Control of volunteer soybean in areas cultivated with Crotalaria spectabilis

Authors

DOI:

https://doi.org/10.5965/223811712232023509

Keywords:

Glycine max, herbicides, ALS inhibitors, weeds

Abstract

The presence of volunteer soybean plants in showy crotalaria (Crotalaria spectabilis) crops grown in the second crop has been common, thus necessitating the adoption of strategies for their management. The objective of this work was to evaluate the effectiveness and selectivity of the herbicides pyrithiobac-sodium and ethoxysulfuron applied isolated in post-emergence of showy crotalaria in order to control volunteer soybean. For this purpose, two field experiments were set up, one evaluating the feasibility of using the herbicide pyrithiobac-sodium and the other using ethoxysulfuron. In both experiments, a randomized completely block design was used, with treatments arranged in a 2x4+2 factorial scheme, with four replications. The first factor was allocated to the post-emergence application of herbicides at two distinct phenological stages V3 and 3 true leaves and V7 and 6 true leaves, respectively for soybean and showy crotalaria. In the second factor, increasing doses of herbicides were arranged, using doses 14.0; 22.4; 30.8; and 39.2 g ha-1 for pyrithiobac-sodium, and 18.0; 30.0; 42.0; and 54.0 g ha-1 for ethoxysulfuron. The additional treatments corresponded to an infested check and a weeded check. Visual control evaluations of volunteer soybean were carried out, as well as phytointoxication, stand, height and dry mass of shoots of showy crotalaria plants. According to the results obtained, pyrithiobac-sodium at a dose of 30.8 g ha-1, can be recommended for applications when volunteer soybean plants are in V3 and showy crotalaria plants with 3 true leaves, as well as the herbicide ethoxysulfuron in dose 18 g ha-1, can be recommended for applications when volunteer soybean plants are at V3 or V7 and showy crotalaria plants owns three true leaves. These two herbicides at the respective doses have the potential to be registered for use in areas where showy crotalaria is grown in succession to soybean crop.

Downloads

Download data is not yet available.

References

ASSIS ACDLP et al. 2014. Seletividade do ethoxysulfuron às culturas da soja e feijão. Revista Brasileira de Herbicidas 13: 117-124.

BARBOSA IR et al. 2020. Dry matter production and nitrogen, phosphorus and potassium uptake in Crotalaria juncea and Crotalaria spectabilis. Pesquisa Agropecuária Tropical 50: e61011.

BOCK R et al. 2020. Perdas na colheita mecanizada da soja em função da velocidade de deslocamento e índice de molinete. Brazilian Journal of Development 6: 34707-34724.

BRAZ GBP et al. 2013. Alternativas para o controle de soja RR® voluntária na cultura do algodoeiro. Bioscience Journal 29: 360-369.

BRAZ GBP et al. 2015. Seleção de herbicidas visando ao uso em sistemas cultivados com crotalária. Planta Daninha 33: 521-534.

BRAZ GBP et al. 2016a. Plantas daninhas como hospedeiras alternativas para Pratylenchus brachyurus. Summa Phytopathologica 42: 233-238.

BRAZ GBP et al. 2016b. Selectivity of herbicides applied in post-emergence of showy crotalaria. Revista Caatinga 29: 918-926.

COSTA BS et al. 2020. Manejo de soja voluntária infestante do feijoeiro com o herbicida ethoxysulfuron. Revista Brasileira de Herbicidas 19: 1-6.

CRUZ TT et al. 2020. Crotalaria species in succession to soybean for the management of Pratylenchus brachyurus. Ciência Rural 50: e20190645.

DEBIASI H et al. 2016. Práticas culturais na entressafra da soja para o controle de Pratylenchus brachyurus. Pesquisa Agropecuária Brasileira 51: 1720-1728.

DIAS RC et al. 2017. Seletividade inicial de herbicidas aplicados em pós-emergência da crotalária. Revista Brasileira de Herbicidas 16: 76-83.

GUERRA N et al. 2011. Seleção de espécies bioindicadoras para os herbicidas trifloxysulfuron-sodium e pyrithiobac-sodium. Revista Brasileira de Herbicidas 10: 37-48.

HOLTZ V. et al. 2019. Perdas na colheita mecanizada de soja utilizando diferentes mecanismos na plataforma de corte. PUBVET 13: 1-6

KAJIHARA LH et al. 2021. Ação in vitro e in vivo de fungicida sistêmico e multissítio sobre Phakopsora pachyrhizi. Summa Phytopathologica 47: 216-221.

LEE JD et al. 2015. Reaction of soybean cyst nematode resistant plant introductions to root-knot and reniform nematodes. Plant Breeding and Biotechnology 3: 346-354.

OLIVEIRA RR et al. 2015. First report of sclerotinia blight caused by Sclerotinia sclerotiorum on Crotalaria spectabilis in Brazil. Plant Disease 99: 1037–1037.

PAULA SM et al. 2020. Selectivity of post-emergent herbicides in systems grown with crotalaria. Research, Society and Development 9: 1-18.

RODRIGUES BN & ALMEIDA FS. 2018. Guia de herbicidas. 7.ed. Londrina: Edição dos autores. 764p.

SANTOS HG et al. 2018. Sistema Brasileiro de Classificação de Solos. 5.ed. Rio de Janeiro: Embrapa Solos.

SBCPD. 1995. SOCIEDADE BRASILEIRA DA CIÊNCIA DAS PLANTAS DANINHAS. Procedimentos para instalação, avaliação e análise de experimentos com herbicidas. Londrina: SBCPD. 42p.

SILVA AFM et al. 2020. Herbicide management in glyphosate and sulfonylurea-tolerant soybeans. Arquivos do Instituto Biológico 87: e0372019.

SILVA FAS & AZEVEDO CAV. 2016. The Assistat software version 7.7 and its use in the analysis of experimental data. African Journal of Agricultural Research 11: 3733-3740.

TAKAHASHI GO et al. 2020. Controle de soja voluntária com herbicidas registrados para algodoeiro. Revista Brasileira de Herbicidas 19: 1-8.

Published

2023-08-04

How to Cite

OLIVEIRA, Gustavo de Souza; BRAZ, Guilherme Braga Pereira; ALMEIDA, Dieimisson Paulo; PROCÓPIO, Sergio de Oliveira; FILHO, Silvio Vasconcelos de Paiva; SOUZA, Matheus de Freitas; SIMON, Gustavo André. Control of volunteer soybean in areas cultivated with Crotalaria spectabilis. Revista de Ciências Agroveterinárias, Lages, v. 22, n. 3, p. 509–519, 2023. DOI: 10.5965/223811712232023509. Disponível em: https://periodicos.udesc.br/index.php/agroveterinaria/article/view/23310. Acesso em: 21 nov. 2024.

Issue

Section

Research Note - Science of Plants and Derived Products

Most read articles by the same author(s)