Genetic composition and diversity of Arabica coffee in the crop’s centre of origin and its impact on four major fungal diseases

Zewdie, Beyene; Bawin, Yves; Tack, Ayco J. M.; Nemomissa, Sileshi; Tesfaye, Kassahun; Janssens, Steven; Glabeke, Sabine Van; Roldán‐Ruiz, Isabel; Ruttink, Tom; Honnay, Olivier; Hylander, Kristoffer

doi:10.1111/mec.16458

Cited by 6 publications

(7 citation statements)

References 148 publications

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“…However, a recent study in our region did not find an effect of genetic diversity on coffee diseases (Zewdie et al, 2023).…”

Section: (D)contrasting

confidence: 80%

“…While these cultivars were selected for resistance to coffee berry disease caused by Colletotrichum kahawae , and are not known (nor believed) to be more susceptible to insect pests, the genetic uniformity in the plantation system may favour the adaptation of insects to the crop. However, a recent study in our region did not find an effect of genetic diversity on coffee diseases (Zewdie et al, 2023).…”

Section: Discussioncontrasting

confidence: 56%

See 1 more Smart Citation

Management intensity affects insect pests and natural pest control on Arabica coffee in its native range

Shimales

Mendesil

Zewdie

et al. 2023

Journal of Applied Ecology

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“…However, a recent study in our region did not find an effect of genetic diversity on coffee diseases (Zewdie et al, 2023).…”

Section: (D)contrasting

confidence: 80%

Section: Discussioncontrasting

confidence: 56%

Management intensity affects insect pests and natural pest control on Arabica coffee in its native range

Shimales

Mendesil

Zewdie

et al. 2023

Journal of Applied Ecology

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“…Population genetics predicts that diseases should be less frequent in populations of hosts with higher levels of genetic diversity. Genotyping‐by‐sequencing in Arabica coffee sites in southwestern Ethiopia showed that genetic diversity in coffee trees was higher in less managed sites and the incidence of four major fungal diseases was related to the genetic composition of the coffee stands (Zewdie et al, 2023). Genetic diversity in coffee trees was also related to the within‐site variation of coffee berry disease, but not to the mean incidence of any of the four studied diseases across sites (Zewdie et al, 2023).…”

Section: Fungal Crop Pathogensmentioning

confidence: 99%

Evolutionary ecology of human‐associated microbes

et al. 2023

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“…These 21 papers focus on various types of microbial diversity, including domesticates, pathogens, and host‐associated microbiota, using a range of methodologies including population and evolutionary genomics, metagenomics, and field and laboratory experiments. As a whole, the papers address a few main subjects: domesticated microorganisms and microorganisms thriving in anthropogenic environments (Harrouard et al., 2023; Silva et al., 2023; von Gastrow et al., 2023), fungal pathogens (Ali et al., 2023; Louet et al., 2023; Rogério et al., 2023; Saubin et al., 2023; Stalder et al., 2023; Wang et al., 2023; Zewdie et al., 2023), metagenomics and microbiomes of animals and human (Bischofberger & Hall, 2023; Corsi et al., 2023; Mac Alpine et al., 2023; Moeller, 2023; Pedro et al., 2023; Peimbert & Alcaraz, 2023; Tessandier et al., 2023; Yuan et al., 2023), and metagenomics and microbiomes of crops (Gao et al., 2023; Richard et al., 2023). Collectively the articles in this Special Issue ‘underline the huge impact of the anthropogenic environment in microbial evolution, including the emergence and spread of pathogens as well as the benefits provided by domesticated or mutualistic fungi and bacteria’ (Giraud et al., 2023).…”

Section: Highlights Of 2023mentioning

confidence: 99%

“…Rogério et al, 2023;Saubin et al, 2023;Stalder et al, 2023;Wang et al, 2023;Zewdie et al, 2023), metagenomics and microbiomes of animals and human(Bischofberger & Hall, 2023;Corsi et al, 2023;Mac Alpine et al, 2023;Moeller, 2023;Pedro et al, 2023;Peimbert & Alcaraz, 2023;Tessandier et al, 2023;Yuan et al, 2023), and metagenomics and microbiomes of crops(Gao et al, 2023;Richard et al, 2023). Collectively the articles in this Special Issue 'underline the huge impact of the anthropogenic environment in microbial evolution, including the emergence and spread of pathogens as well as the benefits provided by domesticated or mutualistic fungi and bacteria'(Giraud et al, 2023).Finally, our third Special Issue, Insights into Ecological & Evolutionary Processes via Community Metabarcoding includes 'papers that highlight the power of high-throughput sequencing (HTS) data to address classic questions in ecology and evolution, particularly focused on metabarcoding (amplicon) datasets in conjunction with complementary -omics data types and/or models/theory to infer overall ecosystem processes'(Gillespie et al, 2023).…”

mentioning

confidence: 99%

Editorial 2024

Rieseberg,

Warschefsky,

Burton

et al. 2023

Molecular Ecology

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Molecular Ecology (MEC) continues to be one of the largest and most influential journals in the fields of ecology and evolution. In 2022, a total of 434 citable items were published in the journal, ranking third out of 53 journals in Clarivate's list of Evolutionary Biology journals and sixth of 171 Ecology journals. A similar pattern is seen for total citations, where MEC was cited 40,823 times (third in Evolutionary Biology and fourth in Ecology). Additional metrics include journal impact factor (4.9; eighth in Evolutionary Biology) and EigenFactor (0.030, fifth in Evolutionary Biology). The latter metric measures the number of times articles from the journal published in the past five years have been cited in the focal year. Google Scholar's h5-index, which is the h-index for articles published over the past five years, offers a longer term measure of journal influence. Molecular Ecology has an h5-index of 72, which ranks fourth among ecology journals. Lastly, journal downloads demonstrate wide interest in research published in MEC, reaching close to 1.9 million in 2021 and 2022. | EDITORIAL ANNOUN CEMENTS | Minimum standards for data and code in ecology and evolution journalsMolecular Ecology was among the first journals in ecology and evolution to require that data supporting the results of published papers be archived in an appropriate public archive (Rieseberg et al., 2010). Over the years, we expanded the policy to include code, programming scripts, and software, as well as detailed metadata. Earlier this year, members of the MEC and Molecular Ecology Resources (MER) Editorial Board (along with editors from other journals) contributed to an article in Ecology and Evolution that established minimum standards for data and code in ecology and evolution journals (Jenkins et al., 2023). While the recommendations largely reinforce what we are already doing, the article provides a description of best practices for archiving of data, metadata, programming scripts, and software, such that analyses published in a given study can be fully replicated. We will be linking the recommendation to our author guidelines. We also will be transitioning to requiring data and code be made available to editors and reviewers during peer review.

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Genetic composition and diversity of Arabica coffee in the crop’s centre of origin and its impact on four major fungal diseases

Cited by 6 publications

References 148 publications

Management intensity affects insect pests and natural pest control on Arabica coffee in its native range

Management intensity affects insect pests and natural pest control on Arabica coffee in its native range

Evolutionary ecology of human‐associated microbes

Editorial 2024

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