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Luz Estela De-Bashan

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    2022

  1. de‑Bashan, L.E., Magallon‑Servin, P., Lopez, B.R., and Nannipieri, P. 2022. Biological activities affect the dynamic of P in dryland soil. Biology and Fertility of Soils. 58: 105–119. doi: 10.1007/s00374-021-01609-6.
  2. Palacios, O.A., Lopez, B.R., de-Bashan, L.E. 2022. Microalga Growth-Promoting Bacteria (MGPB): A formal term proposed for beneficial bacteria involved in microalgal–bacterial interactions. Algal Research. 61: 102585. doi: 10.1016/j.algal.2021.102585.
  3. 2021

  4. Cassan, F.D., Coniglio, A., Amavizca, E., Maroniche, G., Cascales, E., Bashan, Y., de‐Bashan, L.E., 2021. The Azospirillum brasilense Type VI secretion system promotes cell aggregation, biocontrol protection against phytopathogens, and attachment to the microalgae Chlorella sorokiniana. Environmental Microbiology. doi:10.1111/1462-2920.15749.
  5. Palacios, O.A., Lopez, B.R., Palacios-Espinosa, A., Hernandez-Sandoval, F.E., de-Bashan, L.E. 2021. The immediate effect of riboflavin and lumichrome on the mitigation of saline stress in the microalga Chlorella sorokiniana by the plant-growth-promoting bacterium Azospirillum brasilense. Algal Research. 58: 102424. doi: 10.1016/j.algal.2021.102424.
  6. Gonzalez-Gonzalez, L.M., de-Bashan, L.E. 2021. Toward the Enhancement of Microalgal Metabolite Production through Microalgae. Bacteria Consortia Biology. 10: 282. doi: 10.3390/biology10040282.
  7. Peng, H., de-Bashan, L.E., Higgins, B.T. 2021. Comparison of algae growth and symbiotic mechanisms in the presence of plant growth promoting bacteria and non-plant growth promoting bacteria. Algal Research. 53: 102156. doi: 10.1016/j.algal.2020.102156.
  8. Peng, H., de-Bashan, L.E., Higgins, B.T. 2021. Azospirillum brasilense reduces oxidative stress in the green microalgae Chlorella sorokiniana under different stressors. Journal of Biotechnology. 325: 179-185. doi: 10.1016/j.jbiotec.2020.10.029.
  9. 2020

  10. Peng, H., de-Bashan, L. E., Bashan, Y., Higgins, B. T. 2020. Indole-3-acetic acid from Azosprillum brasilense promotes growth in green algae at the expense of energy storage products. Algal Research. 47: 101845. doi: 10.1016/j.algal.2020.101845.
  11. Zuniga-Silgado, D., Rivera-Leyva, J., Coleman, J., Sanchez-Reyez, A., Valencia-Díaz, S., Serrano, M., de-Bashan, L.E., Folch-Mallol, J.L. 2020. Soil mineralogy affects organic acid production and phosphorus solubilization efficiency mediated by several native fungal strains from Mexico. Microorganisms. 8: 1337. doi: 10.3390/microorganisms8091337.
  12. Jimenez-Bonilla, P., Zhang, J., Wang, Y., Blersch, D., de-Bashan L.E., Guo, L., and Wang, Y. 2020. Enhancing the tolerance of Clostridium saccharoperbutylacetonicum to lignocellulosic-biomass-derived inhibitors for efficient biobutanol production by overexpressing efflux pumps genes from Pseudomonas putida. Bioresource Technology. 312: 123532. doi: 10.1016/j.biortech.2020.123532.
  13. de-Bashan, L.E., Nannipieri, P., Antoun, H., Lindermann, R. 2020. Application of beneficial microorganisms and their effects on soil, plants, and the environment: the scientific legacy of Professor Yoav Bashan. Biology and Fertility of Soils. 56: 439-442. doi: 10.1007/s00374-020-01466-9.
  14. Bashan, Y., Prabhu, S.R., de-Bashan, L.E., Kloepper, J. 2020. Disclosure of exact protocols of fermentation, identity of microorganisms within consortia, formation of advanced consortia with microbe-based products. Biology and Fertility of Soils. 56: 443-445. doi: 10.1007/s00374-020-01464-x.
  15. Magallon-Servin, P., Antoun, H., Taktek, S., de-Bashan, L.E. 2020. Designing a multi-species inoculant of phosphate rock-solubilizing bacteria compatible with arbuscular mycorrhizae for plant growth promotion in low P soil amended with PR. Biology and Fertility of Soils. 56: 521-536. doi: 10.1007/s00374-020-01452-1.
  16. Cassan, F., Coniglio, A., Lopez, G., Molina, R., Nievas, S., Le Noir de Carlan, C., Donadio, F., Torres, D., Rosas, S., Olivera Pedrosa, F., Maltempi de Souza, E., Diaz Zorita, M., de Bashan, L.E., and Mora, V. 2020. Everything you must know about Azospirillum and its impact on science, research, agriculture and beyond. Biology and Fertility of Soils. 56: 461-479. doi: 10.1007/s00374-020-01463-y.
  17. Magallon-Servin, P., Antoun, H., Taktek, S., Bashan, Y., de-Bashan, L.E. 2020. Maize mycorrhizosphere as a source for isolation of arbuscular mycorrhizae-compatible phosphate rock-solubilizing rhizobacteria. Plant and Soil. 451: 169–186. doi: 10.1007/s11104-019-04226-3.
  18. 2019

