Nome |
# |
Marine microbial-derived molecules and their potential use in cosmeceutical and cosmetic products, file e18b8792-0b95-d302-e053-1705fe0a27c8
|
105
|
The deep sea: The new frontier for ecological restoration, file e18b8791-3cd7-d302-e053-1705fe0a27c8
|
75
|
Towards an Ecosystem-Based Marine Spatial Planning in the deep Mediterranean Sea, file e18b8791-3772-d302-e053-1705fe0a27c8
|
70
|
null, file e18b8791-3707-d302-e053-1705fe0a27c8
|
55
|
Sunscreen products impair the early developmental stages of the sea urchin Paracentrotus lividus., file e18b8791-7dd2-d302-e053-1705fe0a27c8
|
41
|
An ecosystem-based deep-ocean strategy, file e18b8790-9e25-d302-e053-1705fe0a27c8
|
36
|
Impact of mangrove forests degradation on biodiversity and ecosystem functioning, file e18b8792-1078-d302-e053-1705fe0a27c8
|
31
|
Valuing unfamiliar Mediterranean deep-sea ecosystems using visual Q-methodology, file e18b8792-0d3c-d302-e053-1705fe0a27c8
|
27
|
Trophic status and meiofauna biodiversity in the Northern Adriatic Sea: Insights for the assessment of good environmental status, file e18b8792-0ef0-d302-e053-1705fe0a27c8
|
27
|
Assessing marine environmental status through microphytobenthos
assemblages colonizing the Autonomous Reef Monitoring Structures (ARMS)
and their potential in coastal marine restoration, file e18b8790-ac6c-d302-e053-1705fe0a27c8
|
26
|
null, file e18b8791-e581-d302-e053-1705fe0a27c8
|
25
|
Meiofaunal biodiversity in submarine canyons of the Mediterranean Sea: A meta-analysis, file e18b8792-14fe-d302-e053-1705fe0a27c8
|
25
|
Bacteria associated with the rapid tissue necrosis of stony corals, file e18b878f-d14b-d302-e053-1705fe0a27c8
|
24
|
Effects of Local Acidification on Benthic Communities at Shallow Hydrothermal Vents of the Aeolian Islands (Southern Tyrrhenian, Mediterranean Sea), file e18b8791-f47b-d302-e053-1705fe0a27c8
|
24
|
Nematode biodiversity and benthic trophic state are simple tools for the assessment of the environmental quality in coastal marine ecosystems, file e18b8792-11c2-d302-e053-1705fe0a27c8
|
17
|
Fish-farm impact on metazoan meiofauna in the Mediterranean Sea: Analysis of regional vs. habitat effects., file e18b878f-e43d-d302-e053-1705fe0a27c8
|
16
|
Biodiversity loss and turnover in alternative states in the Mediterranean Sea: A case study on meiofauna, file e18b8792-16ce-d302-e053-1705fe0a27c8
|
15
|
Unveiling the biodiversity of deep-sea nematodes through metabarcoding: are we ready to bypass the classical taxonomy?, file e18b8792-0c03-d302-e053-1705fe0a27c8
|
14
|
Virus decomposition provides an important contribution to benthic deep-sea ecosystem functioning, file e18b8792-107a-d302-e053-1705fe0a27c8
|
13
|
Deep-water zooplankton in the Mediterranean Sea: Results from a
continuous, synchronous sampling over different regions using sediment
traps, file e18b8790-aa9f-d302-e053-1705fe0a27c8
|
9
|
Marine archaea and archaeal viruses under global change, file e18b8790-a0f3-d302-e053-1705fe0a27c8
|
7
|
null, file e18b8791-ad33-d302-e053-1705fe0a27c8
|
7
|
Benthic deep-sea fungi in submarine canyons of the Mediterranean Sea, file e18b8792-0b23-d302-e053-1705fe0a27c8
|
7
|
Chronic and intensive bottom trawling impairs deep-sea biodiversity and ecosystem functioning, file e18b8790-365f-d302-e053-1705fe0a27c8
|
6
|
