Mabagala Frank Stephano, Mng'ong'o Marco E
Tanzania Agricultural Research Institution (TARI), TARI-Mlingano Centre, P.O. Box 5088, Tanga, Tanzania.
College of Science and Technical Education (CoSTE), Mbeya University of Science and Technology (MUST), P.O. Box 131, Mbeya, Tanzania.
Saudi J Biol Sci. 2022 May;29(5):3635-3641. doi: 10.1016/j.sjbs.2022.02.056. Epub 2022 Mar 7.
Application of organic manure (OM) and crop residues in agricultural soils can potentially influence positively or negatively the availability of soil phosphorus (P) through soil mineralization, sorption, or desorption of soil-bound P. Traditionally, the addition of OM can reduce the capacity of the soil colloids to adsorb P, thus increasing the release of P in soil solution, but also added OM can increase the adsorption site and increase the fixation or sorption of P to soil colloids, thus reducing the availability of P in soil solution and loss to the environment. The highly weathered tropical soils (HWTS) are susceptible to P insufficiency because HWTS have high P adsorption and fixation; this is mainly due to high concentration of P adsorbent. The main P adsorbents in HWTS include Al, Fe, Ca, and clay minerals, which are principally the same binding or adsorbent for OM compounds, but in excess, are toxic (Al and Fe) to crops. Thus, the presence of OM in HWTS can compromise the adsorption and availability of P in agricultural soils following phosphatic fertilizer applications. In this study, the influence of OM on P adsorption and availability was characterized to have a clear understanding of how OM influences P availability in agricultural soils, especially in highly weathered tropical soil. It is clearly outlined that the application of OM and crop residues can positively or negatively influence the availability of P in agricultural soils for plant uptake and dictate the P that is available for loss to the environment. Thus, the addition of organic matter as a strategy to increase P bioavailability for plant uptake must be treated with care because their contribution is not strait forward to be positive in many agricultural soils.
在农业土壤中施用有机肥(OM)和作物残茬可能会通过土壤矿化、吸附或土壤结合态磷的解吸对土壤磷(P)的有效性产生积极或消极的影响。传统上,添加OM可以降低土壤胶体吸附P的能力,从而增加土壤溶液中P的释放,但添加的OM也可以增加吸附位点,增加P在土壤胶体上的固定或吸附,从而降低土壤溶液中P的有效性并减少向环境中的流失。高度风化的热带土壤(HWTS)容易缺磷,因为HWTS具有高磷吸附和固定能力;这主要是由于高浓度的磷吸附剂。HWTS中的主要磷吸附剂包括铝、铁、钙和粘土矿物,它们主要也是OM化合物的相同结合剂或吸附剂,但过量时对作物有毒(铝和铁)。因此,在施用磷肥后,HWTS中OM的存在可能会影响农业土壤中P的吸附和有效性。在本研究中,对OM对P吸附和有效性的影响进行了表征,以便清楚地了解OM如何影响农业土壤中P的有效性,特别是在高度风化的热带土壤中。明确指出,施用OM和作物残茬可能会对农业土壤中可供植物吸收的P的有效性产生积极或消极的影响,并决定可流失到环境中的P量。因此,将添加有机物质作为提高植物吸收P生物有效性的策略必须谨慎对待,因为在许多农业土壤中,它们的贡献并非直接是积极的。
