Advanced search
Publication Cover
Communications in Soil Science and Plant Analysis Volume 53, 2022 - Issue 7
Submit an article Journal homepage
88
Views
2
CrossRef citations to date
0
Altmetric
Research Article

Effect of Substrate of Carnauba Residue with Humic Substances on Seedling Production of Papaya Cultivar ‘Golden’

Hosana Aguiar Freitas de Andradea Center for Agricultural Sciences, Universidade Federal do Piauí, Teresina, Brazil
,
Nítalo André Farias Machadob Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, BrazilCorrespondence[email protected]
,
Analya Roberta Fernendes Oliveirab Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, Brazil
,
Taciella Fernandes Silvab Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, Brazil
,
Larissa Ramos dos Santosb Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, Brazil
,
Valdryckson Costa Garretob Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, Brazil
&
Raissa Rachel Salustriano da Silva-Matosb Center for Agricultural and Environmental Sciences, Universidade Federal do Maranhão, Chapadinha, Brazil
 show all
Pages 902-912 | Received 05 Apr 2021, Accepted 10 Jan 2022, Published online: 07 Feb 2022

References

  • Abramoff, M. D., P. J. Magalhães, and S. J. Ram. 2004. Image processing with ImageJ. Biophotonics International 11:36–42.
  • Albano, F. G., I. H. L. Cavalcante, J. S. Machado, C. F. Lacerda, E. R. Silva, and H. G. Sousa. 2017. New substrate containing agroindustrial carnauba residue for production of papaya under foliar fertilization. Revista Brasileira de Engenharia Agrícola E Ambiental 21 (2):128–33.
  • Albano, F. G., A. S. Marques, and I. H. L. Cavalcante. 2014. Alternative substrate for production of papaya seedlings (cv. Caliman). Revista Científica 42 (4):388–95.
  • Araújo, A. K., J. A. Araújo-Filho, and S. R. Maranhão. 2017. Corn, bean and cassava consortia in the presence of carnauba bagana in an argisol on the north coast of Ceará under rainfed conditions. Essentia 8 (1):2–23.
  • Araújo, A. C., A. G. Araújo, M. K. L. Dantas, W. E. Pereira, and M. A. I. Aloufa. 2013. Use of organic substrates in the production of papaya seedlings. Brazilian Journal of Agroecology 8 (1):210–16.
  • Basso, S. M. S. 1999. Morphological characterization and biological nitrogen fixation of Adesmia DC and Lotus L species. 268 f. Tese (PhD in Animal Science) Universidade Federal do Rio Grande do Sul.
  • Bernadino, D. C. S., H. N. Paiva, J. C. L. Neves, J. M. Gomes, and V. B. Marques. 2005. Growth and seedling quality of Anadenanthera macrocarpa (Benth.) Brenan in response to base saturation of the substrate. Revista Árvore 29 (6):863‑870.
  • Borcioni, E., F. A. Morgor, and F. Pinto. 2016. Application of fulvic acid in seedlings influencing root growth and yield of American lettuce. Revista Ciência Agronômica 47 (3):509–15.
  • Cavalcante, I. H. L., R. R. S. Silva, F. G. Albano, F. N. Lima, and A. S. Marques. 2011. Foliar spray of humic substances on seedlings production of papaya (pawpaw). Journal of Agronomy 10 (4):118–22.
  • Chen, Y., and T. Aviad. 1990. Effects of humic substances on plant growth. In Humic substances in soil and crop sciences: Selected readings, ed. P. Mccarthy, C. E. Clapp, R. L. Malcolm, and P. R. Bloom, 161–86. MacCarthy: American Society of Agronomy.
  • Cordeiro, K. V., H. A. F. Andrade, E. D. Oliveira-Neto, N. A. Costa, B. R. S. Rocha, S. F. Pontes, Y. O. T. Marzullo, F. E. N. Pinto, N. A. F. Machado, and R. R. S. Silva-Matos. 2018. New substrates based on decomposed babassu stem in the production of melon seedlings. Journal of Experimental Agriculture International 1:1–7.
  • Cordeiro, K. V., N. A. Costa, H. A. F. Andrade, E. D. Oliveira-Neto, B. R. S. Rocha, N. A. F. Machado, F. G. Albano, M. B. Furtado, and R. R. S. Silva-Matos. 2019. Inclusion of babassu decomposed stem substrates on the pattern of the vegetative growth of passion fruit seedlings. Communications in Soil Science and Plant Analysis 50:2777–86.
  • Cruz, C. A. F., H. N. Paiva, A. C. M. C. M. Cunha, and J. C. L. Neves. 2012. Production of canafistula seedlings grown in Allicolous Yellow Red Latosol in response to macronutrients. Cerne 18 (1):87‑98.
