UWA School of Agriculture and Environment, The University of Western Australia, Perth, Australia.
The UWA Institute of Agriculture, The University of Western Australia, Perth, Australia.
J Sci Food Agric. 2022 Jan 30;102(2):540-549. doi: 10.1002/jsfa.11382. Epub 2021 Jul 2.
Pasture farming in south-western Australia is challenged by nutrient-poor soils. We assessed the impact of microbial consortium inoculant (MI) and rock mineral fertiliser (MF) on growth, nutrient uptake, root morphology, rhizosphere carboxylate exudation and mycorrhizal colonisation in three pasture grasses - tall fescue (Festuca arundinacea L.), veldt grass (Ehrharta calycina Sm.) and tall wheatgrass (Thinopyrum ponticum L.) grown in low-phosphorus (P) sandy soil in a glasshouse for 30 and 60 days after sowing (DAS).
Veldt grass produced the highest specific root length and smallest average root diameter in both growth periods, and had similar shoot weight, root surface area and fine root length (except at 30 DAS) to tall fescue. Compared with the control, MI alone or combined with MF significantly increased shoot and root biomass (except root biomass at 30 DAS), likely due to the significant increases in root surface area and fine root length. Plants supplied with MI + MF had higher shoot N and P contents than those in the MI and the control treatments at 60 DAS. Malate, citrate and trans-aconitate were the major rhizosphere carboxylates exuded at both 30 and 60 DAS. Malate exudation varied among species and treatments in both growth periods, but citrate exudation was consistently higher in the low-P treatments (control and MI) than the MF and MI + MF treatments.
Microbial consortium inoculant can positively influence pasture production in low-P soil by increasing root surface area and fine root length, whereas exudation of nutrient-mobilising carboxylates (citrate) is dependent more on soil P supply than microbial consortium inoculant. © 2021 Society of Chemical Industry.
澳大利亚西南部的牧场农业受到土壤养分贫瘠的挑战。我们评估了微生物联合体接种剂(MI)和岩石矿物肥料(MF)对在低磷(P)沙质土壤中生长的三种牧草-高羊茅(Festuca arundinacea L.)、野燕麦草(Ehrharta calycina Sm.)和披碱草(Thinopyrum ponticum L.)在播种后 30 和 60 天的生长、养分吸收、根系形态、根际羧酸分泌和菌根定植的影响。
在两个生长时期,野燕麦草的比根长最长,平均根直径最小,且地上生物量、根表面积和细根长度与高羊茅相似(30 天除外)。与对照相比,单独使用 MI 或与 MF 联合使用显著增加了地上和地下生物量(30 天除外),这可能是由于根表面积和细根长度的显著增加。与 MI 和对照处理相比,用 MI+MF 处理的植物在 60 天的地上和地下的氮和磷含量较高。在 30 和 60 天,苹果酸、柠檬酸和反丁烯二酸是主要的根际羧酸。在两个生长时期,根际羧酸的分泌在不同物种和处理之间存在差异,但在低磷处理(对照和 MI)中柠檬酸的分泌始终高于 MF 和 MI+MF 处理。
微生物联合体接种剂可以通过增加根表面积和细根长度,对低磷土壤中的牧草生产产生积极影响,而养分活化羧酸(柠檬酸)的分泌更多地取决于土壤 P 的供应,而不是微生物联合体接种剂。© 2021 化学工业协会。
