紫花苜蓿-禾本科植物混合栽培以及接种根瘤菌和根瘤菌对土壤生物特性和养分转化活动的影响

IF 3.7 2区 农林科学 Q1 ECOLOGY
Jiri Holatko , Martin Brtnicky , Antonin Kintl , Tivadar Baltazar , Ondrej Malicek , Adnan Mustafa , Jiri Skladanka , Jiri Kucerik , Saud Alamri , Jan Lochman , Pavel Horky , Daniela Knotova , Martina Zapletalová , Maja Radziemska , Muhammad Naveed , Tomas Vymyslicky , Oldrich Latal , Tereza Hammerschmiedt
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引用次数: 0

摘要

紫花苜蓿(Medicago sativa)与禾本科植物间作的产量等于或高于单作紫花苜蓿的产量,提高了青贮饲料的质量,并增强了对干旱和其他压力的适应能力。将植物生长促进根瘤菌(PGPR)接种到紫花苜蓿单一栽培或混合栽培(与菊科杂交种(Festulolium pabulare))中,有可能提高植物生长、产量和土壤质量。在小规模田块(3 × 10 米)上,以 30 千克/公顷-1 的播种率播种了紫花苜蓿单一栽培,以及紫花苜蓿和苜蓿杂交种以 1:1、2:1 和 3:1 的比例混合栽培。土壤类型为 Luvisol,未接种或接种了(⁓10.5 log10 CFUm-2)含有(Azotobacter、Sinorhizobium meliloti、Bacillus megatherium)的商业 PGPR 复合菌群。试验结束后,收集混合土壤样本(包括 8 个深度为 10 厘米的探针),并测定其生物特性。与紫花苜蓿对照组相比,紫花苜蓿与铁线蕨杂交种的混合培养降低了硝化作用;脲酶降低了 8.5%(紫花苜蓿:铁线蕨 1:1)、36.5%(2:1)和 49.7%(3:1)。d-葡萄糖诱导的呼吸作用提高了 55.4%(2:1)和 23.1%(3:1),同时硝化古细菌的数量呈负增长趋势。与对照组相比,亚硝化细菌的相对丰度从 4.5 %(1:1)降至 9.4 %(3:1)。接种通过增加脲酶(2:1 接种的比 2:1 未接种的高 49.1%;3:1 接种的比 3:1 未接种的高 36.5%)间接影响了混合变体中氮(N)的周转,并增加了亚硝化细菌的相对丰度(苜蓿接种的比未接种的高 7.3%,2:1 接种的比未接种的高 4.2%)。接种提高了磷酸酶活性(1:1 接种比未接种值高 11.4%;2:1 接种比未接种值高 21.8%;3:1 接种比未接种值高 16.2%)、特定土壤呼吸作用(紫花苜蓿接种比未接种值高 146%;1:1 接种比未接种值高 192%;2:1 接种比未接种值高 3%),并使共养菌(放线菌)的相对丰度呈上升趋势(紫花苜蓿接种比未接种值高 10.2 %,1:1 接种为 6.1 %,3:1 接种为 3.4 %),尽管真菌生物量有所减少。在紫花苜蓿与草的比例较高的变种中,N2 固定和 N 同化率提高,硝化作用降低,特定基质的矿化作用增强。接种既没有直接用引入的 PGPR 类群丰富土壤,也没有改变土壤微生物的多样性。不过,接种确实促使群落组成发生了变化,硝化细菌和共养菌的比例增加。尽管测试的实验变体发生了多种变化,但在这三年中并没有观察到对收获作物的植物生物量产生显著影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of alfalfa-grass mixed culture and inoculation with Azotobacter and Rhizobium on soil biological properties and nutrient transformation activities

Effect of alfalfa-grass mixed culture and inoculation with Azotobacter and Rhizobium on soil biological properties and nutrient transformation activities

Intercropping alfalfa (Medicago sativa) with grass offers yields equal to or greater than alfalfa monoculture, improves the quality of silaged fodder, and enhances resilience to drought and other stresses. Inoculating either alfalfa monoculture or mixed cultures (with a festucoid hybrid (Festulolium pabulare)) with plant growth-promoting rhizobacteria (PGPR) could potentially enhance plant growth, yield and soil quality. A monoculture of alfalfa and three different mixed cultures of alfalfa and festucoid hybrid at ratios 1:1, 2:1, and 3:1 were sown at a seeding rate of 30 kg·ha-1 on small-scaled field plots (3 × 10 m). The soil type was Luvisol, either uninoculated or inoculated (⁓10.5 log10 CFUm-2) with a commercial PGPR consortium containing (Azotobacter, Sinorhizobium meliloti, Bacillus megatherium). At the end of the trial, mixed soil samples (comprising 8 probes to a depth of 10 cm) were collected, and their biological properties were determined. Mixed cultures of alfalfa with the festucoid hybrid decreased nitrification; urease was lower by 8.5 % (alfalfa:festucoid 1:1), 36.5 % (2:1), and 49.7 % (3:1) compared to alfalfa control. d-glucose-induced respiration was higher by 55.4 % (2:1) and by 23.1 % (3:1), along with a negative trend in the nitrifying Archaea abundance. Nitrososphaeria relative abundance decreased from 4.5 % (1:1) to 9.4 % (3:1) compared to the control. Inoculation indirectly affected nitrogen (N) turnover in the mixed variants by increasing urease (2:1 inoculated 49.1 % over 2:1 uninoculated; 3:1 inoculated 36.5 % over 3:1 uninoculated value) and increased the relative abundance of Nitrososphaeria (alfalfa inoculated 7.3 % and 2:1 inoculated 4.2 % over uninoculated control). Inoculation enhanced phosphatase activity (1:1 inoculated 11.4 %; 2:1 inoculated 21.8 %, 3:1 inoculated 16.2 % over respective uninoculated values), specific soil respiration (alfalfa inoculated 146 %, 1:1 inoculated 192 %, 2:1 inoculated 3 % over uninoculated values), and brought a positive tendency in copiotrophic (Actinobacteria) relative abundance (alfalfa inoculated 10.2 %, 1:1 inoculated 6.1 %, 3:1 inoculated 3.4 % over respective uninoculated values), albeit it decreased fungal biomass. An increased rate of N2 fixation and N assimilation in variants with high alfalfa: grass ratio decreased nitrification and increased mineralization of specific substrates. Inoculation neither directly enriched the soil with the introduced PGPR taxa nor shifted soil microbial diversity. However, it did prompt tendencies in community composition changes towards a higher proportion of nitrifiers and copiotrophs. Despite multiple changes in the tested experimental variants, no significant effect on the plant biomass of harvested crops was observed during the three years.

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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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