  19. Herrera, H., Soto, J., de Bashan, L.E., Sampedro, I., and Arriagada, C. 2019. Root-associated fungal communities in two populations of the fully mycoheterotrophic plant Arachnitis uniflora Phil. (Corsiaceae) in Southern Chile. Microorganisms. 7: 586. doi: 10.3390/microorganisms7120586.
  20. Lopez, B.R., Palacios, O.A., Bashan, Y., Hernandez-Sandoval, F.E., and de-Bashan, L.E. 2019. Riboflavin and lumichrome exuded by the bacterium Azospirillum brasilense promote growth and changes in metabolites in Chlorella sorokiniana under autotrophic conditions. Algal Research. 44: 101396. doi: 10.1016/j.algal.2019.101696
  21. 2018

  22. Gonzalez E.J., Hernandez J.P., de-Bashan L.E., and Bashan, Y. 2018. Dry micro-polymeric inoculant of Azospirillum brasilense is useful for producing mesquite transplants for reforestation of degraded arid zones. Applied Soil Ecology. 129: 84-93. doi: 10.1016/j.apsoil.2018.04.011.
  23. Palacios, O.A., Lopez, B.R., Bashan, Y., de Bashan, L.E. 2018. Early changes in nutritional conditions affect formation of synthetic mutualism between Chlorella sorokiniana and the bacterium Azospirillum brasilense. Microbial Ecology. 77: 980-992. doi: 10.1007/s00248-018-1282-1.
  24. Posada, L.F., Alvarez, J.C., Romero-Tabarez, M., de-Bashan, L.E., and Villegas-Escobar, V. 2018. Enhanced molecular visualization of root colonization and growth promotion by Bacillus subtilis EA-CB0575 in different growth systems. Microbiological Research. 217: 69-80. doi: 10.1016/j.micres.2018.08.017.
  25. 2017

  26. Garcia, E.D., R. Lopez, B., de-Bashan, L.E., Hirsch, A.M., Maymon, M., and Bashan, Y. 2017. Functional metabolic diversity of the bacterial community in undisturbed resource island soils in the southern Sonoran Desert. Land Degradation and Development. doi: 10.1002/ldr.2905.
  27. Galaviz, C., R. Lopez, B., de-Bashan, L.E., Hirsch, A.M., Maymon, M., and Bashan, Y. 2017. Root growth improvement of mesquite seedlings and bacterial rhizosphere and soil community changes are induced by inoculation with plant growth-promoting bacteria and promote restoration of eroded desert soil. Land Degradation and Development. doi: 10.1002/ldr.2904.
  28. Moreno, M., de-Bashan, L.E., Hernandez, J.P., Lopez, B.R., and Bashan, Y. 2017. Success of long-term restoration of degraded arid land using native trees planted 11 years earlier. Plant and Soil. 421: 83-92. doi: 10.1007/s11104-017-3438-z.
  29. Lopez, B.R., Hernandez, J.P., Bashan, Y., and de-Bashan, L.E. 2017. Immobilization of microalgae cells in alginate facilitates isolation of DNA and RNA. Journal of Microbiological Methods. 135: 96-104.
  30. Amavizca, E., Bashan, Y., Ryu, C.-M., Farag, M.A., Bebout, B.M., and de-Bashan, L.E. 2017. Enhanced performance of the microalga Chlorella sorokiniana remotely induced by the plant growth-promoting bacteria Azospirillum brasilense and Bacillus pumilus. Scientific Reports-Nature. 7: 41310. doi:10.1038/srep41310.
  31. Huang, P., de-Bashan, L.E., Crocker, T., Kloepper, J.W., and Bashan, Y. 2017. Evidence that fresh weight measurement is imprecise for reporting the effect of plant growth-promoting (rhizo)bacteria on growth promotion of crop plants. Biology and Fertility of Soils. 53:199-208. doi:10.1007/s00374-016-1160-2.
  32. Bashan, Y., Huang, P., Kloepper, J.W., and de-Bashan, L.E. 2017. A proposal for avoiding fresh-weight measurements when reporting the effect of plant growth-promoting (rhizo)bacteria on growth promotion of plants. Biology and Fertility of Soils. 53:1-2. doi:10.1007/s00374-016-1153-1.
  33. 2016

  34. Palacios, O.A., Gomez-Anduro, G., Bashan, Y., and de-Bashan, L.E. 2016. Tryptophan, thiamine and indole-3-acetic acid exchange between Chlorella sorokiniana and the plant growth-promoting bacterium Azospirillum brasilense. FEMS Microbiology Ecology. 92: fiw077. doi: 10.1093/femsec/fiw077.
  35. Posada, L.F., Alvarez, J.C., Hu, C.H., de-Bashan, L.E., and Bashan, Y. 2016. Construction of probe of the plant growth-promoting bacteria Bacillus subtilis useful for fluorescence in situ hybridization. Microbiological Methods. 128: 125-129. doi:10.1016/j.mimet.2016.05.029Supplementary material.
  36. Bashan, Y., and de-Bashan, L.E. 2016. Encapsulated formulations for microorganisms in agriculture and the environment. Bioencapsulation Innovations. 5: 4-5.
  37. Palacios, O. A., Bashan, Y., Schmid, M., Hartmann, A., de-Bashan, L.E. 2016. Enhancement of thiamine release during synthetic mutualism between Chlorella sorokiniana and Azospirillum brasilense growing under stress conditions. Journal of Applied Phycology. 28:1521-1531.
  38. Palacios, O.A., Choix, F.J., Bashan, Y., and de-Bashan, L.E. 2016. Influence of tryptophan and indole-3-acetic acid on starch accumulation in the synthetic mutualistic Chlorella sorokiniana ? Azospirillum brasilense system under heterotrophic conditions. Research in Microbiology. 167: 367-379.
  39. de-Bashan, L.E., Mayali, X., Bebout, B.M., Weber, P.K., Detweiler, A., Hernandez, J.P., Prufert-Bebout, L., and Bashan, Y. 2016. Establishment of stable synthetic mutualism without co-evolution between microalgae and bacteria demonstrated by mutual transfer of metabolites (NanoSIMS isotopic imaging) and persistent physical association (Fluorescent in situ hybridization). Algal Research. 15: 179-186.
  40. Bashan, Y., Kloepper, J.W., de-Bashan, L.E., and Nannipieri, P. 2016. A need for disclosure of the identity of microorganisms, constituents, and application methods when reporting tests with microbe-based or pesticide-based products. Biology and Fertility of Soils. 52: 283-284.
  41. Bashan Y., Lopez, B.R., Huss, V.A.R., Amavizca, E. and de-Bashan, L.E. 2016. Chlorella sorokiniana (formerly C. vulgaris) UTEX 2714, a non-thermotolerant microalga useful for biotechnological applications and as a reference strain. Journal of Applied Phycology. 28: 113-121.
  42. Pereg, L., de-Bashan, L.E., and Bashan, Y. 2016. Assessment of affinity and specificity of Azospirillum for plants. Plant And Soil. 399: 389-414.
  43. 2015

