- AntoniousG.F. 2004. Trifluralin residues in runoff and infiltration water from tomato production. Bull. Environ. Contam. Toxicol., 72:962–969.
- AntoniousG.F., PattersonM.A., and SnyderJ.C.. 2005. Impact of soil amendments on broccoli quality and napropamide movement under field conditions. Bull. Environ. Contam. Toxicol., 75:797–804.
- BernsteinL. 1975. Effects of salinity and sodicity on plant growth. Annu. Rev. Phytopath., 13:295–312.
- ChanK.Y., DorahyC., and TylerS.. 2007. Determining the agronomic value of composts produced from garden organics from metropolitan areas of New South Wales, Australia. Austral. J. Expt. Agr., 47:1377–1382.
- ChongC. 2005. Experiences with wastes and composts in nursery substrates. HortTechnology, 15:739–747.
- GentM.P.N., ElmerW.H., StonerK.A., FerrandinoF.J., and LaMondiaJ.A.. 1998. Growth, yield and nutrition of potato in fumigated or nonfumigated soil amended with spent mushroom compost and straw mulch. Compost Sci. Utiliz., 6(4):45–56.
- GrayE., and TawhidA.. 1995. Effect of leaf mulch on seedling emergence, plant survival, and production of bush snap beans. J. Sustain. Agr., 6(2/3):15–20.
- GuoL., BickiT.J., FelsetA.S., and HineslyT.D.. 1993. Sorption and movement of alachlor in soil modified by carbon-rich wastes. J. Environ. Qual., 22:186–194.
- HarrisonG.W., WeberJ.B., and BairdJ.V.. 1976. Herbicide phytotoxicity as affected by selected properties of North Carolina soils. Weed Sci., 24:120–126.
- HartzT.K., CostaF.J., and SchraderW.L.. 1996. Suitability of composted green waste for horticultural uses. HortScience, 31:961–964.
- HoffmanG.J., and RawlinsS.L.. 1971. Growth and water potential of root crops as influenced by salinity and relative humidity. Agron. J., 63:877–880.
- LiuX., and ColeM.A.. 1996. Minimum effective compost addition for remediation of pesticide-contaminated soil. In: de BertoldiM., SequiP., LemmesB., and PapiT. (eds.). The Science of Composting, Part Two. Blackie Academic & Professional, Glasgow, pp. 903–912.
- LohrV.I., O'BrienR.G., and CoffeyD. L.. 1984. Spent mushroom compost in soilless media and its effects on the yield and quality of transplants. J. Amer. Soc. Hort. Sci., 109:693–697.
- MaynardD.N., and HochmuthG.J.. 2007. Knott's Handbook for Vegetable Growers, 5th ed. John Wiley & Sons, Hoboken, New Jersey.
- MedinaE., ParedesC., Perez-MurciaM.D., BustamanteM.A., and MoralR.. 2009. Spent mushroom substrates as component of growing media for germination and growth of horticultural plants. Bioresour. Technol., 100:4227–4232.
- NelsonD.W., and SommersL.E.. 1996. Total carbon, organic carbon, and organic matter. In: SparksD.L., PageA.L., HelmkeP.A., and LoeppertR.H. (eds.). Methods of Soil Analysis, Part 3 – Chemical Methods. Soil Sci. Soc. Amer., Book Ser. 5, pp. 961–1010.
- RoeN.E. 2001. Compost effects on crop growth and yield in commercial vegetable cropping systems. In: StoffellaP.J. and KahnB.A. (eds.). Compost Utilization in Horticultural Cropping Systems. Lewis Publishers, Boca Raton, Florida, pp. 123–134.
- StewartD.P.C., CameronK.C., and CornforthI.S.. 1998. Effects of spent mushroom substrate on soil chemical conditions and plant growth in an intensive horticultural system: a comparison with inorganic fertiliser. Austral. J. Soil Res., 36:185–198.
- TavaresM.C., and RezendeM.O.. 1998. Effect of humic acid on the sorption of trifluralin by soils. J. Environ. Sci. Health, B33(6):749–767.
- United States Environmental Protection Agency (USEPA). 1990. Test methods for evaluating solid waste. EPA Report SW-846. Office of Solid Waste and Emergency Response, Washington, D.C.
- WangQ., KlassenW., EvansE.A., LiY., and CodalloM.. 2010. Combination of organic and plastic mulches to improve the yield and quality of winter fresh market bell peppers (Capsicum annuum L.). HortScience, 45:701–706.
- WangS.H., LohrV.I., and CoffeyD.L.. 1984a. Growth response of selected vegetable crops to spent mushroom compost application in a controlled environment. Plant and Soil, 82:31–40.
- WangS.H., LohrV.I., and CoffeyD.L.. 1984b. Spent mushroom compost as a soil amendment for vegetables. J. Amer. Soc. Hort. Sci., 109:698–702.
- WuestP.J., FahyH.K., and FahyJ.. 1995. Use of spent mushroom substrate (SMS) for corn (maize) production and its effect on surface water quality. Compost Sci. Utiliz., 3(1):46–54.
Compost Treatments Interact with Other Factors To Affect Red Radish Production
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