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  1. Article: Analysis of

    Poveda, Jorge

    Frontiers in plant science

    2024  Volume 15, Page(s) 1301816

    Abstract: Marchantia ... ...

    Abstract Marchantia polymorpha
    Language English
    Publishing date 2024-02-07
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2613694-6
    ISSN 1664-462X
    ISSN 1664-462X
    DOI 10.3389/fpls.2024.1301816
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article: Effect of volatile and non-volatile metabolites from Leptosphaeria maculans on tomato calli under abiotic stresses

    Poveda, Jorge

    Plant Stress. 2022 Jan., v. 3

    2022  

    Abstract: Drought and salinity can be serious problems for agricultural productivity in certain planet areas. Leptosphaeria maculans is the causative agent of the blackleg in crucifer plants. In this work, a novel methodology for studying the effects of fungal ... ...

    Abstract Drought and salinity can be serious problems for agricultural productivity in certain planet areas. Leptosphaeria maculans is the causative agent of the blackleg in crucifer plants. In this work, a novel methodology for studying the effects of fungal metabolites (volatile and non-volatile) on plant calli in the presence of abiotic stresses is presented, by using L. maculans, tomato calli, and drought and salinity stresses. In this way, this study has reported how, under salinity and drought stresses, the growth and vitality of tomato calli is inhibited, increasing its tissues-oxidation and accumulation of ROS. By applying metabolites from L. maculans, the growth of calli treated with non-volatile metabolites showed and increment under salinity and drought conditions. On the other hand, calli treated with volatile metabolites showed an increment in tissues-vitality under salinity and drought conditions. A series of gene expression analysis was also conducted in order to determine the performance of related genes. Results of this study showed that growth related gene expression was induced, together with abiotic stress tolerance gene in response to abscisic acid, AREB1. In addition, the application of volatile metabolites from L. maculans on tomato calli without abiotic stresses increases its growth and vitality, and reduces its oxidation and accumulation of ROS, in accordance with the results of gene expression obtained. The ability of L. maculans metabolites to increase plant tolerance to abiotic stresses could be related to their ability to produce volatile and non-volatile-metabolites, which induce the antioxidant enzyme activity or accumulation of antioxidant compounds, or their ability to increase the expression of ABA-dependent response genes to abiotic stresses.
    Keywords Plenodomus lingam ; abscisic acid ; agricultural productivity ; antioxidant enzymes ; callus ; drought ; enzyme activity ; etiological agents ; fungi ; gene expression ; genes ; metabolites ; oxidation ; salinity ; stress tolerance ; tomatoes
    Language English
    Dates of publication 2022-01
    Publishing place Elsevier B.V.
    Document type Article
    ISSN 2667-064X
    DOI 10.1016/j.stress.2021.100054
    Database NAL-Catalogue (AGRICOLA)

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  3. Article: The use of freshwater macrophytes as a resource in sustainable agriculture

    Poveda, Jorge

    Journal of cleaner production. 2022 Oct. 01, v. 369

    2022  

    Abstract: Freshwater macrophytes include different groups of plants that are capable of growing in or very close to aquatic environments (spermatophytes, pteridophytes and bryophytes). These plants play a fundamental role in their ecosystems, regulating ... ...

