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  1. Article: Specialized microbiomes facilitate natural rhizosphere microbiome interactions counteracting high salinity stress in plants

    Santos, Susana Silva / Rask, Klara Andrés / Vestergård, Mette / Johansen, Jesper Liengaard / Priemé, Anders / Frøslev, Tobias Guldberg / González, Ana M. Martín / He, Huan / Ekelund, Flemming

    Environmental and experimental botany. 2021 June, v. 186

    2021  

    Abstract: The root microbiota is crucial for plant productivity and stress tolerance. Still, our understanding of the factors that structure these microbial communities is limited, and we lack a theoretical framework to predict their assemblage and interactions. ... ...

    Abstract The root microbiota is crucial for plant productivity and stress tolerance. Still, our understanding of the factors that structure these microbial communities is limited, and we lack a theoretical framework to predict their assemblage and interactions. Here, we used rice as a model system to explore the hypothesis that microbiomes from specific environments enhance plant tolerance to salinity. We used 16S rRNA sequencing to track salinity-induced changes in microbiomes of plants inoculated with either a rice field microbiome, or a halotolerant microbiome, compared to only the seed microbiome. We found that, at salinities higher than 1.1 % plant growth was severely impeded. Nevertheless, at 0.11 % and 0.35 % salinity, plants inoculated with rice field and halotolerant microbiomes displayed enhanced shoot and root biomass, when compared to plants surviving only with the seed microbiome. Rice field microbiome had the highest plant growth-promoting effect and was the only treatment that promoted growth at 0.35 % salinity. The salinity effects on bacterial composition and alpha diversity were more pronounced for plants that relied only on the seed microbiome. The root-associated compartments harboured distinct microbiomes, but salinity explained most of the variation observed. Rice plants interacted with the rice field and halotolerant microbiomes to shape rhizosphere microbial community composition and the co-occurrence patterns, supporting plant growth at higher salinity. Assemblages of the halotolerant microbiome promoted similar network structures between the different salinity treatments, when compared to the other inoculations. Moreover, salinity responsive and keystone bacteria were taxonomically diverse and responded in guilds of taxa to the salinity levels. We conclude that both specialized inoculations differ greatly in how they influence the plant microbiome and that plant growth at higher salinity levels was associated with a denser and more complex root microbial community.
    Keywords biomass ; community structure ; microbial communities ; microbiome ; paddies ; phytobiome ; plant growth ; rhizosphere ; rice ; salinity ; salt stress ; salt tolerance ; species diversity ; stress tolerance
    Language English
    Dates of publication 2021-06
    Publishing place Elsevier B.V.
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 195968-2
    ISSN 0098-8472
    ISSN 0098-8472
    DOI 10.1016/j.envexpbot.2021.104430
    Database NAL-Catalogue (AGRICOLA)

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    In stock of ZB MED Bonn / Germany

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  2. Article ; Online: Plant-pollinator networks: adding the pollinator's perspective.

    Bosch, Jordi / González, Ana M Martín / Rodrigo, Anselm / Navarro, David

    Ecology letters

    2009  Volume 12, Issue 5, Page(s) 409–419

    Abstract: Pollination network studies are based on pollinator surveys conducted on focal plants. This plant-centred approach provides insufficient information on flower visitation habits of rare pollinator species, which are the majority in pollinator communities. ...

