Titulo:
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino
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Guardado en:
2389-9182
19
2014-07-01
159
172
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info:eu-repo/semantics/openAccess
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0.
Temas Agrarios - 2016
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Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino 19 Temas Agrarios Universidad de Córdoba Núm. 2 , Año 2014 : Revista Temas Agrarios volumen 19(2) (Julio - Diciembre 2014) 2 Artículo de revista Bonilla, Ruth Sánchez, Diana Journal article Mohamed, H. and Gomaa, E. 2012. Effect of plant growth promoting Bacillus subtilis and Pseudomonas fluorescens on growth and pigment composition of radish plants (Raphanus sativus) under NaCl stress. Photosynthetica 50(2):263-272. Ramírez, M., Piña, Y., Ordoñez, L., Bracho, B. y García, D. 2014. Efecto del NaCl en plántulas de curarí (Tabebuia serratifolia) en condiciones de laboratorio. Pastos y Forrajes 37(1):17-23. Selvakumar, G., Kundu, S., Joshi, P., Nazim, S., Gupta, A., Mishra, P. and Gupta, H. 2008. Characterization of a cold-tolerant plant growth-promoting bacterium Pantoea dispersa 1A isolated from a sub-alpine soil in the North Western Indian Himalayas. World Journal of Microbiology and Biotechnology 24(7):955-960. Sandhya, V., Ali, S., Venkateswarlu, B., Reddy, G. and Grover, M. 2010. Effect of osmotic stress on plant growth promoting Pseudomonas spp. Archives of Microbiology 192(10):867-876. Lamz, A. y González, M. 2013. La salinidad como problema en la agricultura: la mejora vegetal una solución inmediata. Cultivos Tropicales 34(4):31-42. Sánchez, D., Gómez, R., Garrido, M. y Bonilla, R. 2012. Inoculación con bacterias promotoras de crecimiento vegetal en tomate bajo condiciones de invernadero. Revista Mexicana de Ciencias Agrícolas 3(7):1401-1415. Reis, F., Silva, L., Reis, V. e Döbereiner, J. 2000. Ocorrência de bactérias diazotróficas em diferentes genótipos de cana-deaçúcar. Pesquisa Agropecuária Brasileira 35(5):985-994. Rastelli, E., Giraffa, G., Carminati, D., Parolari, G. and Barbuti, S. 2005. Identification and characterisation of halotolerant bacteria in spoiled dry-cured hams. Meat science 70(2):241-246. Parida, S. and Das, A. 2005. Salt tolerance and salinity effects on plants. Ecotoxicol Environmental Safety. 60: 324-349. Percival, Y., Himmel, M. and Mielenz, J. 2006. Outlook for cellulase improvement: screening and selection strategies. Biotechnology Advances 24(5):452-481. Morales, Y., Juarez, D., Aragón, C., Mascarua, M., Bustillos, M., Fuentes, L. and Muñoz, J. 2011. Growth response of maize plantlets inoculated with Enterobacter spp., as a model for alternative agriculture. Revista Argentina de Microbiología 43(1):287-293. Paredes, M. y Espinosa, D. 2010. Ácidos orgánicos producidos por rizobacterias que solubilizan fosfato: una revisión crítica. Terra Latinoamericana 28(1):61- 70. Son, H., Park, G., Cha, M. and Heo, M. 2006. Solubilization of insoluble inorganic phosphates by a novel salt-and pHtolerant Pantoea agglomerans R-42 isolated from soybean rhizosphere. Bioresource Technology 97(2):204-210. Martínez, L. y Navia, J. 2011. Evaluación del comportamiento de algunas especies arbóreas y arbustivas bajo dos distancias de siembra. Revista de Ciencias Agrícolas 28(2):129-36. Martínez, L. y Navia, J. 2012. Evaluación del comportamiento de algunas especies arbóreas y arbustivas bajo dos distancias de siembra. Ciencias Agrícolas 28(2):129-136. Oliveira, C., Alves, V., Marriel, I., Gomes, E., Scotti, M., Carneiro, N., Guimarães R., Shaffert R. and Sá, N. 2009. Phosphate solubilizing microorganisms isolated from rhizosphere of maize cultivated in an oxisol of the Brazilian Cerrado Biome. Soil Biology and Biochemistry 41(9):1782-1787. Muñoz, D., Calvache, D. y Yela, J. 2013. Especies forestales con potencial agroforestal para las zonas altas en el departamento de Nariño. Revista de Ciencias Agrícolas 30(1):38-53. Sindhu, S. and Dadarwal, K. 2001. Chitinolytic and cellulolytic Pseudomonas sp. antagonistic to fungal pathogens enhances nodulation by Mesorhizobium sp. Cicer in chickpea. Microbiological Research 156:353-358. Wani, P., Khan, M. and Zaidi, A. 2007. Effect of metal tolerant plant growth promoting Bradyrhizobium sp. (vigna) on growth, symbiosis, seed yield and metal uptake by green gram plants. Chemosphere 70:36-45. Taiz, L. and Zeiger, E. 2010. Plant Physiology. Edition 5º.