Phytoextraction and nutritional quality of forages cultivated in a constructed wetland system for wastewater treatment
DOI:
https://doi.org/10.13083/reveng.v29i1.11155Keywords:
Saline stress, Pennisetum purpureum, Cynodon dactylon, Nutrients, Forage grassesAbstract
This study aimed to evaluate the effects of different concentrations of sodium on the phytoextraction of nutrients and nutritional quality of forages (P. purpureum Schum and C. dactylon Pers) grown in wetland system constructed for wastewater generated in cattle slaughterhouses (WGCS) treatment. The experiment was conducted in a randomized complete block design with three replications. The treatments were tested using 2 x 5 factorial scheme, as follows: two species of grass (P. purpureum Schum and C. dactylon Pers) and five concentrations of sodium in WGCS: 70, 100, 150, 200 and 250 mg L-1. The phytoextraction potential of nutrients and the nutritional quality of forages grown in pots simulating a wetland system constructed for WGCS with sodium concentrations were assessed in terms of the contents of the nutrients nitrogen, phosphorus, potassium, calcium, magnesium and sodium in leaf tissues. The accumulations of these nutrients in the produced forages were also evaluated. Both species presented different behaviors regarding their nutrient phytoextraction potentials. The nutritional quality was changed in the forages due to the cultivation in constructed wetlands. Forage C. dactylon Pers presented higher phytoextraction potential of sodium and potassium and P. purpureum Schum presented a higher nutritional quality.
Downloads
References
ALVARES, C.A.; STAPE, J.L.; SENTELHAS, P.C.; GONÇALVES, J.L.M.; SPAROVEK, G. Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift, v.22, p.711–728, 2013.
AQUINO, A.J.S.; LACERDA, C.F.; BEZERRA, M.A.; GOMES FILHO, E.; COSTA, R.N.T. Growth, dry matter partition, and retention of Na+, K+, and Cl- in two genotypes of sorgo irrigated with saline waters. Brazilian Journal of Soil Science, v.31, p.961-971, 2007.
AVELAR, F.F.; MATOS, A.T.; JÚNIOR, A.R.L.; PORTES, M.R.; GUALHANO, D.S. Performance agronomic of mentha aquatic cultivated in flooded systems built under different organic application rates. Agricultural Engineering, v.35, n.2, p. 322-330, 2015.
BHATIA, M.;GOYAL, D. Analyzing remediation potential of wastewater through wetland plants: a review. Environmental Progress & Sustainable Energy, v.33, p.9-27, 2013.
CAI, T.; PARK, S.Y.; LI, Y. Nutrient recovery from wastewater streams by microalgae: status and prospects. Renewable and Sustainable Energy Reviews, v.19, p.360-369, 2013.
CARNEIRO, J.S.S.; SILVA, P.S.S.; SANTOS, A.C.M.; FREITAS, G.A.; SANTOS, A. C.; SILVA, R. R.. Mombaça grass responds to partial replacement of K+ by Na+ with supplemental Ca2+ addition in low fertility soil. Journal of Agricultural Science, v. 9, n. 11, p. 209–219, 2017.
CHAVAN, B.L.; DHULAP, V.P. Sewage treatment with Constructed Wetland using Panicum maximum forage Grass. Journal of Environmental Science and Water Resources, v.1, p.223-230, 2012.
ERTHAL, V.J.; FERREIRA, P.A.; PEREIRA, O.G.; MATOS, A.T. Physiological, nutritional characteristics and yield of forage fertigated with cattle-growing wastewater. Brazilian Journal of Agricola and Environmental Engineering-Agriambi, v.14, p.458-466, 2010.
FERREIRA, D.F. SISVAR: A computer statistical analysis system. Ciência e Agrotecnologia, v. 35, n. 6, p. 1039- 1042, 2011.
GUIMARÃES, F.V. Physiological and biochemical responses in rope bean plants cv Pitiúba subjected to stress with NaCl concentrations of CaCl and CaSO. Doctoral Thesis (Doctorate in Plant Biochemistry)-Federal University of Ceará, Fortaleza, 2005.
HERATH, I.; VITHANAGE, M. Phytoremediation in constructed wetlands. In: Ansari, A.A., S.S. Gill, R. Gill, G.R. Lanza and L. Newman. Phytoremediation: Management of Environmental Contaminants (2a ed), Springer International Publishing, Switzerland, 2015.