  44. Meza, B., de-Bashan, L.E., Hernandez, J. P., and Bashan, Y. 2015. Accumulation of intra-cellular polyphosphate in Chlorella vulgaris cells is related to indole-3-acetic acid produced by Azospirillum brasilense. Research in Microbiology. 166: 399-407.
  45. Leyva, L.A., Bashan Y., and de-Bashan, L.E. 2015. Activity of acetyl-CoA carboxylase is not directly linked to accumulation of lipids when Chlorella vulgaris is co-immobilised with Azospirillum brasilense in alginate under autotrophic and heterotrophic conditions. Annals of Microbiology. 65: 339-349.
  46. Meza, B., de-Bashan, L.E., and Bashan, Y. 2015. Involvement of indole-3-acetic acid produced by Azospirillum brasilense in accumulating intracellular ammonium in Chlorella vulgaris. Research in Microbiology. 166: 72-83.
  47. Lopez-Cortes, A., de-Bashan, L.E., Bacilo Jimenez, M. and Bashan Y. 2015. Research on Environmental Microbiology in Baja California: importance and use. [La Investigacion en Microbiologoa Ambiental en Baja California: Importancia y Usos]. Recursos Naturales y Sociedad. 1: 83-98.
  48. 2014

  49. Leyva, L.A., Bashan Y., Mendoza, A., and de-Bashan, L.E. 2014. Accumulation of fatty acids in Chlorella vulgaris under heterotrophic conditions in relation to activity of acetyl-CoA carboxylase, temperature, and co-immobilization with Azospirillum brasilense. Naturwissenschaften. 101: 819-830.
  50. Ramirez-Elias, M.A., Ferrera-Cerrato, R., Alarcon, A., Almariz, J.J., Ramirez-Valverde, G., de-Bashan, L.E., Esparza-Garcia, F.J., and Garcia-Barradas, O. 2014. Identification of culturable microbial functional groups isolated from the rhizosphere of four species of mangroves and their biotechnological potential. Applied Soil Ecology. 82: 1-10.
  51. Choix, F.J., Bashan, Y., Mendoza, A., and de-Bashan, L.E. 2014. Enhanced activity of ADP glucose pyrophosphorylase and formation of starch induced by Azospirillum brasilense in Chlorella vulgaris. Journal of Biotechnology. 177: 22-34.
  52. Bashan, Y., de-Bashan, L.E., Prabhu, S.R., and Hernandez, J.P. 2014. Advances in plant growth-promoting bacterial inoculant technology: formulations and practical perspectives (1998-2013). (A Marschner Review). Plant and Soil. 378: 1-33.
  53. Palacios, O.A., Bashan, Y., and de-Bashan, L.E. 2014. Proven and potential involvement of vitamins in interactions of plants with plant growth-promoting bacteria - an overview. Biology and Fertility of Soils. 50: 415-432.
  54. 2013

  55. Cruz, I., Bashan, Y., Hernandez-Carmona, G., and de-Bashan, L.E. 2013. Biological deterioration of alginate beads containing immobilized microalgae and bacteria during tertiary wastewater treatment. Applied Microbiology and Biotechnology. 97: 9847-9858.
  56. Lopez, B.R., Bashan, Y., Trejo, A., and de-Bashan, L.E. 2013. Amendment of degraded desert soil with wastewater debris containing immobilized Chlorella sorokiniana and Azospirillum brasilense significantly modifies soil bacterial community structure, diversity, and richness. Biology and Fertility of Soils. 49: 1053-1063.
  57. Bashan, Y., Kamnev, A.A., de-Bashan, L.E. 2013. Tricalcium phosphate is inappropriate as a universal selection factor for isolating and testing phosphate-solubilizing bacteria that enhance plant growth: a proposal for an alternative procedure. Biology and Fertility of Soils. 49: 465-479. doi: 10.1007/s00374-012-0737-7.
  58. Bashan, Y., Kamnev, A.A., and de-Bashan, L.E. 2013. A proposal for isolating and testing phosphate-solubilizing bacteria that enhance plant growth. Biology and Fertility of Soils. 49: 1-2.
  59. Gonzalez de Bashan, L.E., and Bashan Y. 2013. Reforestation of eroded lands in the desert; the role of plant growth-promoting bacteria and organic matter. [Reforestaci?n de tierras erosionadas en el desierto: el papel de las bacterias promotoras de crecimiento en plantas y la material orgonica]. El Universal (Mexico). 16.4. 2013. Electronic version of the newspaper
  60. 2012