    Abstract Freshwater macrophytes include different groups of plants that are capable of growing in or very close to aquatic environments (spermatophytes, pteridophytes and bryophytes). These plants play a fundamental role in their ecosystems, regulating biogeochemical cycles, hydrology and sediment dynamic. Currently, many exotic freshwater macrophytes are being anthropogenically introduced into new ecosystems, posing a serious problem as a consequence of their massive and uncontrolled growth. Despite this, these plants can have different uses, such as biomarkers, phytoremediators, producers of metabolites of interest, or biomass formers for the production of feed, biofuels, pellets or ceramics. In this sense, the use of freshwater macrophytes in vivo, as fresh tissues, dry matter, compost, vermicompost, anaerobic digestate, liquid extracts or biochar has reported important benefits in different crops, promoting plant growth, increasing yield, reducing use of chemical fertilizers or reducing the diseases incidence. These benefits are the consequence of different mechanisms of action of the use of macrophytes as an agricultural resource, such as the contribution of nutrients, the improvement of the microbiota and soil structure, the elimination of heavy metals and pollutants, or the presence of antimicrobial compounds in their tissues. This review proposes the use of the biomass of these macrophytes, whose uncontrolled growth is an environmental problem, as an agricultural resource with important agricultural, environmental and economic benefits. A total of 118 published papers were analyzed and discussed.
    Keywords biochar ; biofuels ; biomarkers ; biomass ; ferns and fern allies ; freshwater ; liquids ; macrophytes ; metabolites ; microorganisms ; plant growth ; soil structure ; sustainable agriculture ; vermicomposts
    Language English
    Dates of publication 2022-1001
    Publishing place Elsevier Ltd
    Document type Article
    ISSN 0959-6526
    DOI 10.1016/j.jclepro.2022.133247
    Database NAL-Catalogue (AGRICOLA)

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  4. Article: AtCube: Performing pathogen-root infection tests on Arabidopsis thaliana in a completely controlled way

    Poveda, Jorge

    Physiological and molecular plant pathology. 2022 Jan., v. 117

    2022  

    Abstract: Arabidopsis thaliana represents the main model plant for the experimental analysis of plant genetics and developmental biology of photoautotrophic organisms, due to characteristics such as size, life cycle, fecundity, genetics and its easy experimental ... ...

    Abstract Arabidopsis thaliana represents the main model plant for the experimental analysis of plant genetics and developmental biology of photoautotrophic organisms, due to characteristics such as size, life cycle, fecundity, genetics and its easy experimental manipulation. In turn, A. thaliana is used as a model plant in plant-microorganism interaction studies, being of great importance in the knowledge of the form of infection of numerous plant pathogens. The present work is based on the development of an A. thaliana plant growth system in Phytatray II boxes and culture substrate, trying to establish a system that is free of contamination, completely controlled, self-sufficient, reproducible and standardized, called AtCube. Through the use of different necrotrophic and biotrophic/hemibiotrophic root-pathogens, bacteria, fungi and oomycetes, and the comparison with a conventional system of growth in plots, various results are analyzed on the effects of pathogens on plants and the advantages and differences of the AtCube system. This work makes it possible to highlight that the AtCube system represents a methodology that allows obtaining results similar to other systems but with important advantages regarding its standardization, rigor and reproducibility with respect to studies with A. thaliana and root pathogens. Furthermore, it could represent an equally efficient system in studies with other plant species and the application of foliar pathogens and/or beneficial microorganisms.
    Keywords Arabidopsis thaliana ; fecundity ; plant genetics ; plant growth ; plant pathology
    Language English
    Dates of publication 2022-01
    Publishing place Elsevier Ltd
    Document type Article
    ZDB-ID 742470-x
    ISSN 0885-5765
    ISSN 0885-5765
    DOI 10.1016/j.pmpp.2021.101780
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 2724: Show issues

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  5. Article: Biological control of Fusarium oxysporum f. sp. ciceri and Ascochyta rabiei infecting protected geographical indication Fuentesaúco-Chickpea by Trichoderma species

    Poveda, Jorge

    European journal of plant pathology. 2021 Aug., v. 160, no. 4

    2021  

    Abstract: The Protected Geographical Indication Fuentesaúco-Chickpea (F-C) is a legume crop that was developed in the south of the province of Zamora (Spain). It has great agronomic, economic, and cultural importance worldwide. Its cultivation is threatened mainly ...