Effects of natural and anthropogenic stressors on fucalean brown seaweeds across different spatial scales in the Mediterranean Sea, file 872064d8-be15-4ae3-a6f6-c1b6755b4f58
|
5
|
Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH), file e18b8790-430b-d302-e053-1705fe0a27c8
|
5
|
A fast-moving target: achieving marine conservation goals under shifting climate and policies, file e18b8791-5ff3-d302-e053-1705fe0a27c8
|
5
|
Global deep-sea biodiversity research trends highlighted by science mapping approach, file e18b8791-8efb-d302-e053-1705fe0a27c8
|
5
|
Impact of inorganic UV filters contained in sunscreen products on tropical stony corals (Acropora spp.), file e18b8792-10aa-d302-e053-1705fe0a27c8
|
5
|
Towards an Ecosystem-Based Marine Spatial Planning in the deep Mediterranean Sea, file 6e2be06e-ce24-4b3b-abac-c384087fb8b8
|
4
|
A Census of Marine Biodiversity Knowledge, Resources, and Future Challenges., file e18b878f-d4ad-d302-e053-1705fe0a27c8
|
4
|
Red coral extinction risk enhanced by ocean acidification, file e18b878f-ddac-d302-e053-1705fe0a27c8
|
4
|
High Meiofaunal and Nematodes Diversity around Mesophotic Coral Oases in the Mediterranean Sea, file e18b8790-3625-d302-e053-1705fe0a27c8
|
4
|
Nematode diversity patterns at different spatial scales in bathyal sediments of the Mediterranean Sea, file e18b8790-3c5e-d302-e053-1705fe0a27c8
|
4
|
Space invaders; biological invasions in marine conservation planning, file e18b8790-73c0-d302-e053-1705fe0a27c8
|
4
|
Transfer of labile organic matter
and microbes from the ocean
surface to the marine aerosol: an
experimental approach, file e18b8790-9d33-d302-e053-1705fe0a27c8
|
4
|
Identifying Priorities for the Protection of Deep Mediterranean Sea Ecosystems Through an Integrated Approach, file e18b8791-ee16-d302-e053-1705fe0a27c8
|
4
|
DEEP-SEA BIODIVERSITY IN THE MEDITERRANEAN SEA: THE KNOWN, THE UNKNOWN, AND THE UNKNOWABLE, file e18b878f-cc89-d302-e053-1705fe0a27c8
|
3
|
Deep-water scleractinian corals promote higher biodiversity in deep-sea meiofaunal assemblages along continental margins, file e18b878f-d30c-d302-e053-1705fe0a27c8
|
3
|
The Biodiversity of the Mediterranean Sea: Estimates, Patterns, and Threats., file e18b878f-d4ab-d302-e053-1705fe0a27c8
|
3
|
α-, β-, γ-, δ- and ε-diversity of deep-sea nematodes in canyons and open slopes of Northeast Atlantic and Mediterranean margins., file e18b878f-d4b9-d302-e053-1705fe0a27c8
|
3
|
The dark portion of the Mediterranean Sea is a bioreactor of organic matter cycling, file e18b878f-d79b-d302-e053-1705fe0a27c8
|
3
|
Climate Change and the Potential Spreading of Marine Mucilage and Microbial Pathogens in the Mediterranean Sea., file e18b878f-e364-d302-e053-1705fe0a27c8
|
3
|
Adding the Third Dimension to Marine Conservation, file e18b8790-9f74-d302-e053-1705fe0a27c8
|
3
|
Major impacts of climate change on deep-sea benthic ecosystems, file e18b8790-a139-d302-e053-1705fe0a27c8
|
3
|
Historical changes of the Mediterranean Sea ecosystem: modelling the role and impact of
primary productivity and fisheries changes over time, file e18b8790-abae-d302-e053-1705fe0a27c8
|
3
|
Integrated characterization and risk management of marine sediments: The case study of the industrialized Bagnoli area (Naples, Italy), file e18b8791-47f7-d302-e053-1705fe0a27c8
|
3
|
Towards naples ecological research for augmented observatories (NEREA): The NEREA-fix module, a stand-alone platform for long-term deep-sea ecosystem monitoring, file e18b8791-8df0-d302-e053-1705fe0a27c8