  61. Choix, F. J., de-Bashan, L.E. and Bashan, Y. 2012. Enhanced accumulation of starch and total carbohydrates in alginate-immobilized Chlorella spp. induced by Azospirillum brasilense: II. Heterotrophic conditions. Enzyme and Microbial Technology. 51: 300-309.
  62. Choix, F. J., de-Bashan, L.E. and Bashan, Y. 2012. Enhanced accumulation of starch and total carbohydrates in alginate-immobilized Chlorella spp. induced by Azospirillum brasilense: I. Autotrophic conditions. Enzyme and Microbial Technology. 51: 294-299.
  63. ACovarrubias, S.A., de-Bashan, L.E., Moreno, M., and Bashan, Y. 2012. Alginate beads provide a beneficial physical barrier against native microorganisms in wastewater treated with immobilized bacteria and microalgae. Applied Microbiology and Biotechnology. 93: 2669-2680.
  64. Trejo, A., de-Bashan, L.E., Hartmann, A., Hernandez, J.P., Rothballer, M., Schmid, M. and Bashan, Y. 2012. Recycling waste debris of immobilized microalgae and plant growth-promoting bacteria from wastewater treatment as a resource to improve fertility of eroded desert soil. Environmental and Experimental Botany. 75: 65-73.
  65. de-Bashan L.E., Hernandez, J. P. and Bashan, Y. 2012. The potential contribution of plant growth-promoting bacteria to reduce environmental degradation. A comprehensive evaluation. Applied Soil Ecology . 61: 171-189.
  66. 2011

  67. de-Bashan, L.E., Schmid, M., Rothballer, M., Hartmann, A., and Bashan Y., 2011. Cell-cell interaction in the eukaryote-prokaryote model using the microalgae Chlorella vulgaris and the bacterium Azospirillum brasilense immobilized in polymer beads. Journal of Phycology 47: 1350-1359.
  68. Bashan, Y., Trejo, A. and de-Bashan, L.E. 2011. Development of two culture media for mass cultivation of Azospirillum spp. and for production of inoculants to enhance plant growth. Biology Fertility of Soil. 47:963-969.
  69. Perez-Garcia, O., Escalante, F.M.E., de-Bashan L.E., and Bashan, Y. 2011. Heterotrophic cultures of microalgae: Metabolism and potential products. Water Research. 45:11-36.
  70. 2010

  71. Perez-Garcia, O., de-Bashan, L.E., Hernandez, J.P., and Bashan, Y. 2010. Efficiency of growth and nutrient uptake from wastewater by heterotrophic, autotrophic, and mixotrophic cultivation of Chlorella vulgaris immobilized with Azospirillum brasilense. Journal of Phycology. 46: 800-812.
  72. de-Bashan, L.E., Hernandez, J.P., Nelson, N. K., Bashan, Y. and Maier, R. 2010. Growth of Quailbush in Acidic, Metalliferous Desert Mine Tailings: Effect of Azospirillum brasilense Sp6 on Biomass Production and Rhizosphere Community Structure. Microbial Ecology. 60: 915-927.
  73. de-Bashan, L.E., Hernandez, J.P., Bashan, Y. and Maier, R. 2010. Bacillus pumilus ES4: Candidate plant growth-promoting bacterium to enhance establishment of plants in mine tailings. Environmental and Experimental Botany. 69: 343-352.
  74. de-Bashan, L.E. and Bashan, Y. 2010. Immobilized microalgae for removing pollutants: Review of practical aspects. Bioresource Technology. 101: 1611-1627.
  75. Bashan, Y. and de-Bashan, L.E. 2010. How the Plant Growth-Promoting Bacterium Azospirillum Promotes Plant Growth-A Critical Assessment. Advances in Agronomy. 108: 77-136.
  76. 2009

  77. Hernandez, J.P., de-Bashan, L.E., Rodriguez, D. J., Rodriguez, Y. and Bashan, Y. 2009. Growth promotion of the freshwater microalga Chlorella vulgaris by the nitrogen-fixing, plant growth-promoting bacterium Bacillus pumilus from arid zone soils. European Journal of Soil Biology. 45: 88-93
  78. 2008

  79. de-Bashan, L.E., Trejo, A., Huss, V.A.R., Hernandez, J.P. Bashan, Y. 2008. Chlorella sorokiniana UTEX 2805, a heat and intense, sunlight-tolerant microalga with potential for removing ammonium from wastewater. Bioresource Technology. 99: 4980-4989.
  80. de-Bashan, L.E., Magallon, P., Antoun, H., and Bashan Y. 2008. Role of glutamate dehydrogenase and glutamine synthetase in Chlorella vulgaris during assimilation of ammonium when jointly immobilized with the microalgae-growth-promoting bacterium Azospirillum brasilense. Journal of Phycology. 44 : 1188-1196.
  81. de-Bashan, L.E., Antoun, H., and Bashan Y. 2008. Involvement of indole-3-acetic-acid produced by the growth-promoting bacterium Azospirillum spp. in promoting growth of Chlorella vulgaris. Journal of Phycology. 44: 938-947.
  82. t4
  83. de-Bashan, L.E., and Bashan Y. 2008. Joint immobilization of plant growth-promoting bacteria and green microalgae in alginate beads as an experimental model for studying plant-bacterium interactions. Applied and Environmental Microbiology. 74: 6797-6802.
  84. 2007

  85. Bashan, Y., Puente, E., Romero, B., Li, C.Y., and de-Bashan, L.E. 2007. Mountain breakers. Tzabar. 13: 2-11. (Hebrew) (Cactis and Succulent Society of Israel)
  86. 2006