(USA): Sinauer Associates, Inc. Publishers, Maryland. USA, p756-770. https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/download/731/847 Text http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess http://purl.org/coar/version/c_970fb48d4fbd8a85 info:eu-repo/semantics/publishedVersion http://purl.org/coar/resource_type/c_6501 info:eu-repo/semantics/article https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/download/731/2171 https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/download/731/4415 Tank, N. and Saraf, M. 2010. Salinity-resistant plant growth promoting rhizobacteria ameliorates sodium chloride stress on tomato plants. Journal of Plant Interactions. 5(1):51-58. https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/download/731/4414 Zaidi, A., Khan, M., Ahemad, M. and Oves, M. 2009. Plant growth promotion by phosphate solubilizing bacteria. Acta Microbiological et Immunological Hungarica 56(3):263-284. Zahir, Z., Ghani, U., Naveed, M., Nadeem, S. and Asghar, H. 2009. Comparative effectiveness of Pseudomonas and Serratia sp. containing ACC-deaminase for improving growth and yield of wheat (Triticum aestivum L.) under-salt stressed conditions. Archives of Microbiology 191:415-424. Yasmm, F., Othman, R., Saad, M. and Sijam, K. 2007. Screening for beneficial properties of Rhizobacteria isolated from sweet potato rizosphere. Journal of Biotechnology 6(1):49-52. Yan, H. and Ji, L. 2013. Improvement of plant growth and seed yield in Jatropha curcas by a novel nitrogen-fixing root associated Enterobacter species. Biotechnology for Biofuels 6:140. Kang, S., Khan, A., Waqas, M., You, Y., Kim, J., Kim, J., Hamayun, M and Lee, I. 2014. Plant growth-promoting rizobacteria reduce adverse effects of salinity and osmotic stress by regulating phytohormones and antioxidants in Cucumis sativus. Journal of Plant Interactions 9(1):673-682. Walpola, B. and Yoon, M. 2013. In vitro solubilization of inorganic phosphates by phosphate solubilizing microorganisms. African Journal of Microbiology Research. 7(27):3534-3541. Upadhyay, S., Singh, J. and Singh, D. 2011. Exopolysaccharide-producing plant growth-promoting rhizobacteria under salinity condition. Pedosphere 21(2):214-222. Kavamura, V., Santos, S., Silva, J., Parma, M., Ávila, L., Visconti, A., Zucchi, T., Taketania, R., Andreote, F. and Melo, I. 2013. Screening of Brazilian cacti rhizobacteria for plant growth promotion under drought. Microbiological Research 168(4):183-191. Glickman, E. and Dessaux, Y. 1995. A Critical examination of the specificity of the salkowsky reagent for indolic compounds produced by phytopathogenic bacteria. Applied and Environmental Microbiology 61(2):793-796. Joseph, B., Ranjan, P. and Lawrence, R. 2007. Characterization of plant growth promoting rhizobacteria associated with chickpea (Cicer arietinum L.). International Journal of Plant Production (1):141-152. 2014-07-01T00:00:00Z https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/view/731 2389-9182 text/html application/pdf text/html application/pdf 2014-07-01 2014-07-01T00:00:00Z https://doi.org/10.21897/rta.v19i2.731 Serratia li.quefaciens. Serratia Pantoea deleyi salinidad Enterobacter amnigenus Pantoea deleyi. Serratia liquefaciens salinity Enterobacter amnigenus 10.21897/rta.v19i2.731 Illmer, P. and Schineer, F. 1995. Solubilization of inorganic calcium phosphates solubilization mechanisms. Soil Biology and Biochemistry 27(3):257-263. Chen, Y., Rehha, P., Arun, A., Shen, F., Lai, W. and Young, C. 2006. Phosphate solubilizing bacteria from subtropical soil and their Tricalcium phosphatesolubilizing abilities. Applied Soil Ecology 34:33-41. Hajlaoui, H., Denden, M. and Bouslama, M. 2006. Effet du chlorure de sodium sur les critèresmorpho-physiologiques et productifs du poischiche (Cicer arietinum L.).]