Nome |
# |
Reef building and carbonate production modes in the west-central Tethys during the Cenozoic, file e39773b3-b88d-35a3-e053-3a05fe0aac26
|
2.037
|
3-D distribution of nongeniculate corallinales: a case study from a reef crest of South Sinai (Red Sea, Egypt), file e39773b1-88d3-35a3-e053-3a05fe0aac26
|
842
|
Revision and re-documentation of M. Airoldi's species of Archaeolithothamnium from the Tertiary Piedmont Basin (NW Italy), file e39773b2-e05e-35a3-e053-3a05fe0aac26
|
703
|
Maërl-bed Mapping and carbonate quantification on submerged terraces offshore the Cilento Peninsula (Tyrrhenian Sea, Italy), file e39773b1-eb47-35a3-e053-3a05fe0aac26
|
450
|
Shallow macrobenthic carbonate production at Magoodhoo (Maldives) and rising sea-level: will the island survive the global change?, file e39773b2-1065-35a3-e053-3a05fe0aac26
|
424
|
Applied marine paleoecology: the how and why, file e39773b1-4489-35a3-e053-3a05fe0aac26
|
373
|
Pleistocene coralline algal build-ups (coralligène de plateau) and associated bioclastic deposits in the sedimentary cover of Cutro marine terrace (Calabria, Southern Italy), file e39773b1-57d3-35a3-e053-3a05fe0aac26
|
360
|
Trichocytes in Lithophyllum kotschyanum and Lithophyllum spp.(Corallinales, Rhodophyta) from the NW Indian Ocean, file e39773b1-fa7e-35a3-e053-3a05fe0aac26
|
346
|
Quantification of the coralline carbonate from a Serravallian rhodolith bed of the Tertiary Piedmont Basin (Stazzano, Alessandria, NW Italy), file e39773b1-94c3-35a3-e053-3a05fe0aac26
|
298
|
Mediterranean Lithophyllum stictiforme (Corallinales, Rhodophyta) is a genetically diverse species complex: implications for species circumscription, biogeography and conservation of coralligenous habitats, file e39773b7-5e9b-35a3-e053-3a05fe0aac26
|
270
|
An empirical study of the B/Ca proxy in calcareous red algae, file e39773b7-de51-35a3-e053-3a05fe0aac26
|
253
|
Quaternary build-ups and rhodalgal carbonates along the Adriatic and Ionian coasts of the Italian peninsula: a review, file e39773b5-0f1e-35a3-e053-3a05fe0aac26
|
227
|
European Red List of habitats Part 1. Marine habitats, file e39773b4-04e4-35a3-e053-3a05fe0aac26
|
214
|
LA-ICP-MS analyses of Boron in the calcareous alga Lithothamnion corallioides, file e39773b7-386f-35a3-e053-3a05fe0aac26
|
211
|
New observations on the anatomy of the fossil calcareous alga Subterraniphyllum Elliott, file e39773b2-e72d-35a3-e053-3a05fe0aac26
|
204
|
Biostratigraphic, evolutionary, and paleoenvironmental significance of the southernmost lepidocyclinids of the Pacific coast of South America (East Pisco Basin, southern Peru), file e39773b6-23a2-35a3-e053-3a05fe0aac26
|
173
|
Reconstruction of a lost carbonate factory based on its biogenic detritus (Ternate-Travedona Formation and Gonfolite Lombarda Group - Northern Italy), file e39773b3-5d55-35a3-e053-3a05fe0aac26
|
170
|
Holocene palaeoceanographic evolution of the iskenderun bay, south-eastern turkey, as a response to river mouth diversions and human impact, file e39773b2-ee66-35a3-e053-3a05fe0aac26
|
157
|
Algal reefs (Coralligenous) from glacial stages: Origin and nature of a submerged tabular relief (Hyblean Plateau, Italy), file e39773b5-d8e3-35a3-e053-3a05fe0aac26
|
157
|