  87. Hernandez, J.P., de-Bashan, L.E., and Bashan, Y. 2006. Starvation enhances phosphorus removal from wastewater by the microalgae Chlorella spp.co-immobilized with Azospirillum brasilense. Enzyme and Microbial Technology. 38: 190-198
  88. Holguin, G., Gonzalez-Zamorano, P., de-Bashan, L.E., Mendoza, R., Amador, E., and Bashan, Y.2006. Mangrove health in an arid environment encroached by urban development - a case study. Science of the Total Environment. 363: 260-274.
  89. Bashan, Y., Vierheilig, H., Salazar, B.G., and de-Bashan, L.E. 2006. Primary colonization and breakdown of igneous rocks by endemic, succulent elephant trees (Pachycormus discolor) of the deserts in Baja California, Mexico. Naturwissenschaften. 93: 344-347.
  90. 2005

  91. Bashan, Y. and de-Bashan, L.E. 2005. Fresh-weigth measurements of roots provide inaccurate estimates of the effects of plant growth-promoting bacteria on root growth: a critical examination. Soil Biology & Biochemistry. 37: 1795-1804.
  92. de-Bashan, L.E., Antoun H., and Bashan, Y. 2005. Cultivation factors and population size control uptake of nitrogen by the microalgae Chlorella vulgaris when interacting with the microalgae growth-promoting baterium Azospirillum brasilense. FEMS Microbiology Ecology. 54: 197-203.
  93. Bashan, Y., Puente M.E., Salazar, B., de-Bashan, L.E., Bacilio, M., Hernandez, J.P., Leyva L.A., Romero, B., Villalpando R., and Bethlenfalvay G.J. 2005. Reforestacion de tierras erosionadas en el desierto: el papel de las bacteria promotoras de crecimiento en plantas y la material organica. Suelos Ecuatoriales. 35: 70-77.
  94. Bashan, Y. and de-Bashan, L.E. 2005. Crawling devil. A rare cactus in continuous motion. Tzabar. 12: 2-9 (Hebrew) (cacti and Succulents Society of Israel).
  95. 2004

  96. de-Bashan L.E., Hernandez J.P., Morey, T., and Bashan, Y. 2004. Microalgae growth-promoting bacteria as "helpers" for microalgae: a novel approach for removing ammonium and phosphorus for municipal wastewater. Water Research. 38: 466-474.
  97. Bashan, Y., Holguin, G. and de-Bashan, L.E. 2004. Azospirillum-plant relationships: physiological, molecular, agricultural, and enviromental advances (1997-2003). Canadian Journal of Microbiology. 50: 521-577.
  98. de-Bashan, L.E. and Bashan, Y. 2004. Recent advances in removing phosphorus from wastewater and its future use as fertilizer (1997-2003). Water Research. 38: 4222-4246.
  99. Bashan, Y. and de-Bashan, L.E. 2004. The biggest of all; the gigant cardon cactus of Baja California, Mexico. Tzabar. 11: 18-25. (Hebrew) (Cacti and Succulents Society of Israel).
  100. 2003

  101. de-Bashan, L.E. and Bashan, Y. 2003. Bacterias promotoras de crecimiento de microalgas: una nueva aproximacion en el tratamiento de aguas residuales (Microalgae growth-proomoting bacteria: a novel approach in wastewater treatment). Revista Colombiana de Biotecnologia. 5: 85-90.
  102. Holguin, G., Bashan, Y., Puente, E., Carrillo, A., Bethlenfalvay, G., Rojas, A., Vazquez, P., Toledo, G., Bacilio Jimenez, M., Glick, B. R., Gonzalez de Bashan, L., Lebsky, V., Moreno, M. y Hern?ndez, J. P. 2003. Promocion del crecimiento en plantas por bacterias de la rizosfera (Plant growth promotion by rhizosphere bacteria). Agricultura Tecnica en Mexico. 29(2): 201-211.
  103. Bashan, Y., Gonzalez-Bashan, L.E., and Leon de la Luz,J.L. 2003. Land of the strange trees & giant rocks. Wildflower. 19(1): 34-41.
  104. Bashan, Y., Moreno, M., de-Bashan, L.E., Leyva, L. A., and de La Luz, J. L. 2003. Crawling Devil. A rare & mobile desert cactus. Wildflower. 19(4): 38-41.
  105. de-Bashan, L.E., Hernandez, J. P. and Bashan, Y. 2003. Bacteria used in agriculture to increase growth of microalgae used in wastewater treatment. Gaceta Biomedicas. 8(4): 8-9.
  106. 2002

  107. Bashan, Y., and de-Bashan, L.E. 2002. Protection of tomato seedlings against infection by Pseudomonas syringae pv tomato using the plant growth-promoting bacterium Azospirillum brasilense. Applied and Environmental Microbiology. 68: 2637-2643.
  108. de-Bashan, L.E., Moreno, M., Hernandez, J.P., and Bashan, Y. 2002. Removal of ammonium and phosphorus ions from syntetic waste water by the microalgae Chlorella vulgaris coimmobilized in alginate beads with the microalgae growth-promoting bacterium Azospirillum brasilense. Water Research. 36: 2941-2948.
  109. Bashan, Y., Li, C.Y., Lebsky, V.K., Moreno, M. and de-Bashan, L.E. 2002. Primary colonization of volcanic rocks by plants in arid Baja California, Mexico. Plant Biology. 4: 392-402.
  110. Valderrama, L.T., Del Campo, C.M., Rodriguez, C.M., de-Bashan, L.E., and Bashan, Y. 2002. Treatment of recalcitrant wastewater from ethanol and citric acid production using the microalgae Chlorella vulgaris and the macrophyte Lemna minuscule. Water Research 36: 4185-4192.
  111. de-Bashan, L.E., Bashan, Y., Moreno, M., Lebsky, V.K., and Bustillos,J.J. 2002. Increased pigment and lipid content, lipid variety, and cell and population size of the microalgae Chlorella spp. when co-immobilized in alginate beads with the microalgae-growth-promoting bacterium Azospirillum brasilense. Canadian Journal of Microbiology.: 514-521.
  112. Bashan, Y. and de-Bashan, L.E. 2002. Reduction of bacterial speck (Pseudomonas syringae pv tomato) of tomato by combined treatments of plant growth-promoting bacterium, Azospirillum brasilense, streptomycin sulfate, and chemo-thermal seed treatment. European Journal of Plant Pathology. 108: 821-829.
  113. 2001