    Abstract The Protected Geographical Indication Fuentesaúco-Chickpea (F-C) is a legume crop that was developed in the south of the province of Zamora (Spain). It has great agronomic, economic, and cultural importance worldwide. Its cultivation is threatened mainly by the fungal diseases Fusarium wilt (causal agent Fusarium oxysporum f. sp. ciceri) and Ascochyta blight (causal agent Ascochyta rabiei). By conducting an in vitro antagonism study, we determined that strains belonging to the species Trichoderma atroviride, T. hamatum, T. harzianum, and T. koningii are the most effective against both pathogens. The mechanisms of action of these strains are as follows: mycoparasitism, antibiosis, and competition for space and/or nutrients. Subsequently, these four Trichoderma spp. strains were used for an infection test in F-C plants to test their activity against both fungal pathogens by plant root inoculation. We reported that T. atroviride and T. koningii were capable of controlling F. oxysporum f. sp. ciceri in F-C plants directly, and T. koningii activated the production of salicylic acid as a plant defense response. In the case of A. rabiei foliar infection, plant roots inoculated with T. hazianum and T. koningii species were able to significantly decrease the occurrence of disease through systemic activation of jasmonic acid as a defense response. Regarding the effects of the Trichoderma species on F-C productivity, the species T. hamatum and T. koningii were able to significantly increase (by 50% and 100%, respectively) the formation of grains per plant. Therefore, we propose that T. koningii could be used to control F. oxysporum f. sp. ciceri and A. rabiei in F-C plants under greenhouse conditions through direct mechanisms as well as the induction of local and systemic defense responses and thereby promoting crop productivity.
    Keywords Ascochyta rabiei ; Fusarium oxysporum f. sp. ciceri ; Fusarium wilt ; Trichoderma atroviride ; antagonism ; antibiosis ; biological control ; blight ; disease occurrence ; fungi ; greenhouses ; jasmonic acid ; legumes ; mycoparasites ; plant pathology ; protected designation of origin ; root inoculation ; roots ; salicylic acid ; Spain
    Language English
    Dates of publication 2021-08
    Size p. 825-840.
    Publishing place Springer Netherlands
    Document type Article
    ZDB-ID 1196520-4
    ISSN 0929-1873
    ISSN 0929-1873
    DOI 10.1007/s10658-021-02286-9
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 1151: Show issues

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  6. Article: Insect frass in the development of sustainable agriculture. A review

    Poveda, Jorge

    Agronomy for sustainable development. 2021 Feb., v. 41, no. 1

    2021  

    Abstract: Given the current rate of human population growth, the mass breeding of insects for feed and food is in full industrial development, as a more efficient and effective alternative to conventional livestock for the production of animal protein. In these ... ...

    Abstract Given the current rate of human population growth, the mass breeding of insects for feed and food is in full industrial development, as a more efficient and effective alternative to conventional livestock for the production of animal protein. In these industries, the production of insect excreta (frass) represents one of the main outputs of the process, being up to 40 times greater than the production of animal biomass, which is why its use as organic fertilizer to replace the use of agrochemicals is considered a viable alternative in the development of sustainable agriculture and a circular economy. Through a review of all the existing literature, this article highlights the following benefits of the use of insect frass as organic fertilizer in sustainable agriculture: (1) contribution of nutrients to the soil, mainly nitrogen, easily assimilated by plant tissues; (2) addition of biomolecules and microorganisms that promote plant growth; and (3) increased tolerance to abiotic stresses and resistance to pathogens and pests due to the presence of different compounds and microorganisms. Therefore, insect frass from the mass breeding of insects for feed and food represents an important source of effective organic fertilizer for use in sustainable agriculture.
    Keywords abiotic stress ; agrochemicals ; agronomy ; animal proteins ; biomass ; breeding ; circular economy ; frass ; human population ; industrialization ; industry ; insects ; literature ; livestock ; mass ; microorganisms ; nitrogen ; nutrients ; organic fertilizers ; pathogens ; pests ; plant growth ; plant tissues ; population growth ; soil ; sustainable agriculture
    Language English
    Dates of publication 2021-02
    Size p. 5.
    Publishing place Springer Paris
    Document type Article
    Note NAL-light ; Review
    ISSN 1774-0746
    DOI 10.1007/s13593-020-00656-x
    Database NAL-Catalogue (AGRICOLA)

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  7. Article: Trichoderma as biocontrol agent against pests: New uses for a mycoparasite

    Poveda, Jorge

    Biological control. 2021 Aug., v. 159

    2021  

    Abstract: Insects are the main pest in agricultural systems, causing significant losses in crop productivity and storage. During the last decades the control of pest insects has been carried out through the uncontrolled and massive use of chemical insecticides, ... ...