|
3
|
null, file 7f370135-cd36-4ae6-b3bd-0c71dae680f8
|
2
|
Stranded seaweeds (Gongolaria barbata): an opportunity for macroalgal forest restoration, file 9dd990a7-9dac-4efd-bffa-f03147a84b36
|
2
|
Stranded seaweeds (Gongolaria barbata): an opportunity for macroalgal forest restoration, file b1fc905e-e566-405b-950b-597dc275cd41
|
2
|
Microbial assemblages associated with sinking particles in the Porcupine Abyssal Plain (NE Atlantic Ocean), file e18b878f-c8ad-d302-e053-1705fe0a27c8
|
2
|
Vitellogenesis in the deep-sea shark Centroscymnus coelolepis, file e18b878f-cea6-d302-e053-1705fe0a27c8
|
2
|
The trophic biology of the holothurian Molpadia musculus: Implications for organic matter cycling and ecosystem functioning in a deep submarine canyon., file e18b878f-f786-d302-e053-1705fe0a27c8
|
2
|
Deep-water scleractinian corals promote higher biodiversity in deep-sea meiofaunal assemblages along continental margins, file e18b8790-0172-d302-e053-1705fe0a27c8
|
2
|
null, file 1f8686b0-b26d-4419-bc6a-4ee74a00620a
|
1
|
null, file 74c294f0-5b93-49df-b2f7-b3bf80aa13f1
|
1
|
Assessing the eco-compatibility of new generation sunscreen products through a combined microscopic-molecular approach, file 7cb14e04-00b4-43d4-9c45-c3f5d80dc718
|
1
|
Towards a global strategy for the conservation of deep-sea active hydrothermal vents, file b4ab0da3-b548-4eb0-98b4-50b4cc44cc6d
|
1
|
Integrated characterization and risk management of marine sediments: The case study of the industrialized Bagnoli area (Naples, Italy), file c421ba16-233c-467f-bd79-f8b16455e146
|
1
|
Microbial community and geochemical analyses of trans-trench sediments for understanding the roles of hadal environments, file cd7048d4-e116-46eb-89de-d2394d0d4ff1
|
1
|
Changes in coral forest microbiomes predict the impact of marine heatwaves on habitat-forming species down to mesophotic depths, file cf43bc5c-e041-4cd7-9073-f33741703096
|
1
|
Organic matter in sediments of canyons and open slopes of the Portuguese, Catalan, Southern Adriatic and Cretan Sea margins, file e18b878f-d39d-d302-e053-1705fe0a27c8
|
1
|
Ecosystem effects of dense water formation on deep Mediterranean Sea ecosystems: an overview., file e18b878f-d4ae-d302-e053-1705fe0a27c8
|
1
|
Clima, ecosistemi marini e adattamento., file e18b878f-de7a-d302-e053-1705fe0a27c8
|
1
|
Bioavailable compounds in sinking particulate organic matter, Blanes Canyon, NW Mediterranean Sea: Effects of a large storm and sea surface biological processes, file e18b8790-39a9-d302-e053-1705fe0a27c8
|
1
|
Environmental hazard assessment of a marine mine tailings deposit site and potential implications for deep-sea mining., file e18b8790-a0e3-d302-e053-1705fe0a27c8
|
1
|
âGeneration Nemoâ: motivations, satisfaction and career goals of marine biology students*, file e18b8790-a80d-d302-e053-1705fe0a27c8
|
1
|
Deep-sea mobile megafauna of Mediterranean submarine canyons and open slopes: analysis of spatial and bathymetric gradients, file e18b8790-efd4-d302-e053-1705fe0a27c8
|
1
|
Temperature impacts on deep-sea biodiversity, file e18b8792-0c91-d302-e053-1705fe0a27c8
|
1
|
Multiple human pressures in coastal habitats: variation of meiofaunal assemblages associated with sewage discharge in a post-industrial area, file e18b8792-10af-d302-e053-1705fe0a27c8
|
1
|
Totale |
822 |