1- Agbede T.M., and Adekiya A.O. 2011. Evaluation of sweet potato (Ipomoea batatas L.) performance and soil properties under tillage methods and poultry manure levels. Emirates Journal of Food. Agriculture 23(2):164-177.
2- Alloway B.J. 2009. Soil factors associated with zinc deficiency in crops and humans. Environmental Geochemistry and Health 31(5): 537-548.
3- Ansari M.H., Hashemabadi D., and Kaviani B. 2017. Effect of cattle manure and sulfur on yield and oil composition of pumpkin (Cucurbita pepo var. Styriaca) Inoculated with thiobacillus thiooxidans in calcareous soil. Communications in Soil Science and Plant Analysis 48(18): 2103-2118.
4- Ansori A., and Gholami A. 2015. Improved nutrient uptake and growth of maize in response to inoculation with thiobacillus and mycorrhiza on an alkaline soil. Communications in Soil Science and Plant Analysis 46(17): 2111-2126.
5- Antoniadis V., and Alloway B.G. 2003. Evidence of heavy metal movement down the profile of a heavily sludged soil. Communication in Soil Science and Plant Analysis 34: 1225-1231.
6- Astaraei A.R., and Ivani R. 2008. Efect of organic sources as foliar spray and root media on nutrition if cowpea plant. American-Eurasian Journal of Agricultural and Environmental Science 3: 352-356.
7- Beauchamp E.G. 1987. Corn response to residual N from urea and manure applied in previous year. Canadian Journal of Soil Science 67: 931-942.
8- BesharatiKelayeh H. 1998. Study of sulfur application with Thiobacillusspecies on absorption potential of some nutrients in soil. M.Sc. Thesis in Soil Science, College of Agriculture, Tehran University, Karaj, Iran, 1-9. (In Persian with English abstract)
9- Bohn H.L., McNeal B.L., and O’Conner G.A. 1979. Adsorption isotherms, Soil Chemistry 185-188.
10- Botha C.R., and Webb M.M. 1952. The versenate method for the determination of calcium and magnesium in mineralized waters containing large concentrations of interfering ions. Institute of Water Engineers Journal 6: 459-462.
11- Bouyoucos G.J. 1962. Hydrometer method improved for making particle is analysis of soils. Agronomy Journal 54:464-465.
12- Bremner J.M., and Mulvaney C.S. 1982: Nitrogen – Total. In: Methods of Soil Analysis, Part II, 2nd edition, Page, A.L., Miller, R. H, Keeney D. R. (Eds.), Madison, Wisconsin USA 1159.
13- Bremner J.M., and Keeney D.R. 1996. Determination and isotope-ratio analysis for different forms of nitrogen in soils. Exchangeable ammonium, nitrate, and nitrite by extraction-distillation methods. Proceedings of the Soil Science Society of America 30: 577-624.
14- Cardelli R., Saviozzi A., Cipolli S., and Riffaldi R. 2008. Compost and cattle manure as sources of inorganic sulfur to soil. Journal of Agronomy and Soil Science 54(2): 139-147.
15- Chen J.H. 1996. Characterization of Inositol hexaphophate, Glucose-6-phosphate and potassium dehydrate phosphate sorption by acid and calcareous soils. Journal of Chinese Agricultural Chemical Society 34: 112-117.
16- Cifuentes F.R., and Lindemann W.C. 1993. Organic matter stimulation of elemental sulfur oxidation in a calcareous soil. Soil Science Society of America Journal 57: 727–731.
17- Eyheraguibel B., Silvestre J., and Morard P. 2008. Effects of humic substances derived from organic waste enhancement on the growth and mineral nutrition of maize. Bioresource Technology 99: 4206–4212.
18- Goodarzi K. Enhancing Effects of sulfur and compost on nutrient availability and wheat yield. Journal of Water and Soil 15(2): 154-166. (In Persian with English abstract)
19- Hagin J., and Tucker B. 1982. Fertilization of dry land and irrigated soils. Springer Verlag, New York, 101-112
20- Halim, M., Conte P., and Piccolo A. 2003. Potential availability of heavy metals to phytoextraction from contaminated soils by exogenous humic substances. Chemosphere52: 265-275.
21- Havlin J.L., Tisdale S.L., Nelson W.L., and Beaton J.D. 2005. Soil Fertility and Fertilizers. An Introduction to Nutrient Management. Prentice Hall; 7 ed., 499.
22- Heydarnezhad F., Shahinrokhsar P., Shokri Vahed H., and Besharati H. 2012. Influence of elemental sulfur and sulfur oxidizing bacteria on some nutrient deficiency in calcareous soils. International Journal of Agriculture and Crop Sciences 4: 735-739.
23- Jones D.L., and Darrah P.R. 1994. Role of root derived organic acid in the mobilization of nutrient from the rhizosphere. Plant Soil 166: 247-257.