  • Di Rienzo, J. Á., F. Casanoves, M. G. Balzarini, L. Gonzales, M. Tablada, and C. W. Robledo. 2017. Infostat version 2011. Grupo InFostat, Faculdade de Ciências Agropecuárias. Universidad Nacional de Córdoba 8:195–99. Disponível em: &#x003C. Access in 10 set. 2017. http://www.infostat.com.ar>
  • Dickson, A., A. L. Leaf, and J. F. Hosner. 1960. Quality appraisal of white spruce and white pine seedling stock in nurseries. The Forestry Chronicle 36:10–13.
  • Eyheraguibel, B., J. Silvestre, and P. Morard. 2008. Effects of humic substances derived from organic waste enhancement on the growth and mineral nutrition of maize. Bioresource Technology 99 (10):4202–12.
  • Ferreira, O. E., N. E. M. Beltrão, and A. Konig. 2005. Effects of wastewater and nitrogen application on herbaceous cotton growth and yield. Brazilian Journal of Oilseeds and Fibrous 9 (1):893–902.
  • Figliolia, A., A. Benedetti, C. Izza, R. Indiati, E. Rea, F. Alianiello, S. Canali, F. A. Biondi, F. Pierandrei, and R. Moretti. 1994. Effects of fertilization with humic acids on soil and plant metabolism: A multidisciplinary approach. In Humic substances in the global environment and implications on human health, ed. N. Senesi and T. M. Miano, 579–84. Bari: Elsevier.
  • Filgueira, F. A. R. 2003. New manual of olericultura: Modern agro-technology in the production and commercialization of vegetables. 2th ed. Brazil: Viçosa.
  • Guimarães, I. P., E. P. Paiva, J. P. N. Almeida, I. G. Arrais, E. A. Cardoso, and F. V. S. Sá. 2015. Seedling production of three accessions of papaya under doses of Root biostimulant. Journal of Agrarian Sciences 38 (3):414–21.
  • IBGE – Brazilian Institute of Geography and Statistics (2016) Systematic survey of agricultural production. Disponível em. Accessed 18 march 2018. http://www.ibge.gov.br/>
  • Lima, R. L. S., L. S. Severino, M. I. L. Silva, J. F. Jerônimo, L. S. Vale, and N. E. M. Beltrão. 2006. Substrates for castor bean seedlings composed of mixtures of five sources of organic matter. Science and Agrotechnology 30 (3):474–79.
  • Lustosa-Filho, J. F., J. C. A. Nóbrega, R. S. A. Nóbrega, B. O. Dias, F. H. C. Amaral, and S. P. N. Amorim. 2006. Influence of organic substrates on growth and nutrient contents of jatobá (Hymenaea stigonocarpa). African Journal of Agricultural Research 10 (26):2544–52.
  • Mapa Regulatory institution. DAS No. 17, of May 21, 2007. Official Gazette of the Federative Republic of Brazil. Brasilia, May 24, 2007, section 1, p. 8Mapeli NC,
  • Mapeli, N. C., Vieira, M. C., Heredia , N. A. Z., and Siqueira J. M. 2005. Biomass production of chamomile capitula as a result of nitrogen and phosphorus. Horticultura Brasileira 23 (1): 32–37.
  • Marschner, H. 1995. Mineral nutrition of higher plants, 889. 2 ed. London: Academic Press INC.
  • Moreira, M. A., J. G. Carvalho, M. Pasqual, C. Fráguas, and A. B. Silva. 2006. Effect of substrates on the acclimatization of pineapple cv pearl. Science and Agrotechnology 30:875–79.
  • Nibau, C., D. J. Gibbs, and J. C. Coates. 2008. Branching out in new directions: The control of root architecture by lateral root formation. New Phytologist 179 (3):595–614.
  • Nóbrega, R. S. A., A. M. Paula, R. C. V. Boas, J. C. A. Nóbrega, and F. M. S. Moreira. 2008. Morphological parameters of Sesbania virgata (Caz.) Pers and Anadenanthera peregrina (L.) seedlings grown on substrate fertilized with urban waste compost. Revista Árvore 32 (3):597‑607.
  • Nogueira, V. F. B., M. F. Correia, and V. S. Nogueira. 2012. Impact of soybean plantation and equatorial pacific ocean on rainfall and temperature in Chapadinha-MA. Brazilian Journal of Physical Geography 3:708–24.
  • Nomura, E. S., E. R. Damatto-Junior, E. J. Fuzitani, L. A. Saes, and E. Jensen. 2012. Acclimatization of ‘Grand Naine’ banana micropropagated seedlings with biofertilizer application in two seasons. Ceres 59 (4):518–29.
  • Nunes, J. C., L. F. Cavalcante, A. J. Lima-Neto, J. A. Silva, and A. G. Souto. 2015. Impact of humic substances and nitrogen fertilising on the fruit quality and yield of custard apple. Acta Scientiarum. Agronomy 37 (2):211–18.
