Fertilization mode affects soil quality and ecological health. The effects of four fertilization regimens on lignocellulose content, readily degradable carbohydrate decomposition, and potential microbial functions in the topsoil of a wheat–maize rotation system between 2012 and 2017 were investigated. The fertilization regimens of control (control NFNB), high chemical fertilizer (HCF), high biochar plus low chemical fertilizer (HBLCF), and biochar-based fertilizer (BBF) were compared on soil fundamental properties, microbial structure, and potential function in soil carbohydrate degradation based on metagenome analysis. The diversity of carbohydrate-active enzyme genes in the topsoil microbial consortia in the four trials was primarily distributed within the ten ecologically most dominant phyla. Application of BBF was associated with the lowest decline in total nitrogen and P2O5 (2012-2017: 6.5% and 28.1%, respectively) and the most effective carbohydrate decomposition (2015-2017: 67.0% for cellulose and 59.9% for readily degradable carbohydrate). Carbohydrate transport and metabolism accounted for 6.0% of reads assigned functional classification under the BBF regimen. These findings reveal the ecologically functional diversity of topsoil microorganisms and suggest BBF application as a promising strategy for sustainable agriculture and beneficial to soil health.
Keywords: biochar-based fertilizer, carbohydrate decomposition, genetic function, microbial community, topsoil
DOI: 10.25165/j.ijabe.20191206.4849

Citation: Shen Y J, Zhao L X, Meng H B, Cheng H S, Ding J T, Wang J R, et al. Metagenome analysis reveals potential microbial functions in topsoil of wheat–maize rotation system with five-year application of fertilizers. Int J Agric & Biol Eng, 2019; 12(6): 177–184.

biochar-based fertilizer, carbohydrate decomposition, genetic function, microbial community, topsoil

Zhen Z, Liu H, Wang N, Guo L, Meng J, Ding N, et al. Effects of manure compost application on soil microbial community diversity and soil microenvironments in a temperate cropland in China. Plos One, 2014; 9(10): e108555.

Han Y L, Song H X, Liao Q, Yu Y, Jian S F, Lepo J E, et al. Nitrogen use efficiency is mediated by vacuolar nitrate sequestration capacity in roots of Brassica napus. Plant Physiology, 2016; 170(3): 1684–1698.

Xin X, Zhang J, Zhu A, Zhang C. Effects of long-term (23 years) mineral fertilizer and compost application on physical properties of fluvo-aquic soil in the North China Plain. Soil and Tillage Research, 2016; 156: 166–172.

Sakram G, Machender G, Dhakate R, Saxena P R, Prasad M D. Assessment of trace elements in soils around Zaheerabad Town, Medak District, Andhra Pradesh, India. Environmental Earth Sciences, 2015; 73(8): 4511–4524.

Guo L, Wu G, Li Y, Li C, Liu W, Meng J, et al. Effects of cattle manure compost combined with chemical fertilizer on topsoil organic matter, bulk density and earthworm activity in a wheat–maize rotation system in Eastern China. Soil & Tillage Research, 2016; 156(156): 140–147.

Shen Y, Zhao L, Meng H, Hou Y, Zhou H, Wang F, et al. Effect of aeration rate, moisture content and composting period on availability of copper and lead during pig manure composting. Waste Management & Research the Journal of the International Solid Wastes & Public Cleansing Association Iswa, 2016; 34(6): 578–583.

Jeong S T, Kim G W, Hwang H Y, Kim P J, Kim S Y. Beneficial effect of compost utilization on reducing greenhouse gas emissions in a rice cultivation system through the overall management chain. Science of the Total Environment, 2018; 613-614: 115–122.

Schulz H, Glaser B. Effects of biochar compared to organic and inorganic fertilizers on soil quality and plant growth in a greenhouse experiment quality and plant growth in a greenhouse experiment. Journal of Plant Nutrition & Soil Science, 2012; 175(3): 410–422.

