生物炭对玉米苗期根际土壤氮素形态及相关微生物的影响

Q3 Agricultural and Biological Sciences Chinese Journal of Eco-agriculture Pub Date : 2014-06-28 DOI:10.3724/SP.J.1011.2014.30750
M. Ying, W. Hongyan, Yu Song, Liu Zhihua, Zhao Chengsen, T. Yue
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引用次数: 2

摘要

近年来的研究表明,生物炭能显著增加土壤碳储量,提高土壤肥力,维持土壤生态系统平衡。生物炭还可以作为土壤肥料或改良剂,通过提供和保持土壤养分来促进植物生长和提高作物产量。生物炭作为土壤改良剂也广泛应用于农业土壤。此外,有实验证据表明,在土壤中添加生物炭会直接影响维持土壤健康和功能的土壤微生物群落/活动。关于生物炭影响的全部过程和后果的记录仍然很少。在玉米盆栽栽培试验中,施用不同量的玉米炭和水稻秸秆炭,对玉米苗高、生物量和根际土壤氮转化及相关微生物进行了研究。研究结果表明,60 g·kg-1玉米生物炭和40-60 g·kg-1水稻生物炭显著降低了玉米苗高(p0.05)。水稻生物炭的效应比玉米生物炭更明显。施用60 g·kg-1玉米生物炭和20 ~ 60 g·kg-1水稻生物炭均显著降低了玉米幼苗地上生物量。施用60 g·kg-1玉米生物炭可显著提高根际土壤含水量和微生物生物量N。随着两种生物炭用量的增加,总氮/硝态氮含量和固氮率也明显增加,在玉米或水稻生物炭用量为60 g·kg-1时达到峰值。40 g·kg-1玉米生物炭处理显著提高了氨氮含量。此外,两种生物炭的每个施用水平都限制了细菌总数。不同程度地促进根际土壤固氮细菌和纤维素降解细菌的生长,以60 g·kg-1玉米生物炭处理效果最好。总体而言,适当的生物炭施用通过影响根际土壤中相关微生物的群落结构来促进氮的循环和转化。玉米生物炭的效果比水稻生物炭明显。从作物生长、根际土壤氮转化和相关微生物三个方面研究了生物炭对土壤氮效率的影响。研究结果揭示了施用生物炭对土壤氮素有效性的影响机制。这为探究生物炭对土壤固碳和减少氮肥投入量的作用机制提供了依据。这对保护黑土的肥力有着深远的意义。
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Effect of biochar on nitrogen forms and related microorganisms of rhizosphere soil of seedling maize.
Recent researches have noted that biochar significantly increases soil carbon storage,improves soil fertility and maintains balanced soil ecosystem.Biochar also acts as soil fertilizer or amendment to enhance plant growth and increase crop yield by supplying and retaining soil nutrients.Biochar is also widely used in agricultural soils as soil conditioner.Furthermore,there is experimental evidence that soil microbial communities/activities which sustain soil health and functions are directly affected by biochar addition to soils.The full range of the processes and consequences of the effects of biochar remains poorly documented.In a pot maize cultivation experiment,different quantities of charcoals from burnt maize and rice straws were applied and the maize seedling height,biomass and rhizosphere soil nitrogen transformation,and the related microorganisms investigated.The research results showed that 60 g·kg-1 maize biochar and 40-60 g·kg-1 rice biochar significantly decreased maize seedling height(P 0.05).Rice biochar presented more apparent effects than maize biochar.Aboveground biomass of maize seedling was also significantly reduced under 60 g·kg-1 maize biochar or 20-60 g·kg-1 rice biochar application.Under 60 g·kg-1 maize biochar application,rhizosphere soil water content and microbial biomass N obviously improved.As the application level of the two types of biochar increased,the content of total nitrogen/nitrate and nitrogen fixation rate also appreciably increased,reaching peak levels at 60 g·kg-1 maize or rice biochar application.Ammonia nitrogen content significantly improved under 40 g·kg-1 maize biochar treatment.Moreover,each application level of the two types of biochar limited total bacterial count.It also promoted at different degrees of growth of nitrogen-fixing bacteria and cellulose degrading bacteria in rhizosphere soils,with 60 g·kg-1 maize biochar as the most effective treatment.Overall,proper biochar application enhanced nitrogen cycle and transformation by influencing community structure of related microorganisms in rhizosphere soils.The effect of maize biochar was more obvious than that of rice biochar.The effects of biochar on nitrogen efficiency in soils were investigated from three aspects—crop growth,rhizosphere soil nitrogen transformation and the related microorganisms.The results detected the mechanisms of the effects of biochar application to soils on nitrogen availability.This provided the basis for the mechanisms of increasing soil carbon sequestration and decreasing the amount of nitrogen fertilizer input under biochar application to mollisols.This was profoundly significant in terms of protecting the fertility of black soils.
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来源期刊
Chinese Journal of Eco-agriculture
Chinese Journal of Eco-agriculture Environmental Science-Ecology
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2.70
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