Late Blight of Potato (Phytophthora infestans) I: Fungicides Application and Associated Challenges

Majeed, Abdul; Muhammad, Zahir; Ullah, Zabeeh; Ullah, Rafi; Ahmad, Habib

doi:10.24925/turjaf.v5i3.261-266.1038

Cited by 37 publications

(31 citation statements)

References 28 publications

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“…In general, protectant fungicides application on potato foliage are made after 30 days of planting with additional successive applications every 7-10 days. Applications of systemic fungicides are made beginning 60 days after planting with up to 3 applications at 10 day intervals [39]. Nevertheless, it is also important to consider that late blight control should be based on an Integrated Disease Management (IDM) strategy, which in many opportunities is not the case for potato Colombian farmers.…”

Section: Discussionmentioning

confidence: 99%

Evaluating Late Blight Severity in Potato Crops Using Unmanned Aerial Vehicles and Machine Learning Algorithms

et al. 2018

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This work presents quantitative prediction of severity of the disease caused by Phytophthora infestans in potato crops using machine learning algorithms such as multilayer perceptron, deep learning convolutional neural networks, support vector regression, and random forests. The machine learning algorithms are trained using datasets extracted from multispectral data captured at the canopy level with an unmanned aerial vehicle, carrying an inexpensive digital camera. The results indicate that deep learning convolutional neural networks, random forests and multilayer perceptron using band differences can predict the level of Phytophthora infestans affectation on potato crops with acceptable accuracy.

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Section: Discussionmentioning

confidence: 99%

Evaluating Late Blight Severity in Potato Crops Using Unmanned Aerial Vehicles and Machine Learning Algorithms

et al. 2018

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“…The uncontrolled use of fungicide doses and application may trigger an emergence of fungicideresistant P. infestans, and even more pathogenic that potentially spread out by emergence of heterothallic traits (Leesutthiphonchai et al, 2018;Majeed et al, 2017). It leads potato farmers to apply higher doses of fungicides to kill P. infestans.…”

Section: Introductionmentioning

confidence: 99%

Indigenous Trichoderma harzianum as Biocontrol toward Blight Late Disease and Biomodulator in Potato Plant Productivity

et al. 2021

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Indigenous Trichoderma has widely used in late-blight epidemic areas in Magelang, Indonesia as biocontrol and biomodulator. But it application still lacks of scientific proof, even though it is potently to be developed. Therefore, this study aims to identify and evaluate indigenous Trichoderma application in eradicating late blight and increase productivity. This research was an experimental posttest-only using six experimental plots, with P0 plot with no treatment. The solution was made by dissolve indigenous Trichoderma solid-starter into water (m/v), then used for treatment. The treatment plots including: two groups of sprayed-only plots with doses of 100 g/ 10 L of solution for P1 and 150 g/ 10 L of solution for P2; and two group treated with sprayed-poured method using doses of 100 g/ 10 L of solution for P3 and 150 g/ 10 L of solution for P4. The positive control group was P5 group, treated using chemical pesticides and tuber booster. The microscopic identification revealed that the local bioagent was Trichoderma harzianum species. Application of T. harzianum in P4 was significantly increased the productivity. However, it was not effective in increasing growth, but able to reduce the intensity of late blight disease. The research revealed that native Trichoderma is able to be used as anti-infectious agent and potentially improve the quality of potato plants. In the future, this research may worthwhile for farmers to develop and produce trustworthy and proven Trichoderma-based biocontrol and help them increase the potato production economically.

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“…In Tanzania and Morogoro, studies have shown that yield loss of tomato as a result of late blight disease infection is estimated to be up to 46% [5] while in Cameroon mean yield loss attributable to late blight damage is estimated to be as high as 100% [6]. In the world, late blight is one of the most devastating tomato disease which requires high chemical input for disease control [7]. Upon infection, most infected seedlings die and those that survive are stunted, have yellowish leaves and do not flower.…”

Section: Introductionmentioning

confidence: 99%

Rhizopus spp Promoting and Inducing Late Blight (Phytophthora infestans) Resistance in Solanum lycopersicum L.

Agbor

Fotso

Djueani

et al. 2021

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Tomato (Solanum lycopersicum L) which is highly consumed by humans, suffer severe attacks of various pathogens. Among these pathogens, Phytophthora infestans is the most prominent causing a devastating tomato disease called late blight. This study was aimed at evaluating the protective effects of Rhizopus spp on tomato plant growth upon infection with P. infestans. The work was partition into two phases: phase 1 delt with the effect of Rhizopus spp on tomato growth parameters while phase 2 was on the protective effects of Rhizopus spp against late blight in tomato and its attributes on biochemical parameters. In phase 1 seedlings were raised and divided into five groups of six plants each. Group I was the control while Groups II to V were treated with Rhizopus spp (2.5; 5.0; 7.5 and 10.0 mg/ml respectively) for 25 days. After every 5 days’ plants were treated and on each day of treatment, growth parameters (number of leaves and height) and chlorophyll contents measured. On day 25, samples were collected for biochemical analysis (flavonoids, phenolic content, total protein, vitamin C, catalase (CAT), reduced glutathione (GSH)). In phase 2, Rhizopus at 5 mg/ml obtained as best results in phase one was used. Raised seedlings were divided into four groups: Group 1 was healthy (H), Group 2 of plants infected with P. infestans (50 mg/ml) (I), Group 3 of plants stimulated with Rhizopus spp (5.0 mg/ml) (St), and Group 4 of plants inoculated with P. infestans after stimulation with Rhizopus spp (St + I) for 7days. Every two days, diseases incidence and severity were recorded and after 10th days samples were collected for biochemical (total protein, CAT and GSH) analysis. As results, Rhizopus spp inoculation induced an increase in the number of leaves, plant height and chlorophyll contents compared to the control group with plants of group II (Rhizopus spp 5.0 mg/ml) having the best result. A significant increase (p< 0.05) in flavonoid, phenolic content, reduced glutathione level and catalase activity were recorded. Another significant increase (p< 0.05) in disease incidence and severity in plants treated with the pathogen when compared to the control. Co-inoculation of plants with Rhizopus spp and P. infestans significantly decreased disease incidence and severity. Also a significant decrease in GSH level and CAT activity were noticed. Co-inoculation of plants with Rhizopus spp and P. infestans significantly increased (p< 0.05) GSH level and CAT activity when compared to the control group. In conclusion Rhizopus spp instigate plant growth and induce disease resistance in tomato upon infection with P. infestans causing late blight.

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Late Blight of Potato (Phytophthora infestans) I: Fungicides Application and Associated Challenges

Cited by 37 publications

References 28 publications

Evaluating Late Blight Severity in Potato Crops Using Unmanned Aerial Vehicles and Machine Learning Algorithms

Evaluating Late Blight Severity in Potato Crops Using Unmanned Aerial Vehicles and Machine Learning Algorithms

Indigenous Trichoderma harzianum as Biocontrol toward Blight Late Disease and Biomodulator in Potato Plant Productivity

Rhizopus spp Promoting and Inducing Late Blight (Phytophthora infestans) Resistance in Solanum lycopersicum L.

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