[2]
Roney, N.; Llados, F.; Little, S.S.; Little, D.B. A toxicological profile for ammonia, draft for public comment, U.S. Department of Health and Human Services, Agency for Toxic Substances and Disease Registry, Atlanta, Georgia, September 2004.
[3]
Crutzen, P.J. Atmospheric interactions--homogeneous gas reactions of C, N, and S containing compounds.In: Bolin B, Cook RB, edsThe major biogeochemical cycles and their interactions; Chichester: John Wiley & Sons, 67-113, 198;.
[4]
Corsi, R.L.; Torres, V.M.; Fredenberg, S. A screening assessment of non-point source ammonia emissions in Texas. Proceedings of the Air and Waste Management Association's, ; 93rd Annual Meeting and Exhibition, Salt Lake City, UtahJune 18-22, 2000Pittsburgh, PA: Air and Waste Management Association. , 4279-4292.2000
[5]
Erxleben, H.; Simon, J.; Moskvin, L.N. Automized procedures for the determination of ozone and ammonia contents in air by using the chromatomembrane method for gas-liquid extraction. Fresenius J. Anal. Chem., 2000, 336(4), 332-335.
[6]
Barbier, P.; Adami, G.; Predonzani, S. Survey of environmental complex systems: Pattern recognition of physicochemical data describing coastal water quality in the Gulf of Trieste. J. Environ. Monit., 1999, 3(2), 210-216.
[7]
Hårleman, C.; Rybeck, G.B. The use of a clinoptilolite-based filter in emergency situations. Desalination, 2009, 248(15), 629-635.
[8]
Du, S.L.; Zhonghong, C.; Yuqiu, W. Ammonia removal from aqueous solution using natural Chinese clinoptilolite. Separation. Purificat. Technol, 2005, 44, 229-234.