    Abstract Insects are the main pest in agricultural systems, causing significant losses in crop productivity and storage. During the last decades the control of pest insects has been carried out through the uncontrolled and massive use of chemical insecticides, very harmful to the environment and health, which requires the development of new efficient and safe alternatives. Numerous fungal species have been described as entomopathogens of insect pests, as well as plant endophytic fungi. In this sense, Trichoderma is a genus of filamentous fungi widely studied and used as a biocontrol agent in agriculture on pathogenic fungi due to its ability to parasitize them (mycoparasitism), among other mechanisms of action. In recent years, the possibility of using Trichoderma as a biocontrol agent for insect pest has been considered, both directly and indirectly. The studies carried out to date have reported that Trichoderma is capable of controlling insect pest directly through parasitism and the production of insecticidal secondary metabolites, antifeedant compounds and repellent metabolites. And indirectly through the activation of systemic plant defensive responses, the attraction of natural enemies or the parasitism of insect-symbiotic microorganisms. Therefore, the use of Trichoderma in agriculture is not only effective against plant pathogens, but also against insect pests, representing a future alternative in the development of sustainable agriculture.
    Keywords Trichoderma ; antifeedants ; biological control ; biological control agents ; endophytes ; entomopathogens ; fungi ; insect pests ; mycoparasites ; parasitism ; secondary metabolites ; sustainable agriculture
    Language English
    Dates of publication 2021-08
    Publishing place Elsevier Inc.
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 1149971-0
    ISSN 1049-9644
    ISSN 1049-9644
    DOI 10.1016/j.biocontrol.2021.104634
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 5854: Show issues

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  8. Article: Beneficial effects of microbial volatile organic compounds (MVOCs) in plants

    Poveda, Jorge

    Applied soil ecology. 2021 Dec., v. 168

    2021  

    Abstract: Volatile organic compounds (VOCs) are chemical compounds whose saturation vapor pressures are greater than 102 kPa at 25 °C. Both plants and microorganisms produce VOCs that allow them to communicate intra- and inter-specifically. By emitting VOCs, ... ...

    Abstract Volatile organic compounds (VOCs) are chemical compounds whose saturation vapor pressures are greater than 102 kPa at 25 °C. Both plants and microorganisms produce VOCs that allow them to communicate intra- and inter-specifically. By emitting VOCs, plants defend themselves against herbivores and pathogens, warn their neighbors of the attack, compete with other plants, and/or feed microbial populations. Microorganisms emit VOCs to communicate or attack each other. Microbial VOCs (MVOCs) can be of great benefit to plants and their use in agriculture thanks to their ability to inhibit the growth and development of plant pathogens, induce the activation of plant defenses, or promote plant growth and development. In recent years, advances in understanding the importance of microbial volatilome have placed MVOCs as important biotechnological resources in plant production systems.
    Keywords growth and development ; plant growth ; soil ecology ; vapors ; volatile organic compounds
    Language English
    Dates of publication 2021-12
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 1196758-4
    ISSN 0929-1393
    ISSN 0929-1393
    DOI 10.1016/j.apsoil.2021.104118
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

    Z 5926: Show issues

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  9. Article: Glucosinolates profile of Arabidopsis thaliana modified root colonization of Trichoderma species

    Poveda, Jorge

    Biological control. 2021 Apr., v. 155

    2021  

    Abstract: Trichoderma is a genus of filamentous fungi with highly beneficial species for use in agriculture due to its ability to combat disease, increase growth, tolerance to abiotic stresses and resistance to biotic stresses in plants. To do this, Trichoderma ... ...