Fossil "calcareous" algae (Permian-Miocene) from Guatemala (Critical catalogue of the J.H. Johnson Collection. 3rd part), file e39773b6-bd7b-35a3-e053-3a05fe0aac26
|
150
|
Coralline algae: the morphological species concept in the era of molecular genetics, file e39773b2-c50a-35a3-e053-3a05fe0aac26
|
141
|
Effect of biofouling on cathodically protected carbon steel in shallow seawaters exposed to sunlight photoperiod, file e39773b1-68a2-35a3-e053-3a05fe0aac26
|
123
|
Indications of low macrobenthic activity in the deep sediments of the eastern Mediterranean Sea, file e39773b1-7e11-35a3-e053-3a05fe0aac26
|
121
|
The current status of Lithophyllum racemus (Lamarck) Foslie, file e39773b2-fa0a-35a3-e053-3a05fe0aac26
|
119
|
Diagnostic characters in fossil coralline algae (Corallinophycidae: Rhodophyta) from the Miocene of southern Moravia (Carpathian Foredeep, Czech Republic), file e39773b9-84e7-35a3-e053-3a05fe0aac26
|
116
|
The coralline flora of a Miocene maërl: The Croatian "Litavac", file e39773b1-34a1-35a3-e053-3a05fe0aac26
|
115
|
Field trip guide-book of the 6th Regional Symposium of the International Fossil Algae Associaton, file e39773b1-684f-35a3-e053-3a05fe0aac26
|
114
|
The coralline red alga Lithophyllum kotschyanum f. affine as proxy of climate variability in the Yemen coast, Gulf of Aden (NW Indian Ocean), file e39773b1-fe83-35a3-e053-3a05fe0aac26
|
113
|
Oligocene Corallinales (Rhodophyta) of Salcedo (Vicenza, NE Italy), file e39773b1-457c-35a3-e053-3a05fe0aac26
|
112
|
Johnson & Kaska 1965 fossil coralline algae from Guatemala (revision of the Jesse Harlan Johnson collection, part 4), file e39773b4-8c35-35a3-e053-3a05fe0aac26
|
112
|
Assessing fine-scale distribution and volume of mediterranean algal reefs through terrain analysis of multibeam bathymetric data. A case study in the southern adriatic continental shelf, file e39773b6-0985-35a3-e053-3a05fe0aac26
|
110
|
Lithothamnion crispatum: long-lasting morphospecies of nongeniculate calcareous red algae, file e39773b2-c4dc-35a3-e053-3a05fe0aac26
|
106
|
Taphonomy of a Panopea Ménard de la Groye, 1807 shell bed from the Pisco Formation (Miocene, Peru) [Taphonomie d’une couche de coquilles de Panopea Ménard de la Groye, 1807 de la Formation Pisco (Miocène, Pérou).], file e39773b7-5535-35a3-e053-3a05fe0aac26
|
99
|
Revision and re-documentation of M. Airoldi’s species of Lithophyllum from the Tertiary Piedmont Basin, file e39773b1-7bf5-35a3-e053-3a05fe0aac26
|
88
|
Lithothamnion crispatum: Long-lasting species of non-geniculate coralline algae (Rhodophyta, Hapalidiales), file e39773b5-f771-35a3-e053-3a05fe0aac26
|
86
|
Morphostructural Characterization of the Heterogeneous Rhodolith Bed at the Marine Protected Area “Capo Carbonara” (Italy) and Hydrodynamics, file e39773b8-7c9c-35a3-e053-3a05fe0aac26
|
86
|
Environmental factors controlling the distribution of rhodoliths: An integrated study based on seafloor sampling, ROV and side scan sonar data, offshore the W-Pontine Archipelago, file e39773b9-4a48-35a3-e053-3a05fe0aac26
|
78
|
Nutrient “cooling” effect on carbonates: evidence from a Miocene limestone, file e39773b2-1577-35a3-e053-3a05fe0aac26
|
76
|
Chamberlainium pentagonum (Conti) comb. nov. and spongites fruticulosus (corallinales, rhodophyta) in the miocene carbonates of the western mediterranean, file e39773b6-dacd-35a3-e053-3a05fe0aac26