Liu J, Schulz H, Brandl S, Miehtke H, Huwe B, Glaser B S. Short-term effect of biochar and compost on soil fertility and water status of a Dystric Cambisol in NE Germany under field conditions. Journal of Plant Nutrition & Soil Science, 2012; 175(5): 698–707.

Joseph S, Graber E R, Chia C, Munroe P, Donne S, Thomas T, et al. Shifting paradigms: development of high-efficiency biochar fertilizers based on nano-structures and soluble components. Carbon Management, 2013; 4(3): 323–343.

Morais C P, Barros A I, Santos Júnior D, Ribeiro C A, Crespi M S, Senesi G S, et al. Calcium determination in biochar-based fertilizers by laser-induced breakdown spectroscopy using sodium as internal standard. Microchemical Journal, 2017; 134:370–373.

Zhu X, Chen B, Zhu L, Xing B. Effects and mechanisms of biochar-microbe interactions in soil improvement and pollution remediation: A review. Environmental Pollution, 2017; 227: 98–115.

Gul S, Whalen J K, Thomas B W, Sachdeva V, Deng H. Physico-chemical properties and microbial responses in biochar-amended soils: Mechanisms and future directions. Agriculture Ecosystems & Environment, 2015; 206: 46–59.

Li K, Zhu C, Zhang L, Zhu X. Study on pyrolysis characteristics of lignocellulosic biomass impregnated with ammonia source. Bioresour Technol, 2016; 209: 142–147.

Naeem M A, Khalid M, Aon M, Abbas G, Amjad M, Murtaza B, et al. Combined application of biochar with compost and fertilizer improves soil properties and grain yield of maize. Journal of Plant Nutrition, 2017; 41(1): 112–122.

Ameloot N, Graber E R, Verheijen F G A, de Neve S. Interactions between biochar stability and soil organisms: review and research needs. European Journal of Soil Science, 2013; 64(4): 379–390.

Doan T T, Bouvier C, Bettarel Y, Bouvier T, Henry-des-Tureaux T, Janeau J L, et al. Influence of buffalo manure, compost, vermicompost and biochar amendments on bacterial and viral communities in soil and adjacent aquatic systems. Applied Soil Ecology, 2014; 73(2): 78–86.

Yao Q, Liu J, Yu Z, Li Y, Jin J, Liu X, et al. Three years of biochar amendment alters soil physiochemical properties and fungal community composition in a black soil of northeast China. Soil Biology & Biochemistry, 2017; 110: 56–67.

Li J, Cooper J M, Lin Z, Li Y, Yang X, Zhao B. Soil microbial community structure and function are significantly affected by long-term organic and mineral fertilization regimes in the North China Plain. Applied Soil Ecology, 2015; 96: 75–87.

Ge T, Chen X, Yuan H, Li B, Zhu H, Peng P, et al. Microbial biomass, activity, and community structure in horticultural soils under conventional and organic management strategies. European Journal of Soil Biology, 2013; 58: 122–128.

Nair A, Ngouajio M. Soil microbial biomass, functional microbial diversity, and nematode community structure as affected by cover crops and compost in an organic vegetable production system. Applied Soil Ecology, 2012; 58: 45–55.

Martins M D R, Angers D A, Corá J E. Carbohydrate composition and water-stable aggregation of an oxisol as affected by crop sequence under no-till. Soil Science Society of America Journal, 2012; 76(2): 475.

Guidi C, Cannella D, Leifeld J, Rodeghiero M, Magid J, Gianelle D, et al. Carbohydrates and thermal properties indicate a decrease in stable aggregate carbon following forest colonization of mountain grassland. Soil Biology and Biochemistry, 2015; 86: 135–145.

Wang J, Zhang L, Lu Q, Raza W, Huang Q, Shen Q. Ammonia oxidizer abundance in paddy soil profile with different fertilizer regimes. Applied Soil Ecology, 2014; 84: 38–44.