    Abstract Trichoderma is a genus of filamentous fungi with highly beneficial species for use in agriculture due to its ability to combat disease, increase growth, tolerance to abiotic stresses and resistance to biotic stresses in plants. To do this, Trichoderma must effectively colonize the roots of the plant, being able to overcome the existing plant defenses. In this sense, glucosinolates (GSLs) are a group of secondary metabolites present in cruciferous dishes such as Arabidopsis thaliana with great antimicrobial capacity. In order to determine the effect of the A. thaliana-roots GSLs profile in Trichoderma colonization, we have used different A. thaliana mutants (cyp: absent in indolic GSLs; myb: absent in aliphatic GSLs; QKO: absent in indolic and aliphatic GSLs; and atr1D: which hyperacumulates indolic GSLs) and inoculated them with the species Trichoderma harzianum and T. parareesei. The results showed how in the roots of A. thaliana mutants absent from IGSLs an increase occurs in the levels of root colonization of Trichoderma, without observing differences in the rest of the mutants. This increased root colonization by Trichoderma results in an increase in the formation of siliques by A. thaliana and an increase in the systemic resistance against Botrytis cinerea mediated by jasmonic acid, being more significant with T. harzianum; in addition to an increase in tolerance to abiotic stresses such as salinity and drought, being more significant with T. parareesei. Therefore, the presence of IGSLs in the roots of cruciferous plants, such as A. thaliana, inhibits Trichoderma's ability to root colonization, reducing the fungus's ability to increase plant productivity, tolerance to abiotic stresses and resistance to biotic stresses.
    Keywords Arabidopsis thaliana ; Botrytis cinerea ; Trichoderma harzianum ; biological control ; drought ; fungi ; glucosinolates ; jasmonic acid ; salinity ; secondary metabolites ; siliques
    Language English
    Dates of publication 2021-04
    Publishing place Elsevier Inc.
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 1149971-0
    ISSN 1049-9644
    ISSN 1049-9644
    DOI 10.1016/j.biocontrol.2020.104522
    Database NAL-Catalogue (AGRICOLA)

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    Z 5854: Show issues

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  10. Article: Cyanobacteria in plant health: Biological strategy against abiotic and biotic stresses

    Poveda, Jorge

    Crop protection. 2021 Mar., v. 141

    2021  

    Abstract: Abiotic and biotic stresses can dramatically reduce the productivity of agricultural crops, causing serious economic and social problems. Cyanobacteria are photosynthetic prokaryotes, responsible for a large proportion of global CO₂ and N₂ fixation, with ...

    Abstract Abiotic and biotic stresses can dramatically reduce the productivity of agricultural crops, causing serious economic and social problems. Cyanobacteria are photosynthetic prokaryotes, responsible for a large proportion of global CO₂ and N₂ fixation, with numerous environmental, pharmaceutical, and agricultural applications. In symbiosis with plants, cyanobacteria are able to increase the supply of nutrients, not only nitrogen but also others such as phosphorus, and increase the availability of water in the soil, improving its physicochemical conditions and promoting plant growth because of the release of different hormones. Faced with different abiotic stresses, the ability of various species of cyanobacteria to increase plant tolerance has been described because of their direct action in soils or the activation of plant responses. They reduce the effect of salinity by producing extracellular polysaccharide or compatible solutions, increase germination in drought situations, and remove pollutants (heavy metals and pesticides) from soil and water. Faced with biotic stresses, cyanobacteria are capable of producing a great diversity of different chemical compounds with great effectiveness, in addition to releasing various enzymes, competing for the rhizosphere space and activating plant defense responses by interacting with their roots, representing an effective strategy against bacteria, fungi, oomycetes, nematodes, and harmful insects in agriculture.
    Keywords Cyanobacteria ; Nematoda ; Oomycetes ; carbon dioxide ; drought ; germination ; nitrogen ; phosphorus ; photosynthesis ; plant growth ; plant protection ; polysaccharides ; prokaryotic cells ; rhizosphere ; salinity ; soil ; symbiosis
    Language English
    Dates of publication 2021-03
    Publishing place Elsevier Ltd
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 786839-x
    ISSN 1873-6904 ; 0261-2194
    ISSN (online) 1873-6904
    ISSN 0261-2194
    DOI 10.1016/j.cropro.2020.105450
    Database NAL-Catalogue (AGRICOLA)

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