– Annales de Institut National de Recherche en Génie Rural Eaux et Forêts 8:171-187. Goswami, D., Dhandhukia, P., Patel, P. and Thakker, J. 2014. Screening of PGPR from saline desert of Kutch: Growth promotion in Arachis hypogeal Bacillus licheniformis A2. Microbiological Research 169(1):66-75. Ghosh, S., Sengupta, C., Maiti, T. and Basu, P. 2008. Production of 3-indolylacetic acid in root nodules and culture by a Rhizobium species isolated from root nodules of the leguminous pulse Phaseolus mungo. Folia Microbiological 53:351-355 Fiske, C. and Subbaro Y. 1925. The colorimetric determination of phosphorus. Journal of Biological Chemistry 66:375 p. Dubois, M., Gilles, K., Hamilton, J., Rebers, P. and Smith, F. 1956. Colorimetric method for determination of sugars and related substances. Analytical Chemistry 28(3):352-356. Das-Neves, J., Ferreira, L., Vaz, M. and Gazarini, L. 2008. Gas exchange in the salt marsh species Atriplex portulacoides L. and Limoniastrum monopetalum L. in Southern Portugal. Acta Physiologiae Plantarum 30:91-97. Costa, E., Nóbrega, R., Carvalho, F., Trochmann, A., Ferreira, L. and Moreira, F. 2013. Plant growth promotion and genetic diversity of bacteria isolated from cowpea nodules. Pesquisa Agropecuária Brasileira 48(9):1275-1284. Calvachi, B. 2012. Los ecosistemas semisecos del altiplano cundiboyacense, bioma azonal singular de Colombia, en gran riesgo de desaparición. Mutis 2(2):26-59. http://creativecommons.org/licenses/by-nc/4.0 Bhattacharyya, P. and Jha, D. 2012. Plant growth-promoting rhizobacteria (PGPR): emergence in agriculture. World Journal of Microbiology and Biotechnology 28(4):1327-1350. Bashan, Y., Holguin, G. and De-Bashan, L. 2004. Azospirillum plant relationships: physiological, molecular, agricultural, and environmental advances (1997- 2003). Canadian Journal of Microbiology 50(8): p521-577. Bacilio, M., Rodriguez, H., Moreno, M., Hernandez, J. and Bashan, Y. 2004. Mitigation of salt stress in wheat seedlings by a Azospirillum lipoferum. Biology and Fertility of Soils 40:188-193. Babana, A., Dicko, A., Maïga, K. and Traoré, D. 2013. Characterization of rock phosphate-solubilizing microorganisms isolated from wheat (Triticum aestivum L.) rhizosphere in Mali. Journal of Mıcrobıology and Mıcrobıal Research 1(1):1-6. 172 159 Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0. Temas Agrarios - 2016 Publication |
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UNIVERSIDAD DE CORDOBA |
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Colombia |
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Temas Agrarios |
| title |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| spellingShingle |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino Bonilla, Ruth Sánchez, Diana Serratia li.quefaciens. Serratia Pantoea deleyi salinidad Enterobacter amnigenus Pantoea deleyi. Serratia liquefaciens salinity Enterobacter amnigenus |
| title_short |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| title_full |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| title_fullStr |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| title_full_unstemmed |
Respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| title_sort |
respuesta vegetal de acacia decurrens a la inoculación con rizobacterias promotoras de crecimiento vegetal bajo estrés salino |
| author |
Bonilla, Ruth Sánchez, Diana |
| author_facet |
Bonilla, Ruth Sánchez, Diana |
| topic |
Serratia li.quefaciens. Serratia Pantoea deleyi salinidad Enterobacter amnigenus Pantoea deleyi. Serratia liquefaciens salinity Enterobacter amnigenus |
| topic_facet |
Serratia li.quefaciens. Serratia Pantoea deleyi salinidad Enterobacter amnigenus Pantoea deleyi. Serratia liquefaciens salinity Enterobacter amnigenus |
| citationvolume |
19 |
| citationissue |
2 |
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Núm. 2 , Año 2014 : Revista Temas Agrarios volumen 19(2) (Julio - Diciembre 2014) |
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Universidad de Córdoba |
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Temas Agrarios |
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https://revistas.unicordoba.edu.co/index.php/temasagrarios/article/view/731 |
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|
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Article |
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http://purl.org/coar/access_right/c_abf2 info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by-nc/4.0 Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial 4.0. Temas Agrarios - 2016 |
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2389-9182 |
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10.21897/rta.v19i2.731 |
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159 |
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172 |
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