Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Endophytic fungi --- Grasses --- Woody plants --- Ecophysiology --- Endophytic fungi. --- Ecophysiology. --- Plante herbacée --- Herbaceous plants --- Plante ligneuse --- woody plants --- Champignon --- Fungi --- Agent pathogène --- Pathogens --- Maladie fongique --- Fungal diseases --- Endophyte --- Endophytes --- Écologie --- ecology --- Taxonomie --- taxonomy --- -Woody plants --- -#KVIV:BB --- Woody perennials --- Woody vegetation --- Plants --- Agrostology --- Graminaceae --- Gramineae --- Grass family (Plants) --- Herbage --- Poaceae --- Cyperales --- Forage plants --- Grasslands --- Hay --- Lawns --- Meadows --- Pastures --- Fungal endophytes --- Plant-fungus relationships --- FUN Fungi & Lichenes --- lignicolous fungi --- mycorrhizae --- physiology --- trees --- Grasses - Ecophysiology. --- Woody plants - Ecophysiology.

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book addresses all the major mechanisms by which endophytes are thought to impact plant growth and health. A unique aspect of this publication is that it is multidisciplinary, covering plant microbiology, plant physiology, fungal and bacterial endophytes, plant biochemistry, and genomics. Just as research on the mammalian microbiome has demonstrated its importance for overall health of the host, the plant microbiota is essential for plant health in natural environments. Endophytes, the microorganisms living fully within plants, can provide a multitude of benefits to the host including N-fixation, P solubilization, increased photosynthetic efficiency and water use efficiency, stress tolerance, pathogen resistance, and overall increased growth and health. A variety of culturable endophytes have been isolated and shown to be mutualistic symbionts with a broad range of plant species. These studies point to the functional importance of the microbiota of plants and suggest th e potential for tailoring plant microbiota for improved vigor and yields with reduced inputs. This review covers the major benefits of microbial endophytes to plants and discusses the implications of using symbiosis as an alternative to chemical inputs for agriculture, forestry, and bioenergy.

Life sciences. --- Cell physiology. --- Plant ecology. --- Microbial genetics. --- Microbial genomics. --- Plant science. --- Botany. --- Life Sciences. --- Plant Sciences. --- Microbial Genetics and Genomics. --- Cell Physiology. --- Plant Ecology. --- Endophytic fungi. --- Plant-fungus relationships. --- Fungal endophytes --- Endophytes --- Fungi --- Plant-fungus relationships --- Fungal-plant interactions --- Fungi and plants --- Fungi-plant relationships --- Fungus-plant interactions --- Fungus-plant relationships --- Interactions, Plant-fungus --- Plant-fungi relationships --- Plant-fungus interactions --- Plants and fungi --- Relationships, Plant-fungus --- Plant ecology --- Endophytic fungi --- Phytopathogenic fungi --- Ecology --- Host plants --- Botany --- Plants --- Cell function --- Cytology --- Physiology --- Genomics --- Microbial genetics --- Microorganisms --- Genetics --- Microbiology --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Phytoecology --- Vegetation ecology --- Floristic botany --- Floristic ecology

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Lipids represent the major players in marine organisms as the major constituents of biological membranes, with key roles in biological processes and acclimation to environmental changes. New research trends aim to contribute to improving knowledge on the role lipids in the biological matrix, understanding the impact of climate change in marine organisms, and developing new tools for chemophenotyping, traceability, and biomarkers of trophic chains in marine ecosystems, such that the nutritional value or prospective bioactive compounds can be disclosed for health applications. “Lipids in the Ocean 2021” (http://lipids2021.web.ua.pt) was originally planned to be held at the University of Aveiro and ran from 5 to 7 July 2021 (and was ultimately an online conference due to uncertainties regarding the COVID-19 situation). The aim was to go in deep into research interests covering topics related to lipids from marine organisms, such as marine lipidomics, lipids as biomarkers in trophic webs, green lipids from the ocean (seaweeds, microalgae, and macrophytes), marine lipid biotechnology, and seafood traceability using lipids—from basic research to sustainable production and applications in the food, nutraceutics, feed, cosmetics, and pharma industries. This Special Issue welcomed not only attendees of “Lipids in the Ocean 2021” to publish their latest research outcomes but also all researchers in relevant fields to share their exciting works with the community.

Public health & preventive medicine --- fatty acids --- fungal endophytes --- laminariales --- Paradendryphiella salina --- brown adipose tissue --- browning --- energy expenditure --- n-3 fatty acid --- uncoupling protein --- white adipose tissue --- krill oil --- omega-3 polyunsaturated fatty acids --- bioavailability --- nutraceuticals --- dietary supplements --- dietary resource --- Mytilus galloprovincialis --- Crassostrea gigas --- diatom --- competition --- biofouling --- EPA --- DHA --- aquafeeds --- n-3/n-6 ratio --- n-3 PUFA --- IMTA --- powdered fish oil --- docosahexaenoic acid --- chitosan nanoparticles --- encapsulation efficiency --- loading capacity --- TGA --- FTIR --- oxidative stability --- algae --- bioactivity --- glycolipids --- lipidomics --- macroalgae --- phospholipids --- seaweeds --- long-chain PUFA synthesis --- desaturases --- elongases --- PKS pathway --- 20:5n-3 (EPA) --- 22:6n-3 (DHA) --- Tisochrysis lutea --- 13C artificial enrichment --- Crypthecodinium cohnii --- omega-3 fatty acid --- biomass recycling --- dinoflagellate extract --- FTIR spectroscopy --- Krebs cycle --- central metabolism --- kinetic model --- constraint-based model

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Lipids represent the major players in marine organisms as the major constituents of biological membranes, with key roles in biological processes and acclimation to environmental changes. New research trends aim to contribute to improving knowledge on the role lipids in the biological matrix, understanding the impact of climate change in marine organisms, and developing new tools for chemophenotyping, traceability, and biomarkers of trophic chains in marine ecosystems, such that the nutritional value or prospective bioactive compounds can be disclosed for health applications. “Lipids in the Ocean 2021” (http://lipids2021.web.ua.pt) was originally planned to be held at the University of Aveiro and ran from 5 to 7 July 2021 (and was ultimately an online conference due to uncertainties regarding the COVID-19 situation). The aim was to go in deep into research interests covering topics related to lipids from marine organisms, such as marine lipidomics, lipids as biomarkers in trophic webs, green lipids from the ocean (seaweeds, microalgae, and macrophytes), marine lipid biotechnology, and seafood traceability using lipids—from basic research to sustainable production and applications in the food, nutraceutics, feed, cosmetics, and pharma industries. This Special Issue welcomed not only attendees of “Lipids in the Ocean 2021” to publish their latest research outcomes but also all researchers in relevant fields to share their exciting works with the community.

Public health & preventive medicine --- fatty acids --- fungal endophytes --- laminariales --- Paradendryphiella salina --- brown adipose tissue --- browning --- energy expenditure --- n-3 fatty acid --- uncoupling protein --- white adipose tissue --- krill oil --- omega-3 polyunsaturated fatty acids --- bioavailability --- nutraceuticals --- dietary supplements --- dietary resource --- Mytilus galloprovincialis --- Crassostrea gigas --- diatom --- competition --- biofouling --- EPA --- DHA --- aquafeeds --- n-3/n-6 ratio --- n-3 PUFA --- IMTA --- powdered fish oil --- docosahexaenoic acid --- chitosan nanoparticles --- encapsulation efficiency --- loading capacity --- TGA --- FTIR --- oxidative stability --- algae --- bioactivity --- glycolipids --- lipidomics --- macroalgae --- phospholipids --- seaweeds --- long-chain PUFA synthesis --- desaturases --- elongases --- PKS pathway --- 20:5n-3 (EPA) --- 22:6n-3 (DHA) --- Tisochrysis lutea --- 13C artificial enrichment --- Crypthecodinium cohnii --- omega-3 fatty acid --- biomass recycling --- dinoflagellate extract --- FTIR spectroscopy --- Krebs cycle --- central metabolism --- kinetic model --- constraint-based model