|
74
|
Morphological and molecular assessment of Lithophyllum okamurae with the description of L. neo-okamurae sp. nov. (Corallinales, Rhodophyta), file e39773b8-7baf-35a3-e053-3a05fe0aac26
|
74
|
Lower Oligocene Coralline Algae of the Uromieh Section (Qom Formation, NW Iran) and the oldest record of Titanoderma pustulatum (Corallinophycidae, Rhodophyta), file e39773b5-94c8-35a3-e053-3a05fe0aac26
|
71
|
Evidence of Coralline White Patch Disease in a rhodolith bed of the Egadi Islands, file e39773b5-1a72-35a3-e053-3a05fe0aac26
|
64
|
Nutrient influence on fossil carbonate factories: Evidence from SEDEX extractions on Burdigalian limestones (Miocene, NW Italy and S France), file e39773b9-2d04-35a3-e053-3a05fe0aac26
|
63
|
Geomorphology of coralligenous reefs offshore southeastern Sicily (Ionian Sea), file 6c032c2f-5c26-4e38-b972-4016e574b154
|
62
|
Living coralligenous as geo-historical structure built by coralline algae, file a24b6fd1-c19f-466e-80ed-1971b4985769
|
62
|
The genus Lithophyllum in the north-western Indian Ocean, with description of L. yemenense sp. nov., L. socotraense sp. nov., L. subplicatum comb. et stat. nov., and the resumed L. affine, L. kaiseri, and L. subreduncum (Rhodophyta, Corallinales), file e39773b2-a46c-35a3-e053-3a05fe0aac26
|
62
|
Rhodolith-forming coralline red algae in the CaCO3 biofactory — A case study from the Serravallian of tropical northeastern Indian Ocean, file 34fa5db3-9bc2-4282-ba11-4f8592384796
|
59
|
Classification of coralline algae using deep learning techniques on SEM images, file e39773b8-3da9-35a3-e053-3a05fe0aac26
|
57
|
Rhodolith beds in the Mediterranean (A5.51), file e39773b4-0ad4-35a3-e053-3a05fe0aac26
|
53
|
Rhodolith formation in the deep water off Marettimo, Egadi Islands, Sicily, file e39773b5-0ee3-35a3-e053-3a05fe0aac26
|
49
|
Growth rate rather than temperature affects the B∕Ca ratio in the calcareous red alga Lithothamnion corallioides, file e39773b8-9b4d-35a3-e053-3a05fe0aac26
|
44
|
Calcification traits for cryptic species identification: Insights into coralline biomineralization, file e900932d-77ac-4a0a-8c53-4a4f650980cd
|
38
|
Editorial: Crustose Coralline Red Algae Frameworks and Rhodoliths: Past and Present, file c888ce0d-338a-4ece-9b01-a0352dad5d70
|
34
|
Caulerpa cylindracea Spread on Deep Rhodolith Beds Can Be Influenced by the Morphostructural Composition of the Bed, file 37a34774-6310-4d7d-9f1d-f39a8e4f7c88
|
33
|
The Bryozoan Margaretta cereoides as Habitat-Former in the Coralligenous of Marzamemi (SE Sicily, Mediterranean Sea), file 191cb022-bb48-4424-974c-a6c1f8caca01
|
32
|
Mollusk Thanatocoenoses Unravel the Diversity of Heterogeneous Rhodolith Beds (Italy, Tyrrhenian Sea), file d3dcc566-0b30-4bdf-a268-adf6c422305b
|
29
|
From build-up to pebbles: brief history of a crustose coralline build-up of the Upper Eocene of Northwestern Italy, file e39773b2-bff6-35a3-e053-3a05fe0aac26
|
24
|
Mesocosm experiments in ocean alkalinity enhancement research, file 71c7889b-9aba-42ce-91ca-2e8c570a6c87
|
23
|
Quantifying the contribution of coralline species in rhodoliths as a tool for paleobathymetric reconstructions, file e39773b5-0e24-35a3-e053-3a05fe0aac26
