Best sources in Ligurian Wikipedia PR-model

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#WebsiteScore in June 20201m changes
1zeneize.net70,550-40,134
2quirinale.it26,900+10,600
3google.it25,402+2,498
4cadepuio.it17,140+1,289
5ethnologue.com11,200-1,271
6google.es10,976+2,859
7archive.org8,645-3,583
8europa.eu7,619-698
9unesco.org7,433+1,429
10libero.it7,325-7,600
11youtube.com7,290+5,280
12wikisource.org7,028+1,490
13furmientu.org6,600+6,300
14stat.gov.pl6,500+100
15italiani.it6,500-4,500
16treccani.it6,142-3,904
17cia.gov6,000-1,100
18cervantes.es5,600-200
19impariamoilventimigliese.altervista.org5,398+1,566
20bankier.pl5,300-600
21country-data.com5,100+1,200
22flickr.com4,900+4,900
23weebly.com4,500+4,500
24quotidiano.net4,283-33
25theguardian.com4,283-33
26ons.gov.uk3,933-33
27ilsecoloxix.it3,781+3,554
28traditions-monaco.com3,636-648
29nih.gov3,300+3,300
30nytimes.com3,209+100
31senato.it2,900+100
32francobampi.it2,898-2,295
33culture.gouv.fr2,700-1,799
34patrimonilinguistici.it2,700-504
35auswaertiges-amt.de2,600-400
36comuni-italiani.it2,600+2,600
37primocanale.it2,500-371
38statcounter.com2,500+300
39remacle.org2,454+1,495
40palais.mc2,454-12
41dubawa.org2,350-750
42vanguardngr.com2,350-750
43corriere.it2,276-202
44istat.it2,158-564
45wikipedia.org2,084+108
46mymonaco.fr2,000-640
47ald-monaco.org2,000-640
48theses.fr2,000-640
49southerntimesafrica.com2,000-100
50interno.gov.it1,966-2,500
51usgs.gov1,900-400
52bnf.fr1,858-1,506
53infogenova.info1,800+700
54agi.it1,633-617
55chateauversailles.fr1,600+1,600
56dechile.net1,589+1,277
57lexilogos.com1,568+1,219
58provincia.cremona.it1,5410
59regione.sicilia.it1,450+1,450
60norden.org1,440-960
61academia.edu1,367+1,278
62budapestbylocals.com1,300+100
63euromonitor.com1,300+100
64filastrocche.it1,250+1,250
65guinnessworldrecords.com1,250-3,050
66unclimatesummit.org1,250-3,050
67rijksmuseum.nl1,209+1,209
68enciclopediadelledonne.it1,200+1,200
69repubblica.it1,181-95
70llengualigur.blogspot.com1,052+126
71cec.eu.int1,050+50
72collectienederland.nl1,036+1,036
73jstor.org1,025-1,200
74theplantlist.org1,025-1,200
75istrapedia.hr975+150
76goeuro.it975+150
77istrianet.org975+150
78museidigenova.it960-100
79confraternita-sgbg.it9500
80cmc.pr.gov.br915+323
81ambientediritto.it900+500
82ferrovie.info886+591
83estherschreuder.wordpress.com863+863
84monaconatureencyclopedia.com841+233
85biodiversitylibrary.org831+263
86geneanet.org818-4
87gouv.mc818-4
88nationalanthems.me818+818
89letras.mus.br818+818
90statoids.com800-1,800
91tuttitalia.it800+800
92rockit.it800-200
93palazzoducale.genova.it800+600
94gazzettaufficiale.it800-200
95campomorone.ge.it750+650
96mil2002.org727-182
97db-city.com725+725
98files.wordpress.com725+725
99siciliafan.it725+725
100ilsole24ore.com716-667
101lagiostra.biz700+400
102palazzozevallos.com681+109
103webcitation.org651-1,156
104oilproject.org640-1,360
105difesa.it600+200
106unige.it583-1,533
107atilf.fr573+97
108rspb.org.uk550+200
109uchicago.edu549-29
110scuderiequirinale.it533-467
111sampdoria.it533-800
112culturagenova.it533-1,433
113isegretideivicolidigenova.com533-1,433
114natmus.dk518+518
115erboristeriadeifrati.it500+500
116oscars.org488-867
117iau.org440-240
118acompagna.org405+50
119gba.gov.ar400+200
120letelegramme.fr400-2,100
121ul.se400-300
122leferrovie.it400-1,800
123wikimedia.org400-266
124persee.fr382+171
125cieldoc.com382+171
126saperescienza.it382+171
127aegeanews.gr382+171
128ouest-france.fr382+171
129confedilizia.it350-150
130palermomania.it350+350
131academiasanctiambrosii.it350-2,100
132king-kigeli.org350-2,100
133centraalmuseum.nl345+345
134provincia.savona.it333-667
135colapisci.it320+256
136tennisclubgenova.it300-100
137ttnetmuzik.com.tr300-225
138amishamerica.com300-966
139padutch.net300-966
140rsi.ch300-966
141sardegnageoportale.it300-600
142regionesardegna.it300-600
143provincia.carboniaiglesias.it300-600
144ucsc.edu292+277
145museudelter.cat291+33
146terminologiaetc.it291+33
147sciencedirect.com281+63
148forbes.com275-37
149micmap.org275-37
150catalogueoflife.org268-38
151marinespecies.org268-38
152minambiente.it268-38
153tufts.edu268-38
154monumenta.ch268-38
155nasa.gov256+192
156etymonline.com255-78
157worldmayor.com250-400
158fordham.edu250+50
159thelatinlibrary.com250+50
160goldenageproject.org.uk250+50
161msccabrini.it250+150
162researchgate.net247+130
163agenpress.it233-133
164navy.mil229-116
165harvard.edu218+87
166saporidelpiemonte.net208-142
167comune.genova.it206-16,246
168distrowatch.com200-266
169linuxdeepin.com200-266
170muzi.info200-266
171bedetheque.com200-600
172typo.cz200-200
173books.google.com194+184
174erasuperba.it181-46
175interno.it181-46
176elapsus.it175-1,200
177catharijneconvent.nl172+172
178lacmaonfire.blogspot.com172+172
179digitale-sammlungen.de172+172
180uva.nl172+172
181mskgent.be172+172
182sothebys.com172+172
183teylersmuseum.nl172+172
184adlibhosting.com172+172
185stedelijk.nl172+172
186liquida.it166+133
187bloo.it166+133
188dailybest.it162-289
189biography.com162-289
190fishbase.in160+128
191sardegnadigitallibrary.it160+128
192cortmic.eu160+128
193prolocorecco.it158-258
194storiapatriagenova.it150-50
195allocine.fr150-900
196monacomonsieur.com150-900
197gruppocarige.it1500
198lacasadisangiorgio.it1500
199geoscienceworld.org146+139
200recco.ge.it133-89

