https://orcid.org/0000-0003-1677-0678
References
- Akhtar M, Yaqub M, Naeem A, Ashraf M, Hernandez VE. 2016. Improving phosphorus uptake and wheat productivity by phosphoric acid application in alkaline calcareous soils. J Sci Food Agric. 96:3701–3707.
- Andersson KO, Tighe MK, Guppy CN, Milham PJ, McLaren TI. 2015. Incremental acidification reveals phosphorus release dynamics in alkaline vertic soils. Geoderma. 259-260:35–44.
- Bao SD. 2010. Soil agrochemical analysis, 3rd ed. Beijing: China Agricultural Press. (in chinese).
- Braschi I, Ciavatta C, Giovannini C, Gessa C. 2003. Combined effect of water and organic matter on phosphorus availability in calcareous soils. Nutr Cycl Agroecosyst. 67:67–74.
- Brucker E, Kernchen S, Spohn M. 2020. Release of phosphorus and silicon from minerals by soil microorganisms depends on the availability of organic carbon. Soil Biol Biochem. 143:107737.
- Debicka M, Kocowicz A, Weber J, Jamroz E. 2016. Organic matter effects on phosphorus sorption in sandy soils. Arch Agron Soil Sci. 62:840–855.
- De Corato U. 2020. Agricultural waste recycling in horticultural intensive farming systems by on-farm composting and compost-based tea application improves soil quality and plant health: a review under the perspective of a circular economy. Sci Total Environ. 738:1–22.
- Dobermann A, Cassman KG, Cruz PCS, Adviento MA, Pampolino MF. 1996. Fertilizer inputs, nutrient balance, and soil nutrient-supplying power in intensive, irrigated rice systems. II: effective soil K-supplying capacity. Nutr Cycl Agroecosyst. 46:11–21.
- Eissa MA. 2019. Efficiency of P fertigation for drip-irrigated potato grown on calcareous sandy soils. Potato Res. 62:97–108.
- Fransson AM, Jones DL. 2007. Phosphatase activity does not limit the microbial use of low molecular weight organic-P substrates in soil. Soil Biol Biochem. 39:1213–1217.
- Giles CD, Cade-Menun BJ, Liu CW, Hill JE. 2015. The short-term transport and transformation of phosphorus species in a saturated soil following poultry manure amendment and leaching. Geoderma. 257-258:134–141.
- Gross A, Arusi R, Fine P, Nejidat A. 2008. Assessment of extraction methods with fowl manure for the production of liquid organic fertilizers. Bioresour Technol. 99:327–334.
- Guertal EA, Howe AJ. 2013. Influence of phosphorus-solubilizing compounds on soil P and P uptake by perennial ryegrass. Biol Fertil Soils. 49:587–596.
- Guppy CN, Menzies NW, Moody PW, Blamey FPC. 2005. Competitive sorption reactions between phosphorus and organic matter in soil: a review. Soil Res. 43:189–202.
- Hashmi Z, Ul H, Khan MJ, Akhtar M, Sarwar T, Khan MJ. 2017. Enhancing phosphorus uptake and yield of wheat with phosphoric acid application in calcareous soil. J Sci Food Agric. 97:1733–1739.
- Hedley MJ, Stewart JWB, Chauhan BS. 1982. Changes in inorganic and organic soil phosphorus fractions induced by cultivation practices and by laboratory incubations. Soil Sci Soc Am. J. 46:970–976.
- Helyar KR. 1998. Efficiency of nutrient utilization and sustaining soil fertility with particular reference to phosphorus. Field Crop Res. 56:187–195.
- Ikram W, Akhtar M, Morel C, Rizwanm M, Ali S. 2019. Phosphate fertilizer premixing with farmyard manure enhances phosphorus availability in calcareous soil for higher wheat productivity. Environ Sci Pollut Res. 26:32276–32284.
- Jackson ML. 1973. Soil chemical analysis. 2nd ed. Englewood: Prentice-Hall.
- Jordán MM, Almendro-Candel MB, Navarro-Pedreño J, Pardo F, García-Sánchez E, Bech J. 2020. Bioavailability, mobility and leaching of phosphorus in a Mediterranean agricultural soil (ne Spain) amended with different doses of biosolids. Environ Geochem Health. 1:1–8.
- Kim MJ, Shim CK, Kim YK, Hong SJ, Park JH, Han EJ, Kim JH, Kim SC. 2015. Effect of aerated compost tea on the growth promotion of lettuce, soybean, and sweet corn in organic cultivation. Plant Pathol. J. 31:259–268.