|
23
|
Geological applications of resedimented skeletal materials, file e39773b2-1026-35a3-e053-3a05fe0aac26
|
22
|
The impact of benthos on marine substrates, biogeomorphology, and the Mediterranean “coralligène”, file e39773b2-1063-35a3-e053-3a05fe0aac26
|
22
|
The Heliconoides Modified Dissolution Index-HMDI: Do methane seepage environments affect the preservation state of Heliconoides inflatus?, file f1c15eb5-cde8-45e6-937c-017072a34d14
|
21
|
Paleoecology and dynamics of coralline dominated facies during a Pleistocene transgressive–regressive cycle (Capo Colonna marine terrace, Southern Italy), file e39773b1-fa87-35a3-e053-3a05fe0aac26
|
16
|
The southernmost occurrence of lepidocyclinids from the Pacific coast of South America:
the Los Choros Member (Paracas Formation, East Pisco Basin, southern Peru), file e39773b5-f775-35a3-e053-3a05fe0aac26
|
15
|
Pleistocene coralline algal buildups on a mid-ocean rocky shore – Insights into the MIS 5e record of the Azores, file e39773b8-0d4b-35a3-e053-3a05fe0aac26
|
15
|
Multi-specific calibration of the B isotope proxy in calcareous red algae for pH reconstruction, file 5baa25a5-6246-41ee-96f9-195e11ec06dd
|
13
|
Le ultrastrutture della parete cellulare in Lithothamnion corallioides: un segnale del controllo biologico della mineralizzazione?, file e39773b8-1e2c-35a3-e053-3a05fe0aac26
|
13
|
Data reporting and sharing for ocean alkalinity enhancement research, file e522c543-8896-4810-ba40-09174ec21e63
|
13
|
Origin and role of non-skeletal carbonate in coralligenous build-ups: new geobiological perspectives in biomineralization processes, file 51bb24b2-3bdf-49d6-a24d-cae94bd71593
|
12
|
Late Holocene pteropod distribution across the base of the south-eastern Mediterranean margin: the importance of the > 63 µm fraction, file c10301f2-9ea4-4b9f-aea7-54b1a4220eeb
|
12
|
Using geomorphometric techniques to assess spatial distribution and volume of coralligenous bioconstructions (mediterranean sea), file e39773b8-8ce9-35a3-e053-3a05fe0aac26
|
11
|
Shallow-water carbonate facies herald the onset of the Palaeocene-Eocene Thermal Maximum (Hazara basin, Northern Pakistan), file fe06abff-8e4b-471b-a2a1-b561f9bce489
|
11
|
Origin and role of non-skeletal carbonate in coralligenous build-ups: new geobiological perspectives in biomineralization processes, file c445321b-d18c-4997-a6f0-6fdda0d0d10d
|
8
|
Reef building and carbonate production modes in the west-central Tethys during the Cenozoic, file e39773b8-4f17-35a3-e053-3a05fe0aac26
|
5
|
null, file e39773b2-1744-35a3-e053-3a05fe0aac26
|
4
|
Reproductive anatomy of selected fossil species of the genus Mesophyllum (Central Paratethys), file e39773b8-4ebc-35a3-e053-3a05fe0aac26
|
4
|
Habit and behaviour of the nestling bivalve Gregariella semigranata (Reeve, 1858) from the Mediterranean coralligenous, file 80d18eca-77fd-4f1d-8919-aa0deca25a34
|
3
|
The contribution of calcareous algae to the biogenic carbonates of the continental shelf: Pontian Islands, Tyrrhenian Sea, Italy, file e39773b2-1288-35a3-e053-3a05fe0aac26
|
3
|
Coralligenous habitat in the Mediterranean Sea: A geomorphological description from remote data, file e39773b2-73c9-35a3-e053-3a05fe0aac26
|
3
|
