Abstract
The main forms of poly-γ-glutamic acid (γ-PGA) applied in agriculture include agricultural γ-PGA and γ-PGA super absorbent polymer (SAP). Laboratory experiments were conducted with a check treatment CK (no γ-PGA added) and two different forms of γ-PGA added to sandy loam soil (T and TM stand for γ-PGA and γ-PGA SAP) at four different soil mass ratios (0.05% (1), 0.10% (2), 0.15% (3) and 0.20% (4)) to determine their effects on sandy loam soil hydro-physical properties. Both of them could reduce the cumulative infiltration of soil water. The total available water (TAW) which the soil water content (SWC) from field water capacity (FC) to permanent wilting point (PWP) after γ-PGA added into sandy loam soil had no significant different compared with CK, and the TAW was highest at the treatment of γ-PGA with 0.10% addition amount into sandy loam soil. However, the TAW of sandy loam soil increased dramatically with the γ-PGA SAP addition amount increasing. TM3 had the highest soil water absorption among the treatments with γ-PGA SAP. The T1 to T4 treatments with γ-PGA addition slightly prolonged retention time (RT) when SWC varied from FC to PWP compared with CK. For γ-PGA SAP addition treatments, the time for SWC varied from FC to PWP was 1.48 times (TM1), 1.88 times (TM2), 2.01 times (TM3) and 2.87 times (TM4) longer than that of CK, respectively. The results of this study will provide further information for the use of these materials in agricultural application.
Highlights
Poly-γ-glutamic acid (γ-PGA) accounts for the polypeptide formed by glutamic acid monomer linked with the amide bonds across α-amino groups together with γ-carboxylic [1]
Γ-PGA and γ-PGA super absorbent polymer (SAP) on the soil hydro-physical properties increased with infiltration time prolonged
Cumulative infiltration after 1320 min decreased by 20.92% (T1), 34.06% (T2), 44.74% (T3), 54.65% (T4), 6.33% (TM1), 12.90% (TM2), 19.22% (TM3) and 27.01% (TM4) compared with CK, respectively, which suggested that the accumulated soil water infiltration at a given time after infiltration begins can be noticeably reduced by adding γ-PGA and γ-PGA SAP into soil
Summary
Poly-γ-glutamic acid (γ-PGA) accounts for the polypeptide formed by glutamic acid monomer linked with the amide bonds across α-amino groups together with γ-carboxylic [1]. It is an environmentally friendly material due to its biodegradability, water-solubility, and naturality polymer [2]. Γ-PGA and its derivatives have been paid more attention due to its modified structure [3]. It has application in the fields of medicine [4], chemical industry and environmental protection [5] due to it being a non-petroleum resource.
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