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Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format
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Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format Example of Frontiers in Marine Science format
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Frontiers in Marine Science — Template for authors

Publisher: Frontiers Media
Guideline source
Categories Rank Trend in last 3 yrs
Environmental Science (miscellaneous) #11 of 104 up up by 17 ranks
Ocean Engineering #11 of 96 up up by 9 ranks
Aquatic Science #28 of 224 up up by 48 ranks
Oceanography #21 of 128 up up by 21 ranks
Water Science and Technology #38 of 225 up up by 30 ranks
Global and Planetary Change #29 of 93 up up by 5 ranks
journal-quality-icon Journal quality:
High
calendar-icon Last 4 years overview: 2744 Published Papers | 13820 Citations
indexed-in-icon Indexed in: Scopus
last-updated-icon Last updated: 03/07/2020
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Related Journals

open access Open Access

Aquatic Sciences

Springer

Quality:  
High
CiteRatio: 4.0
SJR: 0.881
SNIP: 0.986
Indexed in: Scopus Last updated: 16/06/2020
open access Open Access

Environmental Earth Sciences

Springer

Quality:  
High
CiteRatio: 4.5
SJR: 0.641
SNIP: 1.11
Indexed in: Scopus Last updated: 07/06/2020
open access Open Access

Deep Sea Research Part I: Oceanographic Research Papers

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Quality:  
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CiteRatio: 5.0
SJR: 1.13
SNIP: 1.266
Indexed in: Scopus Last updated: 21/06/2020
open access Open Access

Marine Chemistry

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Quality:  
High
CiteRatio: 5.6
SJR: 1.269
SNIP: 1.091
Indexed in: Scopus Last updated: 12/06/2020

Journal Performance & Insights

CiteRatio

SCImago Journal Rank (SJR)

Source Normalized Impact per Paper (SNIP)

A measure of average citations received per peer-reviewed paper published in the journal.

Measures weighted citations received by the journal. Citation weighting depends on the categories and prestige of the citing journal.

Measures actual citations received relative to citations expected for the journal's category.

5.0

14% from 2019

CiteRatio for Frontiers in Marine Science from 2016 - 2020
Year Value
2020 5.0
2019 4.4
2018 3.6
2017 2.9
2016 2.0
graph view Graph view
table view Table view

1.558

10% from 2019

SJR for Frontiers in Marine Science from 2016 - 2020
Year Value
2020 1.558
2019 1.42
2018 1.367
2017 1.225
2016 1.425
graph view Graph view
table view Table view

1.437

23% from 2019

SNIP for Frontiers in Marine Science from 2016 - 2020
Year Value
2020 1.437
2019 1.164
2018 1.023
2017 0.871
2016 1.097
graph view Graph view
table view Table view

insights Insights

  • CiteRatio of this journal has increased by 14% in last years.
  • This journal’s CiteRatio is in the top 10 percentile category.

insights Insights

  • SJR of this journal has increased by 10% in last years.
  • This journal’s SJR is in the top 10 percentile category.

insights Insights

  • SNIP of this journal has increased by 23% in last years.
  • This journal’s SNIP is in the top 10 percentile category.

Frontiers in Marine Science

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Frontiers Media

Frontiers in Marine Science

Approved by publishing and review experts on SciSpace, this template is built as per for Frontiers in Marine Science formatting guidelines as mentioned in Frontiers Media author instructions. The current version was created on 03 Jul 2020 and has been used by 254 authors to write and format their manuscripts to this journal.

Water Science and Technology

Ocean Engineering

Oceanography

Aquatic Science

Global and Planetary Change

Environmental Science

i
Last updated on
03 Jul 2020
i
ISSN
2296-7745
i
Open Access
No
i
Sherpa RoMEO Archiving Policy
Green faq
i
Plagiarism Check
Available via Turnitin
i
Endnote Style
Download Available
i
Bibliography Name
frontiersinSCNS_ENG_HUMS
i
Citation Type
Numbered
[25]
i
Bibliography Example
 Blonder GE, Tinkham M, Klapwijk TM. Transition from metallic to tunneling regimes in superconducting microconstrictions: Excess current, charge imbalance, and supercurrent conversion. Phys. Rev. B 25 (1982) 4515–4532.