Coralligenous morphotypes on subhorizontal substrate: A new categorization, file e39773b3-faf7-35a3-e053-3a05fe0aac26
|
3
|
Environmental factors controlling the distribution of rhodoliths: An integrated study based on seafloor sampling, ROV and side scan sonar data, offshore the W-Pontine Archipelago, file e39773b8-5539-35a3-e053-3a05fe0aac26
|
3
|
Preliminary data on ostracods and foraminifers living on coralligenous bioconstructions Offshore Marzamemi (Ionian Sea, Se Sicily), file 4b24b0ab-98b0-4267-b5bc-f2bc74327d1d
|
2
|
The role of non-skeletal carbonate component in Mediterranean Coralligenous: new insight from the CRESCIBLUREEF project, file 7b4bcb28-dd67-4592-92bf-a2cf3f5d10a1
|
2
|
Geniculate vs nongeniculate coralline algae: the different responses in case of stress are related also to morphology, file 8419faa1-0d4e-43c9-8e90-bf50770b7ed3
|
2
|
Levelling-up rhodolith-bed science to address global-scale conservation challenges, file bdca7c2c-dc9c-4b10-8d92-602fdcadcd5c
|
2
|
Establishing temperate crustose early Holocene coralline algae as archives for palaeoenvironmental reconstructions of the shallow water habitats of the Mediterranean Sea, file e0d560be-263b-47d8-8d3d-41a17f2db22f
|
2
|
Microbialite formation in southern Sinai (Egypt), file e39773b1-bd96-35a3-e053-3a05fe0aac26
|
2
|
Il coralligeno di Plateau pleistocenico del Terrazzo Marino di Le Castella (Calabria, Italia), file e39773b2-0d17-35a3-e053-3a05fe0aac26
|
2
|
Shallow water carbonate buildings in the Mediterranean Sea: geomorphological expression of coralligenous habitat, file e39773b2-1b03-35a3-e053-3a05fe0aac26
|
2
|
Persististrombus latus-Bearing Deposits South of Isola di Capo Rizzuto, Calabria (Southern Italy), file e39773b2-1d02-35a3-e053-3a05fe0aac26
|
2
|
Quaternary bioconstructions and rhodalgal carbonates along the Adriatic and Ionian coasts of the Italian peninsula., file e39773b4-5207-35a3-e053-3a05fe0aac26
|
2
|
Coralline algae as depth indicators in the Sommières Basin (early Miocene, Southern France), file e39773b4-9bcd-35a3-e053-3a05fe0aac26
|
2
|
Circumscription of Lithophyllum racemus (Corallinales, Rhodophyta) from the western Mediterranean Sea reveals the species Lithophyllum pseudoracemus sp. nov., file e39773b7-30eb-35a3-e053-3a05fe0aac26
|
2
|
Carbonate production by calcareous red algae and global change, file e39773b1-fb0e-35a3-e053-3a05fe0aac26
|
1
|
The Pleistocene coralligenous build-ups of Le Castella and Capo Colonna terraces (Calabria, Southern Italy), file e39773b2-1c78-35a3-e053-3a05fe0aac26
|
1
|
Study of Maerl facies from southern Italy and relevant acoustic signal from Chirp and Side Scan Sonar, file e39773b2-1c79-35a3-e053-3a05fe0aac26
|
1
|
Transported Rhodoliths Witness the lost carbonate factory: A case history from the miocene pietra da cantoni limestone (Nw Italy), file e39773b2-e3d0-35a3-e053-3a05fe0aac26
|
1
|
Fossil and living corallinaceans related to the mediterranean endemic species Lithophyllum racemus (Lamarck) Foslie, file e39773b2-ecda-35a3-e053-3a05fe0aac26
|
1
|
Monitoring deep Mediterranean rhodolith beds, file e39773b2-f7c8-35a3-e053-3a05fe0aac26
|
1
|
Prima documentazione di Coralline White Patch Disease in un letto a rodoliti delle Isole Egadi, file e39773b4-4eda-35a3-e053-3a05fe0aac26
|
1
|
Totale |
11.227 |