Yang F, Du M, Tian X, Eneji A E, Duan L, Li Z. Plant growth regulation enhanced potassium uptake and use efficiency in cotton. Field Crops Research, 2014; 163: 109–118.

Teixeira R S, da Silva A S, Ferreira-Leitao V S, da Silva Bon E P. Amino acids interference on the quantification of reducing sugars by the 3,5-dinitrosalicylic acid assay mislead carbohydrase activity measurements. Carbohydr Res, 2012; 363(23): 33–37.

Jung S J, Kim S H, Chung I M. Comparison of lignin, cellulose, and hemicellulose contents for biofuels utilization among 4 types of lignocellulosic crops. Biomass & Bioenergy, 2015; 83: 322–327.

Cai L, Chen T B, Zheng S W, Liu H T, Zheng G D. Decomposition of lignocellulose and readily degradable carbohydrates during sewage sludge biodrying, insights of the potential role of microorganisms from a metagenomic analysis. Chemosphere, 2018; 201: 127–136.

Shinkai T, Mitsumori M, Sofyan A, Kanamori H, Sasaki H, Katayose Y, et al. Comprehensive detection of bacterial carbohydrate-active enzyme coding genes expressed in cow rumen. Animal Science Journal, 2016; 87: 1363–1370.

Roth C, Weizenmann N, Bexten N, Saenger W, Zimmermann W, Maier T, et al. Amylose recognition and ring-size determination of amylomaltase. Science Advances, 2017; 3(1): e1601386.

Watanabe R, Nie Y, Takahashi S, Wakahara S, Li Y Y. Efficient performance and the microbial community changes of submerged anaerobic membrane bioreactor in treatment of sewage containing cellulose suspended solid at 25°C. Bioresour Technol, 2016; 216: 128–134.

Lacerda Júnior G V, Noronha M F, de Sousa S T, Cabral L, Domingos D F, Sáber M L, et al. Potential of semiarid soil from Caatinga biome as a novel source for mining lignocellulose-degrading enzymes. FEMS Microbiology Ecology, 2017; 93(2): fiw248.

Ke X, Lu Y, Conrad R. Different behaviour of methanogenic archaea and Thaumarchaeota in rice field microcosms. Fems Microbiology Ecology, 2014; 87(1): 18–29.

Januszek K, Długa J, Socha J. Dehydrogenase activity of forest soils depends on the assay used. International Agrophysics, 2015; 29(1): 47–59.

Madej M G. Comparative sequence-function analysis of the major facilitator superfamily: The "Mix-and-Match" ,method. Methods in Enzymology, 2015; 557:521–549.

Chaudhary A, Pfister S, Hellweg S. Spatially Explicit analysis of biodiversity loss due to global agriculture, pasture and forest land use from a producer and consumer perspective. Environmental Science & Technology, 2016; 50(7): 3928.

Do T H, Nguyen T T, Nguyen T N, Le Q G, Nguyen C, Kimura K, et al. Mining biomass-degrading genes through Illumina-based de novo sequencing and metagenomic analysis of free-living bacteria in the gut of the lower termite Coptotermes gestroi harvested in Vietnam. Journal of Bioscience and Bioengineering, 2014; 118(8): 665–671.

Janeček S, Gabriško M. Remarkable evolutionary relatedness among the enzymes and proteins from the α-amylase family. Cellular & Molecular Life Sciences Cmls, 2016; 73(14): 1–19.

Rashid N, Kanai T, Atomi H, Imanaka T. Among multiple phosphomannomutase gene orthologues, only one gene encodes a protein with Phosphoglucomutase and Phosphomannomutase activities in Thermococcus kodakaraensis. Journal of Bacteriology, 2004; 186(18): 6070–6076.

Zakrzewski M, Goesmann A, Jaenicke S, Junemann S, Eikmeyer F, Szczepanowski R, et al. Profiling of the metabolically active community from a production-scale biogas plant by means of high-throughput metatranscriptome sequencing. Journal of Biotechnology, 2012; 158(4): 248–258.