Top papers written in this journal

open accessOpen access Journal Article DOI: 10.3389/FMARS.2016.00062
Responses of Marine Organisms to Climate Change across Oceans
Elvira S. Poloczanska1, Elvira S. Poloczanska2, Michael T. Burrows3, Christopher J. Brown4, Jorge García Molinos3, Jorge García Molinos5, Jorge García Molinos6, Benjamin S. Halpern7, Benjamin S. Halpern8, Ove Hoegh-Guldberg2, Carrie V. Kappel7, Pippa J. Moore9, Pippa J. Moore10, Anthony J. Richardson1, Anthony J. Richardson2, David S. Schoeman11, William J. Sydeman12
Commonwealth Scientific and Industrial Research Organisation1, University of Queensland2, Scottish Association for Marine Science3, Griffith University4, National Institute for Environmental Studies5, Hokkaido University6, University of California, Santa Barbara7, Imperial College London8, Edith Cowan University9, Aberystwyth University10, University of the Sunshine Coast11, University of California, Davis12
04 May 2016 - Frontiers in Marine Science

Abstract:

Climate change is driving changes in the physical and chemical properties of the ocean that have consequences for marine ecosystems. Here, we review evidence for the responses of marine life to recent climate change across ocean regions, from tropical seas to polar oceans. We consider observed changes in calcification rates, ... Climate change is driving changes in the physical and chemical properties of the ocean that have consequences for marine ecosystems. Here, we review evidence for the responses of marine life to recent climate change across ocean regions, from tropical seas to polar oceans. We consider observed changes in calcification rates, demography, abundance, distribution and phenology of marine species. We draw on a database of observed climate change impacts on marine species, supplemented with evidence in the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. We discuss factors that limit or facilitate species’ responses, such as fishing pressure, the availability of prey, habitat, light and other resources, and dispersal by ocean currents. We find that general trends in species responses are consistent with expectations from climate change, including poleward and deeper distributional shifts, advances in spring phenology, declines in calcification and increases in the abundance of warm-water species. The volume and type of evidence of species responses to climate change is variable across ocean regions and taxonomic groups, with much evidence derived from the heavily-studied north Atlantic Ocean. Most investigations of marine biological impacts of climate change are of the impacts of changing temperature, with few observations of effects of changing oxygen, wave climate, precipitation (coastal waters) or ocean acidification. Observations of species responses that have been linked to anthropogenic climate change are widespread, but are still lacking for some taxonomic groups (e.g., phytoplankton, benthic invertebrates, marine mammals). read more read less

Topics:

Effects of global warming (65%)65% related to the paper, Climate change (63%)63% related to the paper, Effects of global warming on oceans (63%)63% related to the paper, Global warming (61%)61% related to the paper, Ocean acidification (57%)57% related to the paper
View PDF
552 Citations
open accessOpen access Journal Article DOI: 10.3389/FMARS.2017.00158
Coral Reef Ecosystems under Climate Change and Ocean Acidification
Ove Hoegh-Guldberg1, Elvira S. Poloczanska2, Elvira S. Poloczanska1, William J. Skirving3, Sophie Dove1
University of Queensland1, Commonwealth Scientific and Industrial Research Organisation2, National Oceanic and Atmospheric Administration3
29 May 2017 - Frontiers in Marine Science

Abstract:

Coral reefs are found in a wide range of environments, where they provide food and habitat to a large range of organisms as well as other ecological goods and services. Warm-water coral reefs, for example, occupy shallow sunlit, warm and alkaline waters in order to grow and calcify at the high rates necessary to build and mai... Coral reefs are found in a wide range of environments, where they provide food and habitat to a large range of organisms as well as other ecological goods and services. Warm-water coral reefs, for example, occupy shallow sunlit, warm and alkaline waters in order to grow and calcify at the high rates necessary to build and maintain their calcium carbonate structures. At deeper locations (40 – 150 m), “mesophotic” (low light) coral reefs accumulate calcium carbonate at much lower rates (if at all in some cases) yet remain important as habitat for a wide range of organisms, including those important for fisheries. Finally, even deeper, down to 2000 m or more, the so-called ‘cold-water’ coral reefs are found in the dark depths. Despite their importance, coral reefs are facing significant challenges from human activities including pollution, over-harvesting, physical destruction, and climate change. In the latter case, even lower greenhouse gas emission scenarios (such as Representative Concentration Pathway RCP 4.5) are likely drive the elimination of most warm-water coral reefs by 2040-2050. Cold-water corals are also threatened by warming temperatures and ocean acidification although evidence of the direct effect of climate change is less clear. Evidence that coral reefs can adapt at rates which are sufficient for them to keep up with rapid ocean warming and acidification is minimal, especially given that corals are long-lived and hence have slow rates of evolution. Conclusions that coral reefs will migrate to higher latitudes as they warm are equally unfounded, with the observations of tropical species appearing at high latitudes ‘necessary but not sufficient’ evidence that entire coral reef ecosystems are shifting. On the contrary, coral reefs are likely to degrade rapidly over the next 20 years, presenting fundamental challenges for the 500 million people who derive food, income, coastal protection, and a range of other services from coral reefs. Unless rapid advances to the goals of the Paris Climate Change Agreement occur over the next decade, hundreds of millions of people are likely to face increasing amounts of poverty and social disruption, and, in some cases, regional insecurity. read more read less

Topics:

Resilience of coral reefs (77%)77% related to the paper, Environmental issues with coral reefs (75%)75% related to the paper, Aquaculture of coral (73%)73% related to the paper, Coral reef (64%)64% related to the paper, Marine ecosystem (63%)63% related to the paper
View PDF
449 Citations
open accessOpen access Journal Article DOI: 10.3389/FMARS.2017.00100
Can seaweed farming play a role in climate change mitigation and adaptation
Carlos M. Duarte1, Carlos M. Duarte2, Jiaping Wu3, Xi Xiao3, Annette Bruhn1, Dorte Krause-Jensen1
Aarhus University1, King Abdullah University of Science and Technology2, Zhejiang University3
12 Apr 2017 - Frontiers in Marine Science

Abstract:

Seaweed aquaculture, the fastest-growing component of global food production, offers a slate of opportunities to mitigate and adapt to climate change. Seaweed farms release carbon that maybe buried in sediments or exported to the deep sea, therefore acting as a CO2 sink. The crop can also be used, in total or in part, for bio... Seaweed aquaculture, the fastest-growing component of global food production, offers a slate of opportunities to mitigate and adapt to climate change. Seaweed farms release carbon that maybe buried in sediments or exported to the deep sea, therefore acting as a CO2 sink. The crop can also be used, in total or in part, for biofuel production, with a potential CO2 mitigation capacity, in terms of avoided emissions from fossil fuels, of about 1500 tons CO2 km-2 year-1. Seaweed aquaculture can also help reduce the emissions from agriculture, by improving soil quality substituting synthetic fertilizer and, when included in cattle fed, lowering methane emissions from cattle. Seaweed aquaculture contributes to climate change adaptation by damping wave energy and protecting shorelines, and by elevating pH and supplying oxygen to the waters, thereby locally reducing the effects of ocean acidification and de-oxygenation. The scope to expand seaweed aquaculture is, however, limited by the availability of suitable areas and competition for suitable areas with other uses, engineering systems capable of coping with rough conditions offshore and an increasing market demand for seaweed products, among other factors. Despite these limitations, seaweed farming practices can be optimized to maximize climate benefits, which may, if economically compensated, improve the income of seaweed farmers. read more read less

Topics:

Seaweed farming (68%)68% related to the paper, Climate change mitigation (53%)53% related to the paper, Aquaculture (51%)51% related to the paper
View PDF
346 Citations
open accessOpen access Journal Article DOI: 10.3389/FMARS.2017.00418
An Overview of Seabed Mining Including the Current State of Development, Environmental Impacts, and Knowledge Gaps
Kathryn A. Miller1, Kirsten F. Thompson1, Paul Johnston1, David Santillo1
University of Exeter1
01 Jan 2018 - Frontiers in Marine Science

Abstract:

Rising demand for minerals and metals, including for use in the technology sector, has led to a resurgence of interest in exploration of mineral resources located on the seabed. Such resources, whether seafloor massive (polymetallic) sulfides around hydrothermal vents, cobalt-rich crusts on the flanks of seamounts or fields o... Rising demand for minerals and metals, including for use in the technology sector, has led to a resurgence of interest in exploration of mineral resources located on the seabed. Such resources, whether seafloor massive (polymetallic) sulfides around hydrothermal vents, cobalt-rich crusts on the flanks of seamounts or fields of manganese (polymetallic) nodules on the abyssal plains, cannot be considered in isolation of the distinctive, in some cases unique, assemblages of marine species associated with the same habitats and structures. In addition to mineral deposits, there is interest in extracting methane from gas hydrates on continental slopes and rises. Many of the regions identified for future seabed mining are already recognised as vulnerable marine ecosystems. Since its inception in 1982, the International Seabed Authority (ISA), charged with regulating human activities on the deep-sea floor beyond the continental shelf, has issued 27 contracts for mineral exploration, encompassing a combined area of more than 1.4 million km2, and continues to develop rules for commercial mining. At the same time, some seabed mining operations are already taking place within continental shelf areas of nation states, generally at relatively shallow depths, and with others at advanced stages of planning. The first commercial enterprise, expected to target mineral-rich sulfides in deeper waters, at depths between 1,500 and 2,000 metres on the continental shelf of Papua New Guinea, is scheduled to begin early in 2019. In this review, we explore three broad aspects relating to the exploration and exploitation of seabed mineral resources: (1) the current state of development of such activities in areas both within and beyond national jurisdictions, (2) possible environmental impacts both close to and more distant from mining activities and (3) the uncertainties and gaps in scientific knowledge and understanding which render baseline and impact assessments particularly difficult for the deep sea. We also consider whether there are alternative approaches to the management of existing mineral reserves and resources, which may reduce incentives for seabed mining. read more read less

Topics:

Deep sea mining (63%)63% related to the paper, Mineral exploration (56%)56% related to the paper, Seabed (55%)55% related to the paper, Continental shelf (55%)55% related to the paper
View PDF
290 Citations
open accessOpen access Journal Article DOI: 10.3389/FMARS.2016.00072
Hydrothermal Vents and Methane Seeps: Rethinking the Sphere of Influence
Lisa A. Levin1, Amy R. Baco2, David A. Bowden3, Ana Colaço4, Erik E. Cordes5, Marina R. Cunha6, Amanda W.J. Demopoulos7, Judith Gobin8, Benjamin M. Grupe1, Jennifer T. Le1, Anna Metaxas9, Amanda N. Netburn1, Greg W. Rouse1, Andrew R. Thurber10, Verena Tunnicliffe11, Cindy Lee Van Dover12, Ann Vanreusel13, Les Watling14
Scripps Institution of Oceanography1, Florida State University2, National Institute of Water and Atmospheric Research3, University of the Azores4, Temple University5, University of Aveiro6, United States Geological Survey7, University of the West Indies8, Dalhousie University9, Oregon State University10, University of Victoria11, Duke University12, Ghent University13, University of Hawaii14
19 May 2016 - Frontiers in Marine Science

Abstract:

Although initially viewed as oases within a barren deep ocean, hydrothermal vent and methane seep communities are now recognized to interact with surrounding ecosystems on the sea floor and in the water column, and to affect global geochemical cycles. The importance of understanding these interactions is growing as the potent... Although initially viewed as oases within a barren deep ocean, hydrothermal vent and methane seep communities are now recognized to interact with surrounding ecosystems on the sea floor and in the water column, and to affect global geochemical cycles. The importance of understanding these interactions is growing as the potential rises for disturbance from oil and gas extraction, seabed mining and bottom trawling. Here we synthesize current knowledge of the nature, extent and time and space scales of vent and seep interactions with background systems. We document an expanded footprint beyond the site of local venting or seepage with respect to elemental cycling and energy flux, habitat use, trophic interactions, and connectivity. Heat and energy are released, global biogeochemical and elemental cycles are modified, and particulates are transported widely in plumes. Hard and biotic substrates produced at vents and seeps are used by “benthic background” fauna for attachment substrata, shelter, and access to food via grazing or through position in the current, while particulates and fluid fluxes modify planktonic microbial communities. Chemosynthetic production provides nutrition to a host of benthic and planktonic heterotrophic background species through multiple horizontal and vertical transfer pathways assisted by flow, gamete release, animal movements, and succession, but these pathways remain poorly known. Shared species, genera and families indicate that ecological and evolutionary connectivity exists among vents, seeps, organic falls and background communities in the deep sea; the genetic linkages with inactive vents and seeps and background assemblages however, are practically unstudied. The waning of venting or seepage activity generates major transitions in space and time that create links to surrounding ecosystems, often with identifiable ecotones or successional stages. The nature of all these interactions is dependent on water depth, as well as regional oceanography and biodiversity. Many ecosystem services are associated with the interactions and transitions between chemosynthetic and background ecosystems, for example carbon cycling and sequestration, fisheries production, and a host of non-market and cultural services. The quantification of the sphere of influence of vents and seeps could be beneficial to better management of deep-sea environments in the face of growing industrialization. read more read less

Topics:

Deep sea communities (59%)59% related to the paper, Hydrothermal vent (55%)55% related to the paper, Deep sea (52%)52% related to the paper, Chemosynthesis (52%)52% related to the paper, Benthic zone (51%)51% related to the paper
269 Citations
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Frontiers in Marine Science format uses frontiersinSCNS_ENG_HUMS citation style.

