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Produktbild: Microbiome Community Ecology

Microbiome Community Ecology Fundamentals and Applications

Aus der Reihe SpringerBriefs in Ecology

Fr. 81.90

inkl. gesetzl. MwSt., Versandkostenfrei

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

29.01.2015

Abbildungen

VIII, 40 illus., 30 illus. in color., schwarz-weiss Illustrationen, farbige Illustrationen

Verlag

Springer

Seitenzahl

152

Maße (L/B/H)

23.5/15.5/0.9 cm

Gewicht

254 g

Auflage

2015

Sprache

Englisch

ISBN

978-3-319-11664-8

Beschreibung

Produktdetails

Einband

Taschenbuch

Erscheinungsdatum

29.01.2015

Abbildungen

VIII, 40 illus., 30 illus. in color., schwarz-weiss Illustrationen, farbige Illustrationen

Verlag

Springer

Seitenzahl

152

Maße (L/B/H)

23.5/15.5/0.9 cm

Gewicht

254 g

Auflage

2015

Sprache

Englisch

ISBN

978-3-319-11664-8

Herstelleradresse

Springer-Verlag GmbH
Tiergartenstr. 17
69121 Heidelberg
DE

Email: ProductSafety@springernature.com

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Die Leseprobe wird geladen.
  • Produktbild: Microbiome Community Ecology
  • Chapter 1.

    Microbiome ecosystem ecology: unseen majority in an anthropogenic ecosystem

    Authors: M. Saleem

    Abstract

    1. Microbiome ecosystem ecology

    References

    Chapter 2.

    Theories, mechanisms and patterns of microbiome species coexistence in an era of climate change

    Authors: M. Saleem, ZH Pervaiz, MB Traw

    Abstract

    2.1. Niche theory and microbial diversity

    2.1.1. Temperature-metabolic theory of ecology

    (i). Thermal niche specialization

    (ii). Temperature as a driver of ecological divergence, evolution, speciation and thermal niche evolution trade-offs

    2.1.2. Implication of habitat heterogeneity in determining ecological niche

    (i). Resource heterogeneity

    Factors determining resource heterogeneity

    Optimal foraging theory of ecology

    r/K selection theory of ecology

    (ii). Role of habitat physical structure and variations in determining ecological niche

     (iii). Role of habitat pH in determining ecological niche

    (iv). Role of biotic factors in determining ecological niche

    2.2. Island biogeography theory and microbial diversity

    2.2.1. Ecology theory of species area relationship

    2.2.2 Ecological theory of distance decay relationships (DDR)

     (i). Elevational patterns of microbial diversity

    (ii). Latitudinal pattern of microbial diversity

    2.3. Species–time relationships (STRs)

    2.4. Neutral theory and microbial diversity

    References

     

     

    Chapter 3.

    Eco-evolutionary processes regulating microbiome community assembly in a changing global ecosystem 

    Authors: M. Saleem

    Abstract

    3. Processes underlying microbiome community assembly

    3.1. Selection

    3.1.1. Constant selection pressure

    3.1.2. Frequency- or density-dependent selection

    (i). Negative frequency- or density-dependent selection

    (ii). Positive frequency- or density-dependent selection

    (iii). Spatially- or temporally-variable selection

    3.2. Drift

    3.2.1. Ecological drift

    3.2.2. Evolutionary or genetic drift

    3.2.3. Neutral drift

    3.3. Dispersal

    3.3.1. Environmental factors determining dispersal

    (i). Dispersal in air/atmospheric ecosystem and air mediated microbial dispersal

    (ii). Water currents and movement

    (iii). Nutrients-mediated microbial dispersal

    (iv). Miscellaneous factors determining microbial dispersal

    3.3.2. Factors liming the dispersal of microbes

    3.4. Diversification, speciation and mutation

    5. Dormancy

    References

    Chapter 4.

    Loss of microbiome ecological niches and diversity by global change and trophic downgrading   

    Authors: M. Saleem

    Abstract

    4. Habitat alteration, trophic downgrading and microbiome biodiversity loss

    4.1. Atmosphere ecosystem

    4.2. Phyllosphere ecosystem

    4.3 Rhizosphere ecosystem

    4.4. Human and animal ecosystem

    4.5 Aquatic ecosystems

    4.6 Extreme ecosystems

    4.6. Miscellaneous

    References

     

    Chapter 5.

    Microbiome mediated multitrophic interactions in an age of microbial extinction

    Authors: M. Saleem

    Abstract

    5.1. Trophic interactions

    5.1.1 Trophic interactions with protists predators

     5.1.2. Trophic interactions with predatory bacteria

    5.1.3. Trophic interactions with viruses

    5.1.4. Multi-trophic interactions

    5.2 Non-trophic interactions

    References

     

     

    Chapter 6.

    Global microbiome for agroecology, industry and human well-being: opportunities and challenges in climate change

    Authors: M. Saleem

    Abstract

    6. Microbiome diversity-functioning research in the context of biodiversity and ecosystem functioning research

    6.1 Major applications of microbiome diversity-functioning research

    6.1.1. Nutrient management

    6.1.2. Plant growth promotion

    (i) Phyllosphere associated microbiome and plant fitness

     (ii)  Rhizosphere associated microbiome and plant fitness

    6.1.3 Bioremediation and phytoremediation

    6.1.4 Human and animal host fitness

    6.1.5 Eco-biotechnology/microbiome industrial processes

    6.2 Emerging issues in microbiome diversity-functioning research

    6.2.1 Mechanisms of microbiome species coexistence

    6.2.2 Linking microbiome diversity to multi-trophic interactions

    6.2.3 Habitat alterations, greenhouse gas emissions and microbiome diversity loss

    6.2.4 Methodological, experimental and theoretical limitations

    References