Your search keyword '"Qi-Jun Sui"' showing total 4 results

1. Genome-wide association analysis for late blight resistance of potato resources

Author

Zhe-Chao Pan, Wei Jiang, Fu-Xian Zhou, Bao Lixian, Yan-Shan Li, Xian-Ping Li, and Qi-Jun Sui

Subjects

Genetics, Resistance (ecology), Genome-Wide Association Analysis, Blight, Plant Science, Biology, Agronomy and Crop Science, Biotechnology

Published

2020

2. Cross-resistance of the pathogenic fungus Alternaria alternata to fungicides with different modes of action

Author

Wen Zhu, Zhe-Chao Pan, Jiasui Zhan, Qi-Jun Sui, Li-Ping Shang, Li-Na Yang, Hai-Bing Ouyang, and Meng-Han He

Subjects

Microbiology (medical), China, lcsh:QR1-502, Microbiology, Alternaria alternata, Fitness penalty, lcsh:Microbiology, Toxicology, 03 medical and health sciences, Resistance mechanism, Drug Resistance, Fungal, Mancozeb, Mode of action, Pathogen, Cross-resistance, Plant Diseases, Solanum tuberosum, Zineb, 0303 health sciences, biology, Detached leaf assay, 030306 microbiology, Alternaria, Dioxolanes, Pathogenic fungus, Triazoles, Antimicrobial, biology.organism_classification, Fungicides, Industrial, Fungicide, Maneb, Cross resistance, Research Article

Abstract

Background Cross-resistance, a phenomenon that a pathogen resists to one antimicrobial compound also resists to one or several other compounds, is one of major threats to human health and sustainable food production. It usually occurs among antimicrobial compounds sharing the mode of action. In this study, we determined the sensitivity profiles of Alternaria alternata, a fungal pathogen which can cause diseases in many crops to two fungicides (mancozeb and difenoconazole) with different mode of action using a large number of isolates (234) collected from seven potato fields across China. Results We found that pathogens could also develop cross resistance to fungicides with different modes of action as indicated by a strong positive correlation between mancozeb and difenoconazole tolerances to A. alternata. We also found a positive association between mancozeb tolerance and aggressiveness of A. alternata, suggesting no fitness penalty of developing mancozeb resistance in the pathogen and hypothesize that mechanisms such as antimicrobial compound efflux and detoxification that limit intercellular accumulation of natural/synthetic chemicals in pathogens might account for the cross-resistance and the positive association between pathogen aggressiveness and mancozeb tolerance. Conclusions The detection of cross-resistance among different classes of fungicides suggests that the mode of action alone may not be an adequate sole criterion to determine what components to use in the mixture and/or rotation of fungicides in agricultural and medical sects. Similarly, the observation of a positive association between the pathogen’s aggressiveness and tolerance to mancozeb suggests that intensive application of site non-specific fungicides might simultaneously lead to reduced fungicide resistance and enhanced ability to cause diseases in pathogen populations, thereby posing a greater threat to agricultural production and human health. In this case, the use of evolutionary principles in closely monitoring populations and the use of appropriate fungicide applications are important for effective use of the fungicides and durable infectious disease management. Electronic supplementary material The online version of this article (10.1186/s12866-019-1574-8) contains supplementary material, which is available to authorized users.

Published

2019

3. Plant diversity ameliorates the evolutionary development of fungicide resistance in an agricultural ecosystem

Author

Jiasui Zhan, Jeremy J. Burdon, Li-Na Yang, Zhe-Chao Pan, Qi-Jun Sui, Ruey-Shyang Chen, Oswald Nkurikiyimfura, Yan-Ping Wang, and Abdul Waheed

Subjects

Experimental evolution, education.field_of_study, Genetic diversity, Natural selection, Ecology, Resistance (ecology), business.industry, Host (biology), Population, Biology, biology.organism_classification, Biotechnology, Fungicide, Microbiology (Microbiology in the medical area to be 30109), Phytophthora infestans, business, education, Agricultural Science