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Frequently asked questions

1. Can I write Frontiers in Marine Science in LaTeX?

Absolutely not! Our tool has been designed to help you focus on writing. You can write your entire paper as per the Frontiers in Marine Science guidelines and auto format it.

2. Do you follow the Frontiers in Marine Science guidelines?

Yes, the template is compliant with the Frontiers in Marine Science guidelines. Our experts at SciSpace ensure that. If there are any changes to the journal's guidelines, we'll change our algorithm accordingly.

3. Can I cite my article in multiple styles in Frontiers in Marine Science?

Of course! We support all the top citation styles, such as APA style, MLA style, Vancouver style, Harvard style, and Chicago style. For example, when you write your paper and hit autoformat, our system will automatically update your article as per the Frontiers in Marine Science citation style.

4. Can I use the Frontiers in Marine Science templates for free?

Sign up for our free trial, and you'll be able to use all our features for seven days. You'll see how helpful they are and how inexpensive they are compared to other options, Especially for Frontiers in Marine Science.

5. Can I use a manuscript in Frontiers in Marine Science that I have written in MS Word?

Yes. You can choose the right template, copy-paste the contents from the word document, and click on auto-format. Once you're done, you'll have a publish-ready paper Frontiers in Marine Science that you can download at the end.

6. How long does it usually take you to format my papers in Frontiers in Marine Science?

It only takes a matter of seconds to edit your manuscript. Besides that, our intuitive editor saves you from writing and formatting it in Frontiers in Marine Science.

7. Where can I find the template for the Frontiers in Marine Science?

It is possible to find the Word template for any journal on Google. However, why use a template when you can write your entire manuscript on SciSpace , auto format it as per Frontiers in Marine Science's guidelines and download the same in Word, PDF and LaTeX formats? Give us a try!.

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Of course! You can do this using our intuitive editor. It's very easy. If you need help, our support team is always ready to assist you.

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SciSpace's Frontiers in Marine Science is currently available as an online tool. We're developing a desktop version, too. You can request (or upvote) any features that you think would be helpful for you and other researchers in the "feature request" section of your account once you've signed up with us.

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11. What is the output that I would get after using Frontiers in Marine Science?

After writing your paper autoformatting in Frontiers in Marine Science, you can download it in multiple formats, viz., PDF, Docx, and LaTeX.

12. Is Frontiers in Marine Science's impact factor high enough that I should try publishing my article there?

To be honest, the answer is no. The impact factor is one of the many elements that determine the quality of a journal. Few of these factors include review board, rejection rates, frequency of inclusion in indexes, and Eigenfactor. You need to assess all these factors before you make your final call.

13. What is Sherpa RoMEO Archiving Policy for Frontiers in Marine Science?

SHERPA/RoMEO Database

We extracted this data from Sherpa Romeo to help researchers understand the access level of this journal in accordance with the Sherpa Romeo Archiving Policy for Frontiers in Marine Science. The table below indicates the level of access a journal has as per Sherpa Romeo's archiving policy.

RoMEO Colour Archiving policy
Green Can archive pre-print and post-print or publisher's version/PDF
Blue Can archive post-print (ie final draft post-refereeing) or publisher's version/PDF
Yellow Can archive pre-print (ie pre-refereeing)
White Archiving not formally supported
FYI:
  1. Pre-prints as being the version of the paper before peer review and
  2. Post-prints as being the version of the paper after peer-review, with revisions having been made.

14. What are the most common citation types In Frontiers in Marine Science?

The 5 most common citation types in order of usage for Frontiers in Marine Science are:.

S. No. Citation Style Type
1. Author Year
2. Numbered
3. Numbered (Superscripted)
4. Author Year (Cited Pages)
5. Footnote

15. How do I submit my article to the Frontiers in Marine Science?

It is possible to find the Word template for any journal on Google. However, why use a template when you can write your entire manuscript on SciSpace , auto format it as per Frontiers in Marine Science's guidelines and download the same in Word, PDF and LaTeX formats? Give us a try!.

16. Can I download Frontiers in Marine Science in Endnote format?

Yes, SciSpace provides this functionality. After signing up, you would need to import your existing references from Word or Bib file to SciSpace. Then SciSpace would allow you to download your references in Frontiers in Marine Science Endnote style according to Elsevier guidelines.

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