  114. Lebsky, V.K., Gonzalez-Bashan, L.E., and Bashan, Y. 2001. Ultrastructure of coimmobilization of the microalga Chlorella vulgaris with the plant growth-promoting bacterium Azospirillum brasilense and with its natural associative bacterium Phyllobacterium myrsinacearum in alginate beads. Canadian Journal of Microbiology. 47: 1-8.
  115. Gonzalez-Bashan, L.E. 2001. Cardon man. Wildflower. 17(1): 9.
  116. Bashan, Y., Gonzalez-Bashan, L.E., and Leon de la Luz, J.L. 2001. King cactus. The giant cardon cactus of Baja California. Wildflower. 17: 10-16.
  117. 2000

  118. Bashan,Y., Gonzalez, L.E., Toledo,G., Leon de La Luz, J.L.,Bethlenfalvay, G.J, Troyo, E., Rojas, A., Holguin,G., Puente, M.E.,Lebsky,V.K., Vazquez, P., Castellanos, T. and Glazier, E. 2000. A proposal for conservation of exemplary stands of the giant cardon cactus(Pachycereus pringlei[S. Wats Britt. & Ross]) in Baja California Sur, Mexico. Natural Areas Journal. 20: 197-200.
  119. Gonzalez, L.E., and Bashan, Y. 2000. Increased growth of the microalga Chlorella vulgaris when coimmobilized and cocultured in alginate beads with the plant growth-promoting bacterium Azospirillum brasilense. Applied and Environmental Microbiology. 66: 1527-1531.
  120. Gonzalez-Bashan, L.E., Lebsky, V.K., Hernandez, J.P., Bustillos, J.J. and Bashan, Y. 2000. Change in the metabolism of the microalga Chlorella vulgaris when coimmobilized in alginate with the nitrogen-fixing Phyllobacterium myrsinacearum. Canadian Journal of Microbiology. 46: 653-659.
  121. Bashan, Y., Toledo, G., Gonzalez, L.E. and Holguin, G. 2000. The falling of the giants: a survey of the decay of the cardon (Pachycereus pringlei) in Baja California Sur. Ciencia y Desarrollo 26(150): 30-37.
  122. 1999

  123. Bashan, Y. and Gonzalez, L.E. 1999. Long-term survival of the plant-growth-promoting bacteria Azospirillum brasilense and Pseudomonas fluorescens in dry alginate inoculant. Applied Microbiology and Biotechnology. 51: 262-266.
  124. 1998

  125. Bashan, Y., Gonzalez, L.E., Toledo, G., Leon de la Luz, J.L.,and Bethlenfalvay, G. 1998. A proposal for conservation of outstanding stands of the giant cardon cactus (Pachycereus pringlei) in Baja California Sur. Cactaceas y Suculentas Mexicanas. 43: 85-89.
  126. Bashan, Y. and Gonzalez. L.E. 1998. The giant cardon of Baja California. Teva Hadvarim. 33: 50-61.
  127. 1997

  128. Gonzalez, L.E., R.O. Canizares, and S. Baena. 1997. Efficiency of ammonia and phosphorus removal from a colombian agroindustrial wastewater by the microalgae Chlorella vulgaris and Scenedesmus dimorphus. Bioresource Technology. 60: 259-262.
  129. 1996

  130. Gonzalez, L.E. and Mora-Osejo. L.E. 1996. Desmids of the paramo lagoons in Colombia. Caldasia. 18(2): 165-202.
  131. Donato, J., Gonz?lez L.E., and Rodriguez. C.L. 1996. Ecological studies of two aquatic systems of the paramo. Colombian Academy of Sciences. Collection Jorge Alvarez Lleras. 9:164.
  132. 1991

  133. Gonzalez, L.E. and Donato. J. 1991. Periphyton of the Chingaza lagoon (Chingaza National Natural Park). Perez-Arbelaezia 3(9):81-100.


    Chapters in books

    Items in the following list that are not available for download may be available upon request from the author. Please contact them directly for any such inquiry.