  • Oliveira, A. M. G., L. D. S. Souza, B. V. Raij, E. Magalhães, and A. D. C. Bernardi. 2004. Nutrition, liming and fertilizing papaya. 1th ed. Cruz das Almas, Brazil: EMBRAPA.
  • Passos, M. L. V., G. C. Zambrzycki, and R. S. Pereira. 2016. Water balance and climate classification for a particular region of Chapadinha-MA. Brazilian Journal of Irrigated Agriculture 10 (4):758–66.
  • Sá, F. V. S., M. E. B. Brito, A. S. Melo, P. Antônio-Neto, P. D. Fernandes, and I. B. Ferreira. 2013. Production of papaya seedlings irrigated with saline water. Revista Brasileira Engenharia Agrícola Ambiental 17 (10):1047–54.
  • Santos, H. G., P. K. T. Jacomine, L. H. C. Anjos, V. A. Oliveira, J. B. Oliveira, M. R. Coelho, J. F. Lumbreras, and T. J. F. Cunha. 2013. Sistema brasileiro de classificação de solos. 3 ed., 353. Brasilia: EMBRAPA, Brasilia.
  • Saraiva, K. R., R. S. Nascimento, F. A. L. Sales, H. F. Araújo, C. N. V. Fernandes, and A. D. Lima. 2011. Production of papaya seedlings under phosphate fertilization doses using as a simple superphosphate source. Brazilian Journal of Irrigated Agriculture 5 (4):376–83.
  • Schmitz, J. A. K., P. V. D. Souza, and N. A. Kämpf. 2002. Chemical and physical properties of substrates of mineral and organic origin for growing seedlings in containers. Ciência Rural 32 (6):937–44.
  • Selbach, J. F., and J. R. S. A. Leite. 2008. Environment in Lower Parnaíba: Eyes in the world, feet in the region. 1th ed. São Luís: EDUFMA, Brazil.
  • Silva-Matos, R. R. S., G. B. Silva Junior, A. S. Marques, M. L. Monteiro, Í. H. L. Cavalcante, and J. A. Osajima. 2015. New organic substrates and boron fertilizing for production of yellow passion fruit seedlings. Archives of Agronomy and Soil Science 6:445–55.
  • Silva, R. S., M. B. Furtado, N. A. F. Machado, H. A. F. Andrade, A. R. F. Oliveira, M. F. Farias, L. J. Parra-Serrano, J. L. B. Furtado, R. R. S. Silva-Matos, and M. R. L. Leite. 2018. Effect of Boron (B) and lime on production of watermelon in dystrophic yellow latosol soil. Aust J Crop Sci 12:1975–82.
  • Smet, I., S. Vanneste, D. Inze, and T. Beeckman. 2006. Lateral root initiation or the birth of a new meristem. Plant Molecular Biology 60 (6):871–87.
  • Sousa, L. B., R. S. A. Nóbrega, J. F. Lustosa-Filho, S. P. N. Amorim, L. V. M. Ferreira, and J. C. A. Nóbrega. 2015. Cultivation of Sesbania virgata (Cav. Pers) on different substrates. Revista Ciências Agrárias 58 (3):240–47.
  • Sousa, W. C. E., R. S. A. Nóbrega, J. C. A. Nóbrega, D. R. S. Brito, and F. M. S. Moreira. 2013. Nitrogen sources and Mauritia flexuosa decomposed stem on Enterolobium contortisiliquum nodulation and growth. Revista Árvore 37:969‑979.
  • Sousa, G. G., J. O. Novelino, S. Q. P. Scalon, and M. E. Marchetti. 2011. Growth of passion fruit seedlings according to boron and termites mound nest material fertilizing. Pesquisa Agropecuária Tropical 41:170–78.
  • Souza, A. A. L., F. J. C. Moreira, B. A. Araújo, F. G. N. Lopes, M. E. S. Silva, and B. S. Carvalho. 2016. Initial development of two varieties of lettuce as a function of two substrate types and soil cover. Revista Brasileira de Engenharia de Ecossistemas 10 (3):316–26.
  • Taiz, L., and E. Zeiger. 2006. Plant physiology. 4th ed. Sunderland, Massachusetts, USA: Sinauer Associates.
  • Trevisan, S., O. Francioso, S. Quaggiotti, and S. Nardi. 2010. Humic substances biological activity at the plant-soil interface: From environmental aspects to molecular factors. Plant Signaling & Behavior 5 (6):635–43.
  • Zahra, M. T., A. Afzal, D. A. Asad, T. Sultan, T. Tabassum, and M. Asif. 2019. Vermicompost augmented with plant growth promoting rhizobacteria improved soil fertility and growth of Brassica rapa. International Journal of Agriculture & Biology. 22(6):1645‒1654.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.