Influence of harvest time and agricultural year in yield components of table cassava cultivars

Keywords: Manihot esculenta Crantz, post-harvest, tuber root yield, minimum processing.

Abstract

Agricultural year and harvesting season may interfere with yield and post-harvest performance of table cassava cultivars, with consequences for their commercialization and net profit. The objective of this work was to quantify the effects of harvesting season and agricultural year on yield performance of table cassava cultivars and their correlations. Planting was carried out in September in two consecutive years near Londrina city, PR, in a Clay-textured Oxisols red eutrophric. The experiment followed a randomized complete block design (RCBD) with four replications, consisting of seven harvesting times (8, 10, 12, 14, 16, 18 and 20 months after planting) for each agricultural year. The table cassava cultivars used were: Catarina Amarela, Catarina Branca, Mato Grosso, Pretona, IAPAR 19-Pioneira and IAC 576-70. The following agronomic characteristics were evaluated: number of roots per plant, length, diameter and yield of tuberous roots, as well as the following post-harvest characteristics: net yield and peeling time per kg of each cassava genotype. The cultivars, harvesting time and agricultural year affected the yield and post-harvest characteristics. �??IAPAR 19-Pioneira�?? presented a larger number of roots per plant (9.9) and peeling time (224.8 seconds.kg-1), but lower yield % (66.2%) and diameter of tuberous roots (4.0 cm), regardless of harvest time and year of planting. 'Catarina Amarela', 'Catarina Branca', 'IAC 576-70' and 'Pretona' provided higher yields, diameters and reduced peeling times. The root mean diameter is one of the characteristics that can be used as a selection criterion in a table cassava genetic breeding program: the larger the root mean diameter the larger are tuber root yield and percentage of weight of the tradable part of the roots, and the lower is the time of peeling.

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Author Biographies

Lilian Azevedo Miranda, Universidade Estadual de Londrina

Departamento de Ciência e Tecnologia de Alimentos

Wilma Aparecida Spinosa, Universidade Estadual de Londrina

Departamento de Ciência e Tecnologia de Alimentos

Tainá Miranda Destro, Universidade Estadual de Londrina

Departamento de Ciência e Tecnologia de Alimentos

Helio de Souza Junior, Universidade Norte do Paraná

Setor de Agronomia

Vagner Nascimento, Universidade Estadual Paulista

Centro de Ciências Agrárias

References

Albuquerque JA, Sediyama T, Silva AA, Sediyama CS, Alves JMA and Neto F (2009) Caracterização morfológica e agronômica de clones de mandioca cultivados no Estado de Roraima. Revista Brasileira de Ciências Agrárias 4 (4):388-394.

Benesi IRM, Labuschagne MT, Herselman L, Mahungu NM and Saka JK (2008) The effect of genotype, location and season on cassava starch extraction. Euphytica 160: 59-74.

Bernardes M, Peixoto CV and Câmara GMS (2009) Mandioca. Departamento de Produção Vegetal. ESALQ, Piracicaba.

Borges MF, Fukuda WM and Rossetti AG (2002) Avaliação de variedades de mandioca para consumo humano. Pesquisa Agropecuária Brasileira (37):1559-1565.

Carvalho V D, Chagas SJR and Botrel N (1993) Produtividade e qualidade de raízes em diferentes épocas de colheita de variedades de mandioca. Revista Brasileira de Mandioca 12 (1/2):49-58.

Companhia Nacional de Abastecimento (CONAB) (2016) Conjuntura trimestral: Mandioca. http://www.conab.gov.br/OlalaCMS/uploads/arquivos/16_07_26_17_19_26_mandioca_-_jun _2016_-_sureg_pe.pdf. Acessado 14 jan. 2017.

Cruz CD (1998) Programa Genes - Aplicativo Computacional em Estatística Aplicada à Genética. Genetics and Molecular Biology 21: 135-138.

Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) (2013) Sistema brasileiro de classificação de solos. 3.ed. Embrapa, Brasília, 356p.

FAO (2013) Cassava: a guide for sustainable production intensification. http://www.fao.org/3/a-i3278e.pdf. Acessado 10 abr. 2017.

FAO (2015). Agriculture. Statistics division. http://apps.fao.org. Acessado 22 mar. 2016.

Felipe FA (2018). Os desafios na cadeia produtiva da mandioca no Brasil. https://www.cepea.esalq.usp.br/br/opiniao-cepea/os-desafios-na-cadeia-produtiva-da-mandioca-no-brasil.aspx. Acessado 22 mar. 2019.

Fialho JF, Vieira EA, Silva MS, Campelo JNL, Paula GF, Oliveira L, Costa MS and Dutra NJ (2007) Influência da época de colheita na produtividade e no tempo de cocção de raízes de variedades de mandioca de mesa no município de Gama-DF. Revista Raízes e Amidos Tropicais 3.

Franck H, Mestres C, Noël A, Brigitte P, Joseph HD, Cornet D and Mathurin NC (2011) Effects of cultivar and harvesting conditions (age, season) on the texture and taste of boiled cassava root. Food Chemistry (126):127-133.

Instituto Agronômico do Paraná (Iapar) (1992) Iapar - 20 Anos: Cultivares para o Paraná. Iapar, Londrina, Paraná, Brazil.

Lancaster PA and Brooks JE (1983) Cassava Leaves as Human Food. Economic Botany 37(3):331-348.

Lorenzi JO, Valle TL, Monteiro DA, Peressin VA and Kanthack RAD (1996) Variedades de mandioca para o estado de São Paulo. Boletim Técnico Inst. Agron. 162, 20p.

Lorenzi JO (2003) Mandioca. CATI, Campinas, Boletim Técnico, 245, 110p.

Lorenzi JO and Valle TL (2002) IAC 576 �?? A variedade de mandioca de mesa mais cultivada no Estado de São Paulo. Instituto Agronômico, Campinas, 4p.

Moura GM (1998) Avaliação de cultivares de mandioca em diferentes épocas de colheita, no Estado do Acre. Revista Brasileira de Mandioca 17 (1/2):13-23.

Prakash A (2018) Cassava market developments and outlook FAO. Food Outlook - Biannual Report on Global Food Markets, Rome, 16-24.

Salcedo A and Siritunga D (2011) Insights into the physiological, biochemical and molecular basis of postharvest deterioration in cassava (Manihot esculenta) Roots. American Journal of Experimental Agriculture 1:414�??431.

SAS (1996) Statystical Analysis System for Windows - 6,12, Institute, Inc, Cary, NC.

Statistica (1998) Statistica for Windows - 5,0, Copyright by StatSoft, Inc.

Steel RGD and Torrie JH (1980) Principies and procedures of statistics, 2nd ed. McGraw Hill, New York.

Takahashi M and Gonçalo S (2005) A cultura da mandioca. 2. ed. Olímpica, Paranavaí, 116p.

Valle TL, Carvalho CR, Ramos MTB and Mühlen OVV (2004) Conteúdo cianogênico em progênies de mandioca originadas do cruzamento de variedades mansas e bravas. Bragantia (63):221-226.

Williams CN (1974) Growth and productivity of tapioca (Manihot utilissima): IV. development and yield of tubers. Experimental Agriculture (10):9-16.

Zhu W, Lestander TA, Orberg H, Wei M, Hedman B, Ren J, Xie G and Xiong S (2015). Cassava stems: a new resource to increase food and fuel production. GCB Bioenergy (7): 72�??83.

Published
2019-12-15
How to Cite
Azevedo Miranda, L., Aparecida Spinosa, W., Miranda Destro, T., de Souza Junior, H., & Nascimento, V. (2019). Influence of harvest time and agricultural year in yield components of table cassava cultivars. Agronomy Science and Biotechnology, 5(2), 77. https://doi.org/10.33158/ASB.2019v5i2p77
Section
Article

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