    2016

  1. Bashan, Y., de-Bashan, L.E. and Prabhu, S.R. 2016. Superior polymeric formulations and emerging innovative products of bacterial inoculants for sustainable agriculture and the environment. In: Agriculturally Important Microorganisms: Commercialization and Regulatory Requirements in Asia. Chapter 2. eds.: Singh H.B., Sarma B.K. and Keswani C. Publisher: Springer Nature. Singapore. pp. 15-46.
  2. 2015

  3. de-Bashan, L.E., Hernandez, J. P., and Bashan, Y. 2015. Interaction of Azospirillum spp. with Microalgae: A Basic Eukaryotic-Prokaryotic Model and Its Biotechnological Applications. In: Handbook for Azospirillum. Publisher: Springer International Publishing. pp. 367-388.
  4. Bashan, Y., and de-Bashan, L.E. 2015. Inoculant Preparation and Formulations for Azospirillum spp. In: Handbook for Azospirillum. Publisher: Springer International Publishing. pp. 469-485.
  5. 2013

  6. de-Bashan, L.E., Hernandez, J.P., Bashan, Y. 2013. Plant growth-promoting bacteria as a component for environmental improvement. In: Rizosfera, biodiversidad y agricultura sustentable. Chapter 14. Eds.: Garcia de Salamone, I., Vazquez, S., Penna, C., Cassan, F. Buenos Aires. pp. 261-286.
  7. de-Bashan, L.E., Vazquez, P., Lopez, B.R., Moreno, M., Hernandez, J.P., Bacilio, M., Leyva, L.A., and Bashan, Y. 2013. Los mas pequenos y los mas grandes:?Que los microorganismos ayudan a las plantas del desierto? In: Que se mueve en el desierto?: la palpitante vida del matorral. Eds.: de la Luz, J.L. and Blazquez, C. Publisher: CIBNOR, La Paz, Mexico.
  8. 2010

  9. Bashan, Y., and de-Bashan, L.E. 2010. Microbial populations of arid lands and their potential for restoration of deserts. In: Soil biology and agriculture in the tropics. Soil Biology Series 21. Chapter 6. Dion, P. Ed. Publisher: Springer. Berlin, Heidelberg, Germany. pp. 109 -137.
  10. Bashan, Y., de-Bashan, L.E. and Toledo G. 2010. Mangrove restoration encouraged by plant-microbe interactions in the arid environment of Baja California Sur, Mexico. In: World Atlas of Mangroves. Eds.: Spalding, M., Kainuma, M., and Collins, L. Earthscan, London, Washington DC. p. 203.
  11. 2008

  12. Bashan, Y., Puente M. E., de-Bashan L.E., and Hernandez J.P. 2008. Environmental uses of plant growth-promoting bacteria. In: Plant-Microbe interactions. Chapter 4. Eds.: E. Ait Barka and C. Clement. Publisher: Research Signpost. Trivandrum, Kerala, India. pp. 69-93.
  13. Bashan, Y., de-Bashan, L.E., Hernandez, J.P., Puente, M.E., Bacilio, M., and Leyva , L.A. 2008. Microbial synthetic inoculants. Are they the future? In: Biofertilizers as a sustainable technology. Eds.: Diaz-Franco A., Mayek-Perez N. Publisher: Plaza y Valdez, Mexico City, Mexico. pp. 167-186.
  14. 2007

  15. de-Bashan, L.E., Holguin, G., Glick, B.R. and Bashan, Y. 2007. Bacterias promotoras de crecimiento en plantas para prop?sitos agr?colas y ambientales. In: Microbiologia Agricola,hongos, bacterias,micro y macrofauna, control biologico, planta-microorganismo. Eds.: Ferrera-Cerrato, R., and Alarcon, A. Publisher: Trillas, Mexico City. Mexico. pp. 170-224.
  16. 2005

  17. Bashan, Y., and de-Bashan, L.E. 2005. Bacteria: Plant growth-promotion - Soil. In: Encyclopedia of soils in the environment. Volume 1. D. Hillel. Ed. Publisher: Elsevier, Oxford, U.K. pp.103-115.

    Conferences - Proceedings

    2012

  1. de-Bashan, L.E., Cruz, I., Covarrubias, S.A. and Bashan, Y. 2012. Biological deteriorated alginate beads containing bacteria and microalgae provide a beneficial physical barrier against native organisms during tertiary wastewater treatment. In: Proceedings of the 20th International Conference on Bioencapsulation. Published by: Bioencapsulation Research Group, France/Canada. pp. 94-95.
  2. 2010

  3. de-Bashan, L.E., Hernandez, J.P., Moreno, M., and Bashan, Y. 2010. Phytoremediation of mine tailings aided by plant growth-promoting bacteria. In: International workshop on rhizosphere, biodiversity and sustainable agriculture (TIRBAS-2010). Eds.: Garcia de Salomone, I.E., and Cassan, F.D. Publisher: Orientacion Grafica. Buenos Aires, Argentina. pp. 45-46.
  4. Bashan, Y., Trejo, A., de-Bashan, L.E., and Hernandez J.P. 2010. Enhanced fertility of eroded arid soil using recycled waste debris of wastewater treatment containing microalgae and Azospirillum brasilense as inoculant. In: International workshop on rhizosphere, biodiversity and sustainable agriculture (TIRBAS-2010). Eds.: Garcia de Salomone, I.E., and Cassan, F.D. Publisher: Orientacion Grafica. Buenos Aires, Argentina. pp. 55-56.
  5. Bashan, Y., Trejo, A., Lopez, B.R., , de-Bashan, L.E., Moreno, M., Bacilio, M., Vazquez, P., and Hernandez, J.P. 2010. Encapsulated plant growth-promoting bacteria for agriculture and the environment. In: 18th International Conference on Bioencapsulation. October 1-2, 2010, Porto, Portugal. pp. 70-71.
  6. de-Bashan, L.E., Hernandez, J.P., Covarubias, S.A., Cruz, I., and Bashan, Y. 2010. Polymer-immobilized microalgae for removing nitrogen and phosphorus from water. 18th International Conference on Bioencapsulation. October 1-2, 2010, Porto, Portugal. pp. 74-75.
  7. Covarrubias S. A., de-Bashan, L.E. and Bashan, Y. 2010. Immobilization of microorganisms in alginate beads as protection against hostile conditions when treating wastewater. In: 18th International Conference on Bioencapsulation. October 1-2, 2010, Porto, Portugal. pp. 146-147.
  8. 2008