MALAVOLTA, E.; VITTI, G.C.; OLIVEIRA, S. A. Evaluation of the nutritional status of plants: principles and applications/Euripipedes Malavolta, Godofredo Cesar Vitti, Sebastião Alberto de Oliveira.—2. ed., ver. e atual. Piracicaba: Potafos, 1997.
MATOS, A.T.; ABRAHÃO, S.S.; LO MONACO, P. A. V. Efficiency of flooded systems built in the removal of wastewater pollutants from the dairy industry. Agricultural Engineering, v.32, p.1144-1155, 2012.
MATOS, A.T.; ABRAHÃO, S.S.; MONACO, P.A.; SARMENTO, A.P.; MATOS, M. P. Plant extractor capacity in flooded systems used in the treatment of dairy wastewater. Brazilian Journal of Agricola and Environmental Engineering, v.14, n.12, p. 1311-1317, 2010.
MATOS, A.T.; ABRAHÃO, S.S.; PEREIRA, O.G. Performance agronomic grass tifton 85 (Cynodon spp) cultivated in built-in flooded systems used to treat dairy wastewater. Ambiente & Água-An Interdisciplinary Journal of Applied Science, v.3, n.1, p.43-53, 2008.
MATOS, A.T.; FREITAS, W.D.S.; LO MONACO, P.A.V. Extracting capacity of different plant species grown in flooded systems used in the treatment of wastewater of pig farming. Ambiente & Água-An Interdisciplinary Journal of Applied Science, v.4, n.2, p.31-45, 2009.
National Research Council (US). Nutrient requirements of dairy cattle (N. 3), 1958.
RODRIGUES, L.R.A.; RODRIGUES, T.D.J.; REIS, R.A.; SOARES FILHO, C.V. Evaluation of physiological characteristics of five cultivars of Cynodon. Acta Scientiarum. Animal Sciences, v.28, n.3, p.245-250, 2006.
SHELEF, O.; GROSS, A.; RACHMILEVITCH, S. The use of Bassia indica for salt phytoremediation in constructed wetlands. Water research, v.46, p.3967-3976, 2012.
SILVA, P.S.S., LEITE, R.C.; CARNEIRO, J.S.S.; FREITAS, G.A.; R. R. SILVA, R.R. Mombaça grass development with partial replacement of potassium fertilizer by sodium chloride and the effects of adding calcium. Tropical Grasslands-Forrajes Tropicales, v.8 n. 3, p. 195-202, 2020.
SILVA, S.C.; NASCIMENTO JÚNIOR, D.; EUCLIDES, V.B.P. Pastures: basic concepts, production, and management. Viçosa: Suprema, 2008.
THEBALDI, M.S.; SANDRI, D.; FELISBERTO, A.B.; ROCHA, M.S.; NETO, S. A. Water quality for irrigation of a stream after receiving treated effluent from bovine slaughter. Agricultural Engineering, v.33, n.3, p.109-120, 2013.
VILELA, H. Pasture: selection of forage plants, implantation, and fertilization. Viçosa: Aprenda Fácil, 2005.
WILLADINO, L.; CAMARA, T.R. Plant tolerance to salinity: physiological and biochemical aspects. Biosphere encyclopedia, v.6, n.11, p.1-23, 2010.
WU, S.; KUSCHK, P.; BRIX, H.; VYMAZAL, J.; DONG, R. Development of constructed wetlands in performance intensifications for wastewater treatment: a nitrogen and organic matter targeted review. Water research, v.57 p.40-55, 2014.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2021 Revista Engenharia na Agricultura - Reveng
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Authors who publish with this journal agree to the following terms:
The author(s) authorize(s) the publication of the text in the journal;
The author(s) ensure(s) that the contribution is original and unpublished and that it is not in the process of evaluation by another journal;
The journal is not responsible for the views, ideas and concepts presented in articles, and these are the sole responsibility of the author(s);
The publishers reserve the right to make textual adjustments and adapt texts to meet with publication standards.
From submission, the author is fully conceding the paper's patrimonial rights to the publication, but retaining the owner of its moral rights (authorship and paper's identification) according to Creative Commons Attribution-Noncommercial.