Abstract

1. The evolution of fungicide resistance in agricultural and natural ecosystems is associated with the biology of pathogens, the chemical property and application strategies of the fungicides. The influence of ecological factors such as host diversity on the evolution of fungicide resistance has been largely overlooked but is highly relevant to social and natural sustainability. In this study, we used an experimental evolution approach to understand how host population heterogeneity may affect the evolution of fungicide resistance in the associated pathogens.2. Potato populations with six levels of genetic heterogeneity were grown in the same field and naturally infected by Phytophthora infestans. Pathogen isolates (similar to 1,200) recovered from the field experiment were molecularly genotyped. Genetically distinct isolates were selected from each population and 142 isolates were assayed for their tolerance to two fungicides differing in the mode of action. Tolerance was determined by calculating the relative growth rate of the isolates in the presence and absence of fungicides and the effective concentration for 50% inhibition.3. The evolution of fungicide resistance in P. infestans was affected by the genetic variation of host populations. Higher potato diversification increased the sensitivity of P. infestans to both fungicides and reduced genetic variation of the pathogen available for the development of fungicide resistance. These mitigating effects are independent of biochemical properties of fungicides and are likely caused by host selection for pathogen strains differing in the ability of fungicide influxes, effluxes or detoxification rather than mutations in fungicide target genes.4. Synthesis and applications. The development of fungicide resistance greatly threatens food security and ecological sustainability, and it is urgent need to develop agricultural practices which can ameliorate this problem. Our results show that potato crop with a higher genetic diversity is associated with a late blight pathogen of higher fungicide sensitivity and lower potential of developing fungicide resistance, indicating that agricultural diversification such as through cultivar mixture can reduce the application dose and frequency of fungicides needed to achieve the same level of disease control, which, in turn, further reduce the selection pressure acting on the pathogen populations and the evolutionary risk of developing fungicide resistance in pathogens. Together with benefits documented in other studies, our results indicate that crop diversification is an eco-friendly approach that not only ameliorate fungicide resistance but also help achieve social and ecological sustainability by balancing the interaction among food security, socio-economic development and ecological resilience and should be promoted.

Published

2021

4. Improvements of emergence and tuber yield of potato in a seasonal spring arid region using plastic film mulching only on the ridge

Author

Yan qiong Dai, Qi jun Sui, Wang Ying, Shu min Liang, Fa hai Xu, Xian ping Li, Lei Zhang, Cai Ren, Qiong fen Yang, Yan shan Li, Peng jun Wang, Xing ting Wang, and Kang Zhan

Subjects

0106 biological sciences, geography, Topsoil, geography.geographical_feature_category, biology, Crop yield, Plastic film, Soil Science, Sowing, 04 agricultural and veterinary sciences, biology.organism_classification, 01 natural sciences, Arid, Agronomy, Ridge, Seedling, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Agronomy and Crop Science, Mulch, 010606 plant biology & botany

Abstract

Potato (Solanum tuberosum) is one of the most important economic crops in Yunnan Province (southwest China). However, under rain-fed agricultural conditions, the seeding emergence and yield suffer from seasonal spring drought. In mitigating this problem, field experiments were conducted for 2 years (2015 and 2016) to examine the effectiveness of cultivation patterns for rain-fed potato. Four experiments with different cultivation patterns were carried out: (1) no mulching on ridges and furrows (RFNM-CK), (2) ridge-furrow planting without plastic film mulching after flat planting (RFAF), (3) half mulching only on ridges (RFHM), (4) soil covering after plastic film mulching only on the ridges but not on furrows (RFSM). The temperature of topsoil (0.15 m) was similar among the cultivation patterns. The precipitation and soil conditions were the dominant ecofactors that limited the seedling emergence and yields. RFHM had the best effect on rain harvesting, then improved the topsoil moisture which contributed to good emergence rate and seedling emergence for 14–32 days earlier than CK (P

Published

2018