Calcium and potassium contents in nutrient solution on Phoma leaf spot intensity in coffee seedlings

Catarino, Aricléia de Moraes; Pozza, Edson Ampélio; Pozza, Adélia Aziz Alexandre; Santos, Leone Stabile Dias; Vasco, Gabriel Brandão; Souza, Paulo Estevão de

doi:10.1590/0034-737x201663040008

Cited by 7 publications

(3 citation statements)

References 14 publications

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“…In addition to the ionic form, the relationship between the nutrients may affect the susceptibility of coffee plants to diseases. In C. arabica seedlings, the higher K:Ca ratio (6-7 mmol L -1 :2 mmol L -1 ) reduced the incidence of leaf spots caused by Phoma tarda (Catarino et al, 2016).…”

Section: Discussionmentioning

confidence: 97%

Low concentration fertigation solution allows greater macronutrient use efficiency in coffee seedlings

Rosa¹,

Paiva

Coelho

et al. 2021

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Coffee seedling production in cone-shaped containers and substrate results in lower sanitary risk and costs. With the use of small containers and substrates with low fertilizer levels, fertigation is necessary for seedling development. An experiment was carried out with three macronutrient concentrations (electrical conductivities of 1.0, 2.0 and 3.0 dS m -1 ) and a non-fertilized control using Coffea arabica cv. Topázio seedlings in 50 cm 3 cone-shaped containers and composted pine bark-based substrate. The following fertilizers (expressed in g m -3 of water) were used in the nutrient solution with EC of 1.0 dS m -1 : Ca(NO 3 ) 2 (400), KNO 3 (250), MgSO 4 (175), (NH 4 )PO 4 (50) and ConMicros Standard ® (25). In the solutions with 2.0 and 3.0 dS m -1 , macronutrient concentration was doubled and tripled, while micronutrients remained the same. At four months we assessed EC and pH of the solution drained, shoot dry mass, shoot nutrient concentration and accumulation and macronutrient use efficiency. Fertigation with 1.0 and 2.0 dS m -1 produced seedlings with greater mass (+10%) than fertigation with 3.0 dS m -1 , while higher macronutrient supplies increased shoot N, P, K, Mg and S concentration. Fertigation with 2.0 dS m -1 caused greater shoot N, P, K and Ca accumulation and this conductivity also resulted in higher accumulation of B, Fe, Mn and Zn without increasing the micronutrient supply. The response to the increase in Ca in the nutrient solution is evident in the accumulation of this nutrient in the plant but not its concentration, possibly due to the dilution effect. Micronutrient accumulation in this species is also more adequate for determining nutritional status than the concentration in the plant. The least concentrated macronutrient solution increases nutrient use efficiency in C. arabica seedlings as well as being economically and environmentally more sustainable.

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Section: Discussionmentioning

confidence: 97%

Low concentration fertigation solution allows greater macronutrient use efficiency in coffee seedlings

Rosa¹,

Paiva

Coelho

et al. 2021

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“…Of these, only Phoma and Fusarium are known to cause coffee diseases. Phoma causes Phoma leaf spot [32], and Fusarium is the causative agent of coffee wilt [33]. Other important pathogens for coffee, such as Cercospora and Hemileia, were not detected.…”

Section: Discussionmentioning

confidence: 98%

Differences between the Leaf Mycobiome of Coffea arabica and Wild Coffee Species and Their Modulation by Caffeine/Chlorogenic Acid Content

Sousa

Filho²,

Mondego

2021

Microorganisms

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The study of microbes associated with the coffee tree has been gaining strength in recent years. In this work, we compared the leaf mycobiome of the traditional crop Coffea arabica with wild species Coffea racemosa and Coffea stenophylla using ITS sequencing for qualitative information and real-time PCR for quantitative information, seeking to relate the mycobiomes with the content of caffeine and chlorogenic acid in leaves. Dothideomycetes, Wallemiomycetes, and Tremellomycetes are the dominant classes of fungi. The core leaf mycobiome among the three Coffea species is formed by Hannaella, Cladosporium, Cryptococcus, Erythrobasidium, and Alternaria. A network analysis showed that Phoma, an important C. arabica pathogen, is negatively related to six fungal species present in C. racemosa and C. stenophylla and absent in C. arabica. Finally, C. arabica have more than 35 times the concentration of caffeine and 2.5 times the concentration of chlorogenic acid than C. stenophylla and C. racemosa. The relationship between caffeine/chlorogenic acid content, the leaf mycobiome, and genotype pathogen resistance is discussed.

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“…At the beginning, a yellow-brown spot appears as a band, becoming necrotic later with a dark brown shade, a yellow halo limits the necrosis of the edge; this deficiency appears first in the old leaves, finally the edges of the leaves and the tips curl upwards [5] . A total of 96 images were taken and processed with this nutritional deficiency.…”

Section: Data Descriptionmentioning

confidence: 99%

CoLeaf-DB: Peruvian coffee leaf images dataset for coffee leaf nutritional deficiencies detection and classification

2023

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Calcium and potassium contents in nutrient solution on Phoma leaf spot intensity in coffee seedlings

Cited by 7 publications

References 14 publications

Low concentration fertigation solution allows greater macronutrient use efficiency in coffee seedlings

Low concentration fertigation solution allows greater macronutrient use efficiency in coffee seedlings

Differences between the Leaf Mycobiome of Coffea arabica and Wild Coffee Species and Their Modulation by Caffeine/Chlorogenic Acid Content

CoLeaf-DB: Peruvian coffee leaf images dataset for coffee leaf nutritional deficiencies detection and classification

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