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This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact

Arctic Ocean --- Southern Ocean --- remote sensing --- sea ice algae --- interdisciplinary --- polar regions --- biogeochemistry --- cryosphere

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Ocean satellite remote sensing plays important roles in the observations of physical, biological and biogeochemical features in inland, coastal, and global ocean waters, with high temporal and spatial resolution. The satellite-measured ocean products are used for near-real-time ocean monitoring and climate data records to understand short-/long-term variabilities in marine environments and ecosystems as well as for decision making tools to manage social, economic, and environmental benefits. Validation/evaluation including a combination of field measurements and inter-satellite comparison is an essential step in providing more accurate satellite-derived ocean products. In this Special Issue, 14 papers have been published and include research on validation/evaluation, retrieval algorithms of ocean geophysical and biogeochemical parameters, and application of the satellite ocean products in the regional and global ocean. Subjects treated include: Sea Surface Temperature; Sea Ice Surface Temperature from VIIRS thermal infrared sensor; Sea Ice Detection from Spectroradiometer; Sea Surface Winds from HY-2A Scatterometer and GNSS—Reflectometry; Wave Height from Sentinel-3A SAR; Retrievals of Sea Surface Salinity, Chlorophyll-a, Particulate Organic Carbon, Particulate Backscattering, Marine Fishery resource, and Submesoscale Eddies from multiple Ocean Colour sensors.

sea ice --- ice surface temperature --- Suomi NPP --- JPSS --- remote sensing --- leads --- MODIS --- ocean color --- algorithm --- chlorophyll --- HPLC --- fluorometry --- particulate organic carbon --- southern ocean --- ocean colour --- satellite-derived chlorophyll-a concentration --- algorithm evaluation --- Northwest Atlantic --- Northeast Pacific --- Japanese common squid --- Todarodes pacificus --- habitat suitability index (HSI) --- the Yellow Sea --- the South Sea of South Korea --- spaceborne GNSS-R --- DDM --- ocean surface wind speed --- GMF --- CYGNSS --- HY-2A --- scatterometer --- sea surface wind field --- evaluation --- satellite altimetry --- significant wave height --- SAR --- wave buoy observations --- validation --- southwest England --- coastal altimetry --- Sentinel-3A --- SRAL --- particulate optical backscattering --- Raman scattering --- QAA algorithm --- ESA OC-CCI --- steric height --- sea level variability --- interferometric altimeter validation --- high-frequency radar --- MODIS ocean color patterns --- submesoscale eddies --- sea surface salinity estimation --- Changjiang diluted water --- neural network --- GOCI application --- sea surface temperature --- global gridded dataset --- Yellow Sea --- bias correction --- chlorophyll-a --- phytoplankton --- East/Japan Sea

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Concerns have been raised with respect to the state of high-altitude and high-latitude treelines, as they are anticipated to undergo considerable modifications due to global changes, and especially due to climate warming. As high-elevation treelines are temperature-limited vegetation boundaries, they are considered to be sensitive to climate warming. As a consequence, in this future, warmer environment, an upward migration of treelines is expected because low air and root-zone temperatures constrain their regeneration and growth. Despite the ubiquity of climate warming, treeline advancement is not a worldwide phenomenon: some treelines have been advancing rapidly, others have responded sluggishly or have remained stable. This variation in responses is attributed to the potential interaction of a continuum of site-related factors that may lead to the occurrence of locally conditioned temperature patterns. Competition amongst species and below-ground resources have been suggested as additional factors explaining the variability in the movement of treelines. This Special Issue (book) is dedicated to the discussion of treeline responses to changing environmental conditions in different areas around the globe.

n/a --- tree seedling recruitment --- shrubline --- light quality --- higher altitude --- precipitation --- experimental rain exclusion --- Pinus cembra --- Changbai Mountain --- treeline dynamics --- fungal ecology --- thermal continentality --- tree regeneration --- elevational transect --- monitoring --- conifer shrub --- plant water availability --- permafrost --- foehn winds --- treeline --- Holocene --- nitrogen cycling --- carotenoids --- timberline --- 15N natural abundance --- spectrometer --- basal area increment --- palynology --- xylem embolism --- diversity --- elevational treeline --- European Alps --- temperature --- tree line --- winter stress --- photosynthetic pigments --- Pinus sibirica --- westerly winds --- relative air humidity --- ecosystem manipulation --- Larix decidua --- microsite --- polar treeline --- Central Austrian Alps --- Switzerland --- multi-stemmed growth form --- conifers --- forest edge --- history of treeline research --- soil drought --- dendroclimatology --- knowledge engineering --- Rocky Mountains --- apical control --- cloud --- postglacial --- alpine timberline --- space-for-time substitution --- climate change --- expert elicitation --- shoot elongation --- pit aspiration --- climate warming --- climate zone --- alpine treeline --- refilling --- Abies sibirica --- growth trend --- western Montana --- light quantity --- Picea abies --- Mediterranean climate --- forest climatology --- altitude --- environmental stress --- sub-Antarctic --- Erman’s birch --- photoinhibition --- tocopherol --- elevational gradients --- NDVI --- long-term trends --- sap flow --- peat --- tree seedlings --- Southern Ocean --- chlorophyll --- non-structural carbohydrates (NSCs) --- drought --- upward advance --- remote sensing data --- Erman's birch