24- Jones Jr J.B. 2001. Laboratory Guide for Conducting Soil Tests and Plant Analysis, Chemical Rubber Company Press, 48-78.
25- Kabala C., and Singh B.R. 2001. Fractionation and mobility of copper, lead and zinc in soil profiles in the vicinity of a copper smelter. Journal of Environmental Quality 30: 485-492.
26- Kale R.D., Malesh B.C., Bano K., and Bagyaraj D.J. 1992. Influence of vermicompost application on the available macronutrients and selected microbial populations in a paddy field. Soil Biological and Biochemical 24: 317-1320.
27- Kariminia A., and Shabanpoor S. 2002. Sulphur oxidation power of heterotrophic microorganism in different soils. Journal of Soil and Water 1: 57-68.
28- Karimizarchi M., Aminuddin H., Khanif M.Y., and Radziah O. 2014. Elemental sulphur application effects on nutrient availability and sweet maize (Zea mays L.) response in a high pH soil of Malaysia. Malaysian Journal of Soil Science 18: 75-86.
29- Koochekzadeh Y. 2003. Effect of S and Thibacillus and organic matter on required P of corn in calcorus soils. MSc Thesis. TarbiatModarres University, Tehran, Iran. (In Persian with English abstract)
30- Kulkarni A. 2009. Biozink Solubilizing Microbes.
31- Leytem A.B., and Mikkelsen R.L. 2005. The nature of phosphorus in calcareous soils. BetterCrops 89(2): 11-13.
32- Nelson R.E. 1982. Carbonate and Gypsum. In: Page A.L (Ed), Methods of Soil Analysis, Part 2, Chemical and microbiological properties, (2nd Ed.). Agronomy Monograph 9, Madison, WI, pp. 181-196.
33- Malakooti M.J., and Homai M. 1995. Fertility of arid soils (problems and solutions). Tarbiat Modarres University Press, 494.
34- Marschner H. 1995. Mineral nutrition of higher plants. Academic Press, London.
35- Miransari M., and Smith D.L. 2007. Overcoming the stressful effects of salinity and acidity on soybean nodulation and yields using signal molecule genistein under field conditions. Journal of Plant Nutrition 30(12): 1967-1992.
36- Miyamoto S. 1998. Use of acids and acidulants on alkali soils and water. Handbook of soil conditioners. Marcel Dekker, Madison, NY, 217-256.
37- Mohammady Aria M., Lakzian A., Haghnia G.H., Berenji A.R., Besharati H., and Fotovat A. 2010. Effect of Thiobacillus, sulfur, and vermicompost on the water-soluble phosphorus of hard rock phosphate. Bioresource Technology 101: 551-554.
38- Murphy J., and Riley J.P.A. 1962. Modified single solution method for determination of phosphatein natural waters. Analytica Chimica Acta Journal 27: 31-36.
39- Naramabuye F.X., and Haynes R.J. 2006. Effect of organic amendments on soil pH and Al solubility and use of laboratory indices to predict their liming effect. Soil Science 171: 754-763.
40- Nelson D.W., and Sommers L.E. 1996. Total carbon, organic carbon, and organic matter. In Methods of Soil Analysis. Part 3. Chemical Methods; Sparks, D.L., ed.; SSSA Book Series No. 5; Soil Science Society of America: Madison, Wisconsin 961-1010.
41- Moshiri F., Shahabbi F.F., Keshavarz P., Khogar Z., Feiziasl V., Tehrani M.M., Asadi Rahmani H., Samavat M.N., Ghaibi M.N., Sedri M.H., Rashidi N., Saadat S., and Khdemi. 2014. Guidelines for integrated soil fertility and plant nutrition management of wheat. Published by Soil and Water Research Institute of Iran. Pp. 73.
42- Rodrigues M.A., Pereira A., Cabanas J.E., Dias L., Pires J. and Arrobas M. 2006. Crops use-efficiency of nitrogen from manures permitted in organic farming. European Journal of Agronomy 25: 328–335.
43- Ryan J., Stroehlein J.L., and Miyamoto S. 1975. Sulfuric Acid Applications to Calcareous Soils: Effects on Growth and Chlorophyll Content of Common Bermudagrass in the Greenhouse 1. AgronomyJournal 67(5): 633-637.
44- Sajadi nic R., Yadavy A.R., Baluchi H.R., and Faraji H. 2011. The effect of chemical fertilizers (urea), organic (vermicompost) and biological (Nitroksin) on the yield and quality of sesame. Journal of Agricultural Science 21(2): 87-101.
45- Sakari A., Ardakani M.R., and Khavazi K. 2012. Effect of azospiillum lipoferum and Thiobacillusthioparus on quantitative and qualitative characters of rapeseed (Brassica napus L.) under water deficit conditions. Middle-East Journal of Scientific Research 11(6): 819-827.
46- Salvagiotti F., Castellarín J.M., Miralles D.J., and Pedrol H.M. 2009. Sulfur fertilization improves nitrogen use efficiency in wheat by increasing nitrogen uptake. Field Crop Research 113: 170-177.
47- Seyyedi S.M., Rezvani Moghaddam P., Khajeh-Hosseinia M., and Shahandeh H. 2015. Influence of phosphorus and soil amendments on black seed (Nigell asativa L.). Oil yield and nutrient uptake. Industrial Crops and Products 77: 167–174.
48- Shamim A.H.M., and Ahmed F. 2010. Response to sulfur and organic matter status by the application of sulfid materials in S defcient soils in Bangladesh. possibilities and opportunities. Report and Opinion 2(1): 188-193.
49- Sharif M., Sarir M.S., and Rabi F. 2000. Biological and chemical transformation of phosphorus in some important soil series of NWFP. Sarhad Journal of Agriculture 16(6): 587-592.
50- Sharifi Z., Azadi N., and Certini G. 2017. Fire and tillage as degrading factors of soil structure in northern zagros oak forest, west Iran. Land Degradation and Development 28: 1068–1077.
51- Shuman L.M., and Li Z. 1997. Amelioration of zinc toxicity in cotton using lime or mushroom compost. Soil and Sediment Contamination 6(4): 425-438.
52- St-Pierre B., and Wright A.D.G. 2017. Implications from distinct sulfate-reducing bacteria populations between cattle manure and digestate in the elucidation of H2S production during anaerobic digestion of animal slurry. Applied Microbiology and Biotechnology 101(13): 5543–56.
53- Swaminathan S., Edward B.S., and Kurpad A.V. 2013. Micronutrient deficiency and cognitive and physical performance in Indian children. European Journal of Clinical Nutrition 67(5): 467-474.
54- Tabatabai M.A. 1986. Sulfur in Agriculture. American Socity of Agronomy, Madison, WI., 428 pp.
55- Theunissen J., Ndakidemi P., and Laubscher C. 2010. Potential of vermicompost produced from plant waste on the growth and nutrient status in vegetable production. International Journal of Physical Sciences 5: 1964-1973.
56- Tisdale S.L., Nelson W.L., Beaton J.D., and Havlin J.L. 1993. Soil and fertilizer nitrogen. Soil Fertility and Fertilizers 4: 112-183.
57- Ullah I., Jilani G., ul Haq M.I., and Khan A. 2013. Enhancing bio-available phosphorous in soil through sulfur oxidation by Thiobacilli. British Microbiology Research Journal 3(3): 378.
58- Van Erp P.J., and Van Lune P. 1991. Long-term heavy metal leaching from soils-sewage sludge and soil/sewage mixtures. Environmental Science Technology 25: 706-711.
59- Wang A.S., Angle J.S., Chaney R.L., Delorme T.A., and Reeves R.D. 2006. Soil pH effects on uptake of Cd and Zn by Thlaspicaerulescens. Plant and Soil, 281(1-2): 325-337.
60- Wang L., Zheng Z., Zhang Y., Chao J., Gao Y., Luo X., and Zhang J. 2013. Biostabilization enhancement of heavy metals during the vermiremediation of sewage sludge with passivant. Journal of Hazardous Materials 244: 1-9.
61- Yang Z.H., Stoven K., Haneklaus S., Singh B.R., and Schnug E. 2010. Elemental sulfur oxidation by Thiobacillusspp. and aerobic heterotrophic sulfur-oxidizing bacteria. Pedosphere 20(1): 71-79.
62- Young C.C., and Chen L.F. 1997. Polyamines in humic acid and their effect on radical growth of lettuce seedlings. Plant and Soil 195: 143-149.
63- Yuan T., Wang J., Sun X., Yan J., Wang Z., and Niu J. 2017.Effect of combined application of humic acid and nitrogen fertilizer on nitrogen uptake, utilization and yield of winter wheat. Chinese Journal of Eco-Agriculture 3: 74-82.
64- Zalidis G., Barbayiarinis N., and Matsi T. 1999. Forms and distribution of heavy metals in soils of the axios delta of northern Greece. Commun. Soil Science and Plant Analysis 30: 817-827.
65- Page A.L., Miller R.H., and Keeney D.R. 1982. Method of soil analysis. Part 1 and 2. American Society of Agronomy Inc Madison, Wisconsin USA.
66- Golchin A. 2016. Soil organic matter. Published by Jahad Daneshgahi center, the University of Zanjan. Pp. 281.
67- Gholami M., and Sharifi Z. 2020. Assessment of fertilizing potential of livestock industrial abattoir refinery sludge and its effect on soil chemical properties (case study: livestock industrial abattoir of Sanandaj). Iranian Journal of Soil and Water Research 51(6): 1405-1416.