  9. de-Bashan, L.E., and Bashan Y. 2008. Plant growth-promoting bacteria and green microalgae: a convenient model for basic studies of plant-bacterium interactions. In: Azospirillum sp.: cell physiology, plant interactions and agronomic research in Argentina. Chapter 2. Eds.: Cassan, F.D. and I. Garcia de Salamone. Publisher: Asociacion Argentina de Microbiologia, Buenos Aires, Argentina. pp. 37-48.
  10. 2007

  11. de-Bashan L.E., and Bashan Y. 2007. Fertilizer potential of phosphorus recovered from wastewater treatments. In: First International Meeting on Microbial Phosphate Solubilization. Series: Developments in Plant and Soil Sciences. Vol. 102. Eds.: Velazquez-Perez, E.; Rodriguez-Barrueco, C. Publisher: Springer, The Netherlands. pp. 179-184.
  12. de-Bashan, L.E., Hernandez, J.P., and Bashan, Y. 2007. Microalgae growth-promoting bacteria as ?helpers? for microalgae: a novel approach for removing ammonium and phosphorus from municipal wastewater. In: First International Meeting on Microbial Phosphate Solubilization. Series: Developments in Plant and Soil Sciences. Vol. 102.. Eds.: Velazquez-Perez, E.; Rodriguez-Barrueco, C. Publisher: Springer, The Netherlands. pp. 185-192.
  13. 2005

  14. Bashan Y., Hernandez J.P., Puente M. E., de-Bashan L.E., and Leyva L.A. 2005. Inoculantes microbianos sint?ticos: son el futuro para la agricultura? In: Memorias, XXII Semana del Parasitologo. Eds.: Gallegos-Morales, G., Cepeda-Siller, M., Hernandez-Castillo, F.D. and Gonzalez-Villegas, R. Publisher: Universidad Autonoma Agraria Antonio Narro, Saltillo, Coahuila, Mexico. pp. 122-124.
  15. Bashan, Y., Puente M.E., Salazar, B., de-Bashan, L.E., Bacilio, M., Hernandez, J.P., Leyva L.A., Romero, B., Villalpando R., and Bethlenfalvay G.J. 2005. Reforestation of eroded lands; the effect of plant growth-promoting bacteria and organic matter. In: Materia organica y microorganismos en la agricultura Colombiana. Sociedad Colombiana de la Ciencia del Suelo, Medellin, Colombia. 15 p.
  16. 2003

  17. Bashan, Y., and de-Bashan, L.E. 2003. Microalgae growth-promoting bacteria: a novel approach in water science; a micro-review. In: 6th International PGPR workshop. Vol 1. Oral presentations. 5-10 October 2003, Eds.: M.S. Reddy, M. Anandaraj, S.J. Eapen, Y.R. Sarma, and J.W. Kloepper. Indian Institute of Spices Research, Calicut, India. pp. 53-58.
  18. de-Bashan, L.E., Hernandez, J. P., Antoun, H., and Bashan, Y. 2003. Enhanced removal of nitrogen and phosphorus from wastewater by microalgae Chlorella sp. using the microalgae growth-promoting bacterium Azospirillum brasilense. In: 6th International PGPR workshop. Vol 2. Abstracts and short papers. 5-10. October 2003, Eds.: M.S. Reddy, M. Anandaraj, S.J. Eapen, Y.R. Sarma, and J.W. Kloepper. Indian Institute of Spices Research, Calicut, India. pp. 294-300.
  19. 2001

  20. Bashan, Y. Bashan, L.E., Moreno, M., Puente, M.E., Rojas, A., Bethlenfalvay, G.J., Carrillo, A., Holguin, G., Vazquez, P., and Glick, B.R. 2001. Environmental applications of plant growth-promoting bacteria of the genus Azospirillum. In: Plant Pathogenic Bacteria. Eds.: S.H. De Boer. Kluwer Publisher: Academic Publishers, Dordrecht, The Netherlands. pp. 68-74.
  21. 2000

  22. Lebsky, V.K., Gonzalez, L.E., Carrillo, A., and Bashan, Y. 2000. Ultrastructure of coimmobilization of the microalga Chlorella vulgaris with the plant growth-promoting bacterium Azospirillum brasilense and with its natural associative bacterium Phyllobacterium myrsinacearum in alginate beads. In: Nitrogen fixation: from molecules to crop productivity. Eds.: Pedrosa, F.O., Hungria, M., Yates, G., and Newton, W. Kluwer. Publisher: Academic publishers, The Netherlands. p. 583.
  23. Bashan, L.E., Hernandez, J.P., Lebsky, V.K., Moreno, M. and Bashan, Y. 2000. Improved growth and water bioremediation capacity of the microalga Chlorella vulgaris when coimmobilized in alginate beads with the plant growth- promoting bacterium Azospirillum brasilense. In: Proceedings of the 5th International plant growth-promoting rhizobacteria conference.
  24. 1998

  25. Gonzalez, L.E., R. Vazquez-Juarez and Bashan, Y. 1998. Immobilization of bacteria and microalgae in alginate to remove inorganic nitrogen from agroindustrial wastewaters. Proceedings of the Second Colombian Simposium on Environmental Biotechnology. University of Boyac, Research Center for Development ?CIPADE?. May 20-22, 1998. Tunja, Colombia. 14 p.
  26. 1997

  27. Gonzalez, L.E. and Valderrama, L.T. 1997. Utilization of microalgae for agroindustrial wastewater traetment. Proceedings of the First National Conference on Environmental Microbiology. Pontificia Universidad Javeriana. Bogota. Colombia. February 19-21, 1997. 13 p.

  28. > End.