References
- Benson, D. R., Silvester, W. B. 1993. Biology of Frankia strains, actinomycete symbionts of actinorhizal plants. Microbiol. Rev. 57: 293-319.
- Bernstein, N., Bar Tal, A., Friedman, H., Snir, P., Rot, I., Chazan, A., Ioffe, M. 2006. Application of treated wastewater for cultivation of roses (Rosa hybrida) in soil-less culture. Sci. Hortic. 108: 185-193.
- Bernstein, N., Chaimovitch, D., Dudai, N., 2009. Effect of irrigation with secondary treated effluent on essential oil, antioxidant activity, and phenolic compounds in oregano and rosemary. Agron. J. 101: 1-10.
- Bolanos, L., Redondo-Nieto, M., Bonilla, I., Wall, L. G. 2002. Boron requirement in the Discaria trinervis (Rhamnaceae) and Frankia symbiotic relationship. Its essentiality for Frankia BCU110501 growth and nitrogen fixation. Physiol. Plant. 115: 563-570.
- Bolanos, L., Lukaszewski, K., Bonilla, I., Blevins, D. 2004. Why boron? Plant Physiol. Biochem. 42: 907-912.
- Bose, D., Sen, A. 2006. Isolation and heavy metal resistance pattern of Frankia from Casuarina equisetifolia nodules. Indian J. Microbiol. 46: 9-12.
- Callaham, D., Del Tridici, P., Torrey, J. G. 1978. Root hair infection in actinomycete-induced root nodule initiation in Casuarina, Myrica, and Comptonia. Bot. Gaz. 140 (Suppl.): S1-S9.
- Diem, H. G., Dommergues, Y. R. 1990. Current and potential uses and management of Casuarinacae in the topics and subtropics. In: Schwintzer, C. R., Tjepkema, J. D., eds., The biology of Frankia and actinorhizal plants. Academic Press, pp. 317-342.
- Doelman, P., Jansen, E., Michels, M., Van Til, M. 1994. Effects of heavy metals in soil on microbial diversity and activity as shown by the sensitivity-resistance index, an ecologically relevant parameter. Biol. Fertil. Soil. 17: 177-184.
- Duxbury, T., Bicknell, B. 1983. Metal-tolerant bacterial populations from natural and metal-polluted soil. Soil Biol. Biochem. 15: 243-250.
- Feigin, A., Ravina, I., Shalhevet, J. 1991. Irrigation with treated sewage effluents. Management for Environmental protection, Advanced Series in Agricultural Sciences 17, Vol. 17. Springer-Verlag, Berlin, Germany.
- Flis, S. E., Glenn, A. R., Dilworth, M. J. 1993. The interaction between aluminum and root nodule bacteria. Soil Biol. Biochem. 25: 403-417.
- Friedman, H., Bernstein, N., Bruner, M., Rot, I., Ben-Noon, Z., Zuriel, A., Zuriel, R., Finkelstein, S., Umiel, N., Hagiladi, A. 2007. Application of secondary-treated effluents for cultivation of sunflower (Helianthus annuus L.) and celosia (Celosia argentea L.) as cut flowers. Sci. Hortic. 115: 62-69.
- Guetsky, R., Gollop, N., Bernstein, N. 2005. Genetic diversity of Frankia strains isolated from root nodules of Casuarina in Israel. Isr. J. Plant Sci. 53: 125-133.
- Guzzo, A., Du Bow, M., Bauda, P. 1994. Identification and characterization of genetically programmed responses to toxic metal exposure in Escherichia coli. Metals and microorganisms: relationships and application. FEMS Microbiol. Rev. 14: 369-374.
- Hiroki, M. 1992. Effects of heavy metal contamination on soil microbial population. Soil Sci. Plant Nutr. 38: 141-147.
- Igual, J. M., Dawson, J. O. 1999. Stimulatory effects of aluminum on in vitro growth of Frankia. Can. J. Bot. 77: 1321-1326.
- Igual, J. M., Rodríquez-Barrueco, C., Crevantes, E. 1997. The effects of aluminum on nodulation of and symbiotic nitrogen fixation in Casuarina cunninghamiana Miq. Plant Soil 190: 41-46.
- Jonas, R. B. 1989. Acute copper and cupric ion toxicity in an estuarine microbial community. Appl. Environ. Microbiol. 55: 43-49.
- Kinraide, T. B., Ryan, P. R., Kochian, L. V. 1992. Interactive effects of Al3+, H+ and other cations on root elongation considered in terms of cell-surface electrical potential. Plant Physiol. 99: 1461-1468.
- Richards, J. W., Krumholz, G. D., Chval, M. S., Tisa, L. S. 2002. Heavy metal resistance patterns of Frankia strains. Appl. Environ. Microbiol. 68: 923-927.
- Ridgway, K. P., Marland, L. A., Harrison, A. F., Wright, J., Young, J. P. W., Fitter, A. H. 2004. Molecular diversity of Frankia in root nodules of Alnus icana grown with inoculum from polluted urban soils. FEMS Microbial. Ecol. 50: 255-263.
- Sayed, W. F. 2003. Effects of land irrigation with partially-treated wastewater on Frankia survival and infectivity. Plant Soil 254: 19-25.
- Sayed, W., Mohaowad, S. M., Abd El-Karim, M. M. 2000. Effect of Al, Co, and Pb ions on growth of Frankia spp. in a mineral medium. Folica Microbiologica 45: 153-156.
- Selim, S., Schwencke, J. 1995. Simple and reproducible nodulation test for casuarina-compatible Frankia strains—inhibition of nodulation and plant performance by some cations. Arid Soil Res. Rehabil. 9: 25-37.
- Starzecka, A., Bednarz, T. 1993. Comparison of development and metabolic activity of algae and bacteria in soil under the influence of short-and longterm contamination with metallurgic industrial dusts Archiv. Hydrobiol. 98 Suppl.: 71-88.
- Tsuji, M., Kuboi, T., Konishi, S. 1994. Stimulatory effects of aluminum on the growth of cultured roots of tea. Soil Sci. Plant Nutr. 40: 471-476.
- Wall, L. G. 2000. The actinorhizal symbiosis. J. Plant Growth Regul. 19: 167-182.
- Wheeler, C. T., Miller, I. M. 1990. Current and potential uses of actinorhizal plants in Europe. In: Schwintzer, C. R., Tjepkema, J. D. eds., The Biology of Frankia and Actinorhizal Plants, Vol. 365-389. Academic Press.
- Wright, M. S., Peltier, G. L., Stepanaukas, R., MacArther, J. V. 2006. Bacterial tolerances to metals and antibiotics in metal-contaminated and reference streams. FEMS Microbiol. Ecol. 58: 293-302.