    Abstract Pollination network studies are based on pollinator surveys conducted on focal plants. This plant-centred approach provides insufficient information on flower visitation habits of rare pollinator species, which are the majority in pollinator communities. As a result, pollination networks contain very high proportions of pollinator species linked to a single plant species (extreme specialists), a pattern that contrasts with the widely accepted view that plant-pollinator interactions are mostly generalized. In this study of a Mediterranean scrubland community in NE Spain we supplement data from an intensive field survey with the analysis of pollen loads carried by pollinators. We observed 4265 contacts corresponding to 19 plant and 122 pollinator species. The addition of pollen data unveiled a very significant number of interactions, resulting in important network structural changes. Connectance increased 1.43-fold, mean plant connectivity went from 18.5 to 26.4, and mean pollinator connectivity from 2.9 to 4.1. Extreme specialist pollinator species decreased 0.6-fold, suggesting that ecological specialization is often overestimated in plant-pollinator networks. We expected a greater connectivity increase in rare species, and consequently a decrease in the level of asymmetric specialization. However, new links preferentially attached to already highly connected nodes and, as a result, both nestedness and centralization increased. The addition of pollen data revealed the existence of four clearly defined modules that were not apparent when only field survey data were used. Three of these modules had a strong phenological component. In comparison to other pollination webs, our network had a high proportion of connector links and species. That is, although significant, the four modules were far from isolated.
    MeSH term(s) Animals ; Ecosystem ; Insecta/physiology ; Models, Biological ; Plant Physiological Phenomena ; Pollen/cytology ; Pollination/physiology ; Spain ; Species Specificity
    Language English
    Publishing date 2009-05
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1441608-6
    ISSN 1461-0248 ; 1461-023X
    ISSN (online) 1461-0248
    ISSN 1461-023X
    DOI 10.1111/j.1461-0248.2009.01296.x
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  3. Article ; Online: Ecological mechanisms explaining interactions within plant-hummingbird networks: morphological matching increases towards lower latitudes.

    Sonne, Jesper / Vizentin-Bugoni, Jeferson / Maruyama, Pietro K / Araujo, Andréa C / Chávez-González, Edgar / Coelho, Aline G / Cotton, Peter A / Marín-Gómez, Oscar H / Lara, Carlos / Lasprilla, Liliana R / Machado, Caio G / Maglianesi, Maria A / Malucelli, Tiago S / González, Ana M Martín / Oliveira, Genilda M / Oliveira, Paulo E / Ortiz-Pulido, Raul / Rocca, Márcia A / Rodrigues, Licléia C /
    Sazima, Ivan / Simmons, Benno I / Tinoco, Boris / Varassin, Isabela G / Vasconcelos, Marcelo F / O'Hara, Bob / Schleuning, Matthias / Rahbek, Carsten / Sazima, Marlies / Dalsgaard, Bo

    Proceedings. Biological sciences

    2020  Volume 287, Issue 1922, Page(s) 20192873

    Abstract: Interactions between species are influenced by different ecological mechanisms, such as morphological matching, phenological overlap and species abundances. How these mechanisms explain interaction frequencies across environmental gradients remains ... ...

    Abstract Interactions between species are influenced by different ecological mechanisms, such as morphological matching, phenological overlap and species abundances. How these mechanisms explain interaction frequencies across environmental gradients remains poorly understood. Consequently, we also know little about the mechanisms that drive the geographical patterns in network structure, such as complementary specialization and modularity. Here, we use data on morphologies, phenologies and abundances to explain interaction frequencies between hummingbirds and plants at a large geographical scale. For 24 quantitative networks sampled throughout the Americas, we found that the tendency of species to interact with morphologically matching partners contributed to specialized and modular network structures. Morphological matching best explained interaction frequencies in networks found closer to the equator and in areas with low-temperature seasonality. When comparing the three ecological mechanisms within networks, we found that both morphological matching and phenological overlap generally outperformed abundances in the explanation of interaction frequencies. Together, these findings provide insights into the ecological mechanisms that underlie geographical patterns in resource specialization. Notably, our results highlight morphological constraints on interactions as a potential explanation for increasing resource specialization towards lower latitudes.
    MeSH term(s) Animals ; Biodiversity ; Birds ; Ecosystem ; Geography ; Plants ; Pollination
    Language English
    Publishing date 2020-03-11
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 209242-6
    ISSN 1471-2954 ; 0080-4649 ; 0962-8452 ; 0950-1193
    ISSN (online) 1471-2954
    ISSN 0080-4649 ; 0962-8452 ; 0950-1193
    DOI 10.1098/rspb.2019.2873
    Database MEDical Literature Analysis and Retrieval System OnLINE

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