68ab	52.29±1.58a	74.53±4.69b	42.33±1.86b
T3	97.56±0.29b	18.29±1.06b	41.86±1.35b	78.00±3.06b	42.67±1.76b

处理	丙二醛/(nmol/g)	可溶性蛋白/(mg/g)	可溶性糖/(mg/g)	脯氨酸/(mg/g)
CK	11.31±0.53a	3.41±0.12a	21.61±0.86a	0.013±0.0006b
T1	6.51±0.51b	2.74±0.19b	23.71±0.50a	0.018±0.0016a
T2	7.16±0.67b	3.22±0.11a	22.60±0.89a	0.017±0.0012ab
T3	7.70±0.94b	2.51±0.12b	22.13±1.80a	0.014±0.0002b

处理	丙二醛/(nmol/g)	可溶性蛋白/(mg/g)	可溶性糖/(mg/g)	脯氨酸/(mg/g)
CK	11.31±0.53a	3.41±0.12a	21.61±0.86a	0.013±0.0006b
T1	6.51±0.51b	2.74±0.19b	23.71±0.50a	0.018±0.0016a
T2	7.16±0.67b	3.22±0.11a	22.60±0.89a	0.017±0.0012ab
T3	7.70±0.94b	2.51±0.12b	22.13±1.80a	0.014±0.0002b

处理	均匀度指数E	优势度指数D	多样性指数H'	丰富度指数S	均一性指数U
CK	1.01±0.01a	0.96±0.00a	3.28±0.03a	26.33±1.45a	4.59±0.11a
T1	1.00±0.01a	0.96±0.00a	3.28±0.03a	26.67±1.45a	4.38±0.26a
T2	1.02±0.01a	0.95±0.00b	3.11±0.00b	21.33±0.88b	4.27±0.17a
T3	0.99±0.00a	0.96±0.00a	3.31±0.01a	28.33±0.33a	4.78±0.06a