Scientific publications with DOI number

#WebsiteScore in June 20201m changes
1Uncorking the bottle: What triggered the Paleocene/Eocene thermal maximum methane release?243+230
2Mammalian responses to climate change at the Paleocene-Eocene boundary: Polecat Bench record in the northern Bighorn Basin, Wyoming194+184
3Rapid Acidification of the Ocean During the Paleocene-Eocene Thermal Maximum194+184
4Sedimentary response to Paleocene-Eocene Thermal Maximum carbon release: A model-data comparison146+139
5New chronology for the late Paleocene thermal maximum and its environmental implications146+139
6An alternative age model for the Paleocene–Eocene thermal maximum using extraterrestrial 3He146+139
7Environmental precursors to rapid light carbon injection at the Palaeocene/Eocene boundary146+139
8An early Cenozoic perspective on greenhouse warming and carbon-cycle dynamics97+92
9Astronomical pacing of late Palaeocene to early Eocene global warming events97+92
10Abrupt reversal in ocean overturning during the Palaeocene/Eocene warm period97+92
11Evolutionary consequences of the latest Paleocene thermal maximum for tropical planktonic foraminifera97+92
12A case for a comet impact trigger for the Paleocene/Eocene thermal maximum and carbon isotope excursion97+92
13Black carbon in Paleocene–Eocene boundary sediments: A test of biomass combustion as the PETM trigger97+92
14Could changing ocean circulation have destabilized methane hydrate at the Paleocene/Eocene boundary?97+92
15Termination of global warmth at the Palaeocene/Eocