The negative mycorrhizal growth response of host plants to Acaulospora cf. morrowiae irrespective of soil P availability

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Thasneem Soree , Ph Baleshwor Sharma , Wittaya Kaonongbua , Lompong Klinnawee
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Abstract

Acaulospora is one of the dominant genera of AMF associated with waterlogged vegetation, and its dominance was also revealed in the roots of a lowland rice variety indigenous to Southern Thailand. In a preliminary finding, the isolated Acaulospora showed growth suppression of lowland japonica Nipponbare rice, even in high phosphorus (P) soil. The isolated Acaulospora was identified to species level and assigned as Acaulospora cf. morrowiae Phattalung 1. The mycorrhizal growth response (MGR) of an upland indica rice and maize to A. cf. morrowiae was further tested under low and high P conditions. AMF colonization rates were high, over 70%, in both cases, with perfect arbuscule and vesicle formation; however, growth depression of the host plants was markedly observed. Reduced nutrient accumulation in both shoots and roots of host plants was noted, as depicted by nutrient profiling. To further substantiate the negative MGR to inoculation of A. cf. morrowiae, a standardized in vivo bioassay was performed using maize seedlings in a sand and perlite mixture, ensuring low P with 20 mg kg−1 P in the form of insoluble CaH2PO4. Shoot and root growth of maize seedlings were reduced at 23.7 and 36.1%, respectively, by the inoculation of AMF. The nutrient-parasitic nature of this AMF results from unproportioned drainage of photosynthates, indicating an unbalanced primary/nutrient trade-off system between symbionts. The overall associative merits or demerits of A. cf. morrowiae cannot be ruled out without thorough investigations considering several ecological perspectives and its fitter survival and dominance in waterlogged soils.

寄主植物的负菌根生长对 Acaulospora cf. morrowiae 的反应与土壤中 P 的供应无关
Acaulospora 是与涝害植被相关的主要 AMF 属之一,在泰国南部本土的一个低地水稻品种的根部也发现了它的优势。初步研究发现,即使在高磷土壤中,分离出的 Acaulospora 也会抑制低地粳稻 Nipponbare 的生长。经鉴定,分离出的 Acaulospora 为 Acaulospora cf. morrowiae Phattalung 1。在低磷和高磷条件下,进一步测试了高地籼稻和玉米的菌根生长响应(MGR)。在这两种情况下,AMF 的定殖率都很高,超过 70%,并有完美的节肢和囊泡形成;但寄主植物的生长明显受到抑制。正如养分分析结果所示,寄主植物的芽和根部的养分积累都有所减少。为了进一步证实接种 A. cf. morrowiae 对 MGR 的负面影响,使用玉米幼苗在沙和珍珠岩混合物中进行了标准化的体内生物测定,以 20 毫克/千克-1 的不溶 CaH2PO4 形式确保低 P。接种 AMF 后,玉米幼苗的嫩枝和根系生长分别减少了 23.7% 和 36.1%。这种 AMF 的营养寄生特性是由于光合产物的排泄不均衡造成的,表明共生体之间的初级/营养权衡系统不平衡。如果不从多个生态学角度对 A. cf. morrowiae 及其在水涝土壤中的生存和优势地位进行深入研究,就无法确定其整体的优缺点。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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