- Li XX, Wang XH, Shi XY, Wang Q, Li XL, Zhang SW. 2020. Compost tea-mediated induction of resistance in biocontrol of strawberry verticillium wilt. J Plant Dis Prot. 127:257–268.
- Mihoub A, Bouhoun MD, Naeem A, Saker ML. 2017. Low-molecular weight organic acids improve plant availability of phosphorus in different textured calcareous soils. Arch Agron Soil Sci. 63:1023–1034.
- Miller BW, Fox TR. 2011. Long-term fertilizer effects on oxalate-desorbable phosphorus pools in a typic paleaquult. Soil Sci Soc Am J. 75:1110–1116.
- Oburger E, Jones DL, Wenzel WW. 2011. Phosphorus saturation and pH differentially regulate the efficiency of organic acid anion-mediated P solubilization mechanisms in soil. Plant Soil. 341:363–382.
- Ohno T, Hoskins BR, Erich MS. 2007. Soil organic matter effects on plant available and water soluble phosphorus. Biol Fertil Soils. 43:683–690.
- Olsen SR, Cole CV, Watanabe FS, Dean LA. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. USDA Circ. 939:1–19.
- Oral A, Uygur V. 2018. Effects of low-molecular-mass organic acids on P nutrition and some plant properties of Hordeum vulgare. J Plant Nutr. 41:1482–1490.
- Pizzeghello D, Berti A, Nardi S, Morari F. 2011. Phosphorus forms and P-sorption properties in three alkaline soils after long-term mineral and manure applications in north-eastern Italy. Agric Ecosyst Environ. 141:58–66.
- Samet M, Karray F, Mhiri N, Kamoun L, Sayadi S, Gargouri-Bouzid R. 2019. Effect of phosphogypsum addition in the composting process on the physico-chemical proprieties and the microbial diversity of the resulting compost tea. Environ Sci Pollut Res. 26:21404–21415.
- Sato S, Solomon D, Hyland C, Ketterings QM, Lehmann J. 2005. Phosphorus speciation in manure and manure-amended soils using XANES spectroscopy. Environ Sci Technol. 39:7485–7491.
- Sharpley A, Moyer B. 2000. Phosphorus forms in manure and compost and their release during simulated rainfall. J Environ Qual. 29:1462–1469.
- Shen Y, Duan YH, McLaughlin N, Huang SM, Guo DD, Xu MG. 2019. Phosphorus desorption from calcareous soils with different initial Olsen-P levels and relation to phosphate fractions. J Soils Sediments. 19:2997–3007.
- Song K, Xue Y, Zheng X, Lv W, Qiao H, Qin Q, Yang J. 2017. Effects of the continuous use of organic manure and chemical fertilizer on soil inorganic phosphorus fractions in calcareous soil. Sci Rep. 7:1164.
- Sun BR, Gao YZ, Wu X, Ma HM, Zheng CC, Wang XY, Zhang HL, Li ZJ, Yang HJ. 2020. The relative contributions of pH, organic anions, and phosphatase to rhizosphere soil phosphorus mobilization and crop phosphorus uptake in maize/alfalfa polyculture. Plant Soil. 447:117–133.
- Teng ZD, Zhu J, Shao W, Zhang KY, Li M, Whelan MJ. 2020. Increasing plant availability of legacy phosphorus in calcareous soils using some phosphorus activators. J Environ Manage. 256:109952.1–109952.9.
- Walkley A, Black IA. 1934. An examination of the Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Sci 37:29–38.
- Wandruszka RV. 2006. Phosphorus retention in calcareous soils and the effect of organic matter on its mobility. Geochem Trans. 7:1–8.
- Wang XX, Liu SL, Zhang SM, Li HB, Baidengsha M, Feng G, Rengel Z. 2018. Localized ammonium and phosphorus fertilization can improve cotton lint yield by decreasing rhizosphere soil pH and salinity. Field Crop Res. 217:75–81.
- Yan ZJ, Chen S, Dari B, Sihi D, Chen Q. 2018. Phosphorus transformation response to soil properties changes induced by manure application in a calcareous soil. Geoderma. 322:163–171.
- Yang XY, Chen XW, Yang XT. 2019. Effect of organic matter on phosphorus adsorption and desorption in a black soil from Northeast China. Soil Tillage Res. 187:85–91.