@skuastkashmir.ac.in
Assistant Professor Cum Junior Scientist/Faculty of Agriculture
SKUAST Kashmir
Micro and macro fungal diversity, Biocontrol, Pulse pathology
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Zakir Amin, Parveez Ahmad Sheikh, Ishrat Jan, Baby Summuna, Alamgir Ahmad Dar, Fazil Fayaz Wani, and Zahoor Ahmad Bhat
Wiley
AbstractThis study aimed to investigate the dissipation pattern, risk assessment, and waiting period of myclobutanil on apple fruit (Malus domestica Borkh.) under temperate conditions in Kashmir, India. The study involved the application of myclobutanil 10 WP at a single recommended dosage (125 g a.i. ha−1) and double dosage (250 g a.i. ha−1) on Red Velox apple trees, 2 months before harvest. GC equipped with an electron capture detector was used to analyze myclobutanil residues in fruit samples. The study revealed that myclobutanil, at both recommended and double recommended doses, dissipated rapidly and became nondetectable after 55 and 60 days, respectively. The waiting period for myclobutanil application was determined to be 12.41 days for the single dose and 25.58 days for the double dose, respectively. These waiting periods were based on the maximum residue limit of 0.6 ppm as prescribed by the Codex Alimentarius Commission, Food Safety and Standards Authority of India, and European Commission. The study concludes that myclobutanil 10 WP is safe for consumers at both recommended and double recommended doses when applied 2 months before harvest. Risk assessment, considering the average daily apple consumption in India and theoretical maximum residue contributions (TMRCs), indicates negligible health hazards even at double the recommended dosage. The calculated TMRC values at Day 0 were significantly below the maximum permissible intake. For average and maximum myclobutanil residues at single and double doses, the TMRC values were found to be 0.0069 and 0.0070 mg day−1 person−1 and 0.0105 and 0.0106 mg day−1 person−1, respectively. These results indicate that myclobutanil, when used according to recommended dosages and waiting periods, poses minimal health risks to consumers. The study emphasizes the importance of prudent fungicide use to minimize fungicide residues on fruits, thereby ensuring their safety for consumption.
Zakir Amin, Parveez Ahmad Sheikh, Ishrat Jan, Baby Summuna, and Fayaz Ahmad Mohiddin
Wiley
AbstractApple, a major fruit of temperate Himalayas, is sprayed with chemical pesticides around 12 times during the cropping season. Various systemic and contact fungicides are applied for the management of major diseases. In order to manage disease, flusilazole 40 EC is frequently used. However, excessive chemical application has been found to be detrimental for consumer safety. Keeping in view consumer safety, risk assessment, the half‐life and waiting period for flusilazole 40 EC were evaluated on the Red Velox variety of apple. The QuEChERS (quick, easy, cheap, effective, rugged and safe) method and high‐performance liquid chromatography were adapted for sample processing and analysis, respectively. The recovery percentages of flusilazole at three fortification levels (0.04, 0.09 and 0.50 mg kg−1) were 98.85, 99.83 and 98.98%, respectively. Flusilazole at the recommended dose (80 g a.i. ha−1) left an initial deposit of 0.733 mg kg−1, which dissipated by 93.45% in 60 days and was non‐detectable beyond this period. Meanwhile flusilazole at double the recommended dose (160 g a.i. ha−1) left an initial deposit of 0.913 mg kg−1, which dissipated by 93.43% in 70 days and was non‐detectable beyond this period. Based on the maximum residue limit of 0.3 mg kg−1 as prescribed by the Codex Alimentarius Commission, a waiting period of 28.74 and 46.03 days was recorded for single and double doses, respectively. Moreover, in order to assess the consumer risk, theoretical maximum residue contributions (TMRCs) were derived using flusilazole residues (average and maximum) recorded at various time intervals and compared with the maximum permissible intake, which was found to be 0.42 mg per person per day. Based on the average per capita daily consumption of 6.76 g apple in India, the TMRC values were computed. Although the values of TMRC decreased below maximum permissible intake at the first day after application, indicating minimal consumer health risks, fruits sprayed with a double dose of flusilazole carried the risk even up to the tenth day after flusilazole application. The results of the present study will be valuable for safe and timely use of flusilazole on apple.
Saima Gani, Asha Nabi, Parvaze A. Sofi, Tariq. R. Rather, Baby Summuna, Fehim. Jeelani Wani, Mehraj. D. Shah, Bilal A. Padder, Tahir Sheikh, Reyazul Rouf Mir,et al.
Springer Science and Business Media LLC
Bushra Rasool, Baby Summuna, Ivica Djalovic, Tariq Ahmad Shah, Parveez Ahmed Sheikh, Sachin Gupta, Sandhya Tyagi, Sierra Bilal, Rajeev Kumar Varshney, Ishfaq Abidi,et al.
Scientific Societies
Fusarium wilt (FW) caused by Fusarium oxysporum f. sp. ciceri is a devastating disease of chickpea ( Cicer arietinum). To identify promising resistant genotypes and genomic loci for FW resistance, a core set of 179 genotypes of chickpea was tested for FW reactions at the seedling and reproductive stages under field conditions and controlled conditions in the greenhouse. Our results revealed that at the seedling stage, most of the genotypes were resistant, whereas at the reproductive stage, most of the genotypes were susceptible. Genotyping using a 50K Axiom® CicerSNP Array and trait data of FW together led to the identification of 26 significant ( P ≤ E-05) marker-trait associations (MTAs) for FW resistance. Among the 26 MTAs, 12 were identified using trait data recorded in the field (three at the seedling and nine at the reproductive stage), and 14 were identified using trait data recorded under controlled conditions in the greenhouse (six at the seedling and eight at the reproductive stage). The phenotypic variation explained by these MTAs varied from 11.75 to 15.86%, with an average of 13.77%. Five MTAs were classified as major, explaining more than 15% of the phenotypic variation for FW, and two were declared stable, being identified in two environments. One of the promising stable and major MTAs (Affx_123280060) detected in field conditions at the reproductive stage was also detected in greenhouse conditions at the seedling and reproductive stages. The stable and major (>15% PVE) MTAs can be used in chickpea breeding programs.
Sudheer Kumar Annepu, Ved Prakash Sharma, Anupam Barh, Shwet Kamal, Mahantesh Shirur, Satish Kumar, Rakesh Kumar Bairwa, Sachin Gupta, Moni Gupta, Upma Dutta,et al.
MDPI AG
Mushroom production in India has registered a considerable growth in the recent times. However, cultivation of shiitake mushroom, which represents a major share at a global level, is still at a primitive stage in the Indian subcontinent. The scarcity of raw materials and the cost of energy for substrate sterilization are the major hurdles for a large-scale production. The present study delves into the possibility of growing shiitake mushroom on lignocellulosic biomass (saw dust and wheat straw) processed with different heat treatments to develop a cost-effective production technology. Six different strains of shiitake mushroom, viz., DMRO-35, 51, 297, 388s, 410, 412, were used in this study. The substrates were exposed to a pasteurization temperature of 80 ± 5 °C in a bulk pasteurization chamber for three different times (H1–H3) and also to a high-pressure sterilization (H4) in an autoclave. DMRO-388s was found to be the most productive strain, irrespective of the substrate and heat treatment method used. Significant differences were observed in the biological yield depending on the type of substrate and heat treatment. Changes in the biochemical composition of the lignocellulosic residues in three different stages, viz., pre heat treatment, inoculation and primordial formation stages, were recorded. Changes in heat treatment levels and duration significantly altered the cellulose/lignin ratio of the growing substrate. High-pressure sterilization aided the rapid degradation of lignin in the substrate and increased its bioavailability, thereby facilitating the fungus achieving its potential yield. A significant correlation in the positive direction between the yield levels of the tested strains and the consumption of lignin in the growing substrate was found, suggesting the significance of pre heat treatment for the bioconversion of lignin and its subsequent utilization in the solid-state fermentation process. The substrate pre heat treatment under high-pressure sterilization was proved to be beneficial to obtain the maximum yields of shiitake mushroom.
Zainab Latif, Javeria Shafique, Baby Summuna, Bashir Lone, Munib ur Rehman, Mohamed A. El-Sheikh, Maha J. Hashim, Carmen Vladulescu, and Tahira Shafique
Elsevier BV
Zahid Nabi Sheikh, Vikas Sharma, Rafiq Ahmad Shah, Neha Sharma, Baby Summuna, Fahad A. Al-Misned, Hamed A. El- Serehy, and Javid I. Mir
Elsevier BV
Baby Summuna, Sachin Gupta, and Moni Gupta
Wiley
Baby Summuna, P. A. Sheikh, Sachin Gupta, Waseem Ali Dar, and G. H. Dar
Springer Science and Business Media LLC
Sachin Gupta, Baby Summuna, Moni Gupta, and Sudheer K. Annepu
Springer International Publishing
Baby Summuna, Sachin Gupta, and Moni Gupta
IGI Global
Potato production is seriously compromised due to prevalence of a number of diseases and they are the major constraints in potato production resulting in significant yield reduction. Integrated disease management of potato includes regular inspection for healthy seed or nursery, crop production, correct identification of the problem, cultural practices (crop rotation, sanitation etc.), biological control, soil fumigation (if necessary), seed or nursery stock treatment and disinfestations of cutting tools. Due to the ever increasing number of new fungicide resistant fungal pathogens, proper and timely diagnosis of potato diseases is becoming paramount to effective disease management, and growers need up-to-date information to help make important decisions on optimal use and timing of pesticides and other control options.