RESUMO -Objetivou-se com este trabalho avaliar a interação entre o tamanho do vaso de cultivo e doses de glyphosate no crescimento, na fisiologia e na eficácia de controle de Brachiaria decumbens. A semeadura foi feita em vasos contendo 2, 5, 10 e 20 L de substrato, mantidos em casa de vegetação. Entre os 41 e 63 dias após a emergência (DAE), avaliou-se o crescimento de B. decumbens. Aos 64 DAE, fez-se a aplicação do glyphosate nas doses de 0,0, 0,8, 1,6 e 3,2 kg ha -1 de equivalente ácido. Foram avaliadas as trocas gasosas e a fluorescência da clorofila a, aos dois dias após a aplicação (DAA), bem como a eficácia de controle, aos 7, 14, 21 e 28 DAA, sendo nesta última avaliação determinada ainda a matéria seca da parte aérea. Por fim, aferiu-se ainda a capacidade de rebrota de B. decunbens aos 28 dias após o corte. O crescimento de B. decumbens aumentou linearmente com o aumento do tamanho do vaso. As trocas gasosas e os parâmetros de fluorescência foram afetados pelas doses de glyphosate, mas não pela variação do tamanho do vaso. Não houve interação significativa entre doses e tamanhos de vasos sobre a eficácia de controle, porém essa variável aumentou consideravelmente com o aumento da dose e, discretamente, com o aumento do tamanho de vaso, sobretudo nas avaliações até os 14 DAA. A matéria seca da parte área aos 28 DAA e de rebrota foi dependente da interação entre tamanho do vaso e dose de glyphosate. O tamanho do vaso deve ser escolhido com critério para ensaios de eficácia de controle de B. decumbens com herbicida sistêmico. Palavras-chave:Brachiaria decumbens, fotossíntese, herbicida, plantas daninhas, restrição radicular. ABSTRACT -
Coffee trading is an important source of income for the Brazilian commercial balance. Chlorophyll (Chl) are pigments responsible for converting radiation into energy; these pigments are closely related to the photosynthetic efficiency of plants, and the evaluation of the nutritional status of the coffee tree. The inversion method can be used for estimating the canopy chlorophyll content (Chlcanopy) using the leaf chlorophyll content (Chlleaf) and the leaf area index (LAI). The application of vegetation indices (VIs) in high spatial resolution images obtained from remotely piloted aircraft (RPA) can assist in the characterization of Chlcanopy in addition to providing vital and fast information for monitoring crops and aiding decision-making. This study aimed to identify which VIs adequately explain the Chl and evaluate the relationships between the VIs obtained from remotely piloted aircraft (RPA) images and the Chlleaf and Chlcanopy in coffee plants during the wet and dry seasons. The experiment was conducted on a Coffea arabica L. plantation in Lavras, Minas Gerais, Brazil. Images were collected on 26 November 2019 (wet), 11 August 2020 (dry), and 26 August 2021 (dry) by a multispectral camera embedded in a quadcopter. Plant height (H), crow diameter (D), and Chlleaf (a, b and total) data were collected in the field by a metre ruler (H and D) and sensor (Chlleaf). The LAI was calculated based on H and D. The Chlcanopy (a, b, and total) was calculated based on Chlleaf and LAI. The image processing was performed in Pix4D software, and postprocessing and calculation of the 21 VIs were performed in QGIS. Statistical analyses (descriptive, statistical tests, Pearson correlation, residuals calculation, and linear regression) were performed using the software R. The VIs from the RPA that best correlates to Chlcanopy in the wet season were the Modified Chlorophyll Absorption Ratio Index 2 (MCARI2RPA), Modified Simple Ratio (MSRRPA) and Simple Ratio (SRRPA). These VIs had high sensitivity and, therefore, were more affected by chlorophyll variability. For the two dry season studied days, there were no patterns in the relationships between Chlleaf, Chlcanopy, and the VIs. It was possible to use the Chl inversion method for the coffee during the wet season.
The goal of this study was to analyze the response of Arabica coffee cultivars grown under three levels of Bidens pilosa (beggarticks) interference. At 30 days after transplanting (DAT) of 14 Arabica coffee cultivars into 11 L pots, beggarticks was seeded in the pots and soon after emergence, three levels of weed infestation were established: none, low (two plants per pot), and high (five plants per pot). Treatments were arranged in a 14 × 3 factorial scheme under a completely randomized design, with four replicates. Coffee plant growth was evaluated at both weed emergence and blossoming (90 DAT) when the experiment was completed. Regardless beggarticks infestation levels, significant effects of cultivars occurred on almost all the coffee growth variables. Specifically, the Arabica coffee cultivars Arara, Asa Branca, and Bourbon Amarelo exhibited greater values for root, leaf, shoot, and whole plant dry matter when compared with the other cultivars. The Arabica coffee cultivars presented lower leaf area increments, and also lower leaf, shoot, and whole plant dry matter accumulation when grown under either low or high infestation levels (between which there were no statistical differences, p>0.05) in comparison with that under the weed-free treatment. However, there were no significant interactions between Arabica coffee cultivars and weed infestation levels for those crop growth variables. We conclude that all Arabica coffee cultivars tested were equally susceptible to B. pilosa competition in this phase of crop implantation.
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