Do root interactions between wheat and non-mycorrhizal ancestral plants influence fungal activity and soil quality in an Andisol?

IF 1.5 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY Chilean Journal of Agricultural Research Pub Date : 2023-10-01 DOI:10.4067/s0718-58392023000500589
Claudia Castillo, Jaime Solano, Paula Aguilera, Sacha Debouzy, Rocío Catalán, Antonieta Ruiz, Pedro M. de Souza, Ewald Sieverding, Fernando Borie
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Abstract

Cover crops in sustainable agrosystems are becoming more and more applied. However, legacy effects on the growth of companion plants or following crops in rotation systems are still poorly understood, especially when Andean and ancestral crops are involved. In this work, two wheat (Triticum aestivum L.) cultivars differing in P efficiency (Kirón higher than Chevignon) were cropped together with two non-mycorrhizal plants, quinoa (Chenopodium quinoa Willd.) and amaranth (Amaranthus spp.), to study the interactions and the effects produced in the wheat rhizosphere, plant growth and mycorrhizal parameters at harvest. The plants were grown in a three-compartment plexiglass rhizobox containing an Andisol. The central compartment separated by a nylon mesh was used for the cover crops, and wheat was sown on each side. A habitual pre-crop rapeseed (Brassica napus L.), also non-mycorrhizal, was used as control. At harvest, soil (pH, available P, acid phosphatase, microbial-P), plant (phytomass, organic acid exudation, P uptake efficiency, Zn and Mn in shoots), and mycorrhizal properties (root colonization, glomalin, spore number, and hyphal density) were measured in both wheat rhizospheres. Results show that wheat cultivars differed in soil and plant characteristics affected by non-host plants being the most efficient one, better. Surprisingly, mycorrhizal propagules were not depressed, and even fungal spores with amaranth (10543 spores 100 g-1) increased 2.6-fold than control (3910 spores 100 g-1) in the P-efficient cultivar. Data obtained suggest being cautious in selecting the best wheat cultivar when using these ancestral crops, especially for wheat natives’ smallholders working in this type of soil.
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小麦和非菌根祖先植物之间的根系相互作用是否影响真菌活性和土壤质量?
覆盖作物在可持续农业系统中的应用越来越广泛。然而,在轮作系统中,对伴生植物或后续作物生长的遗留影响仍然知之甚少,特别是当涉及安第斯和祖先作物时。以小麦(Triticum aestivum L.)和藜麦(Chenopodium quinoa Willd.)、苋菜(Amaranthus spp.)两种磷效率差异较大(Kirón高于Chevignon)的品种为研究材料,研究了两种非菌根植物之间的相互作用及其对小麦根际、植株生长和收获时菌根参数的影响。这些植物生长在一个三室有机玻璃根箱中,根箱中含有一种苯甲酸乙二醇。由尼龙网隔开的中央隔间用于种植覆盖作物,小麦在每一侧播种。以一种同样不含菌根的习惯茬前油菜籽(Brassica napus L.)作为对照。收获时,测定了两种小麦根际土壤(pH、有效磷、酸性磷酸酶、微生物磷)、植物(植物质量、有机酸渗出量、磷吸收效率、芽中锌和锰)和菌根特性(根定植、球囊素、孢子数和菌丝密度)。结果表明,不同小麦品种土壤和植株性状受非寄主植物影响最大,效果较好。令人惊讶的是,菌根繁殖体并未受到抑制,甚至在含紫红花的品种中,真菌孢子(10543个孢子100 g-1)比对照(3910个孢子100 g-1)增加了2.6倍。所获得的数据表明,在使用这些祖先作物时,在选择最佳小麦品种时要谨慎,特别是对于在这种土壤中工作的小麦本地小农。
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来源期刊
Chilean Journal of Agricultural Research
Chilean Journal of Agricultural Research AGRICULTURE, MULTIDISCIPLINARY-AGRONOMY
CiteScore
3.10
自引率
11.80%
发文量
60
审稿时长
6-12 weeks
期刊介绍: ChileanJAR publishes original Research Articles, Scientific Notes and Reviews of agriculture, multidisciplinary and agronomy: plant production, plant protection, genetic resources and biotechnology, water management, soil sciences, environment, agricultural economics, and animal production (focused in ruminant feeding). The editorial process is a double-blind peer reviewing, Editorial Office checks format, composition, and completeness, which is a requirement to continue the editorial process. Editorial Committee and Reviewers evaluate relevance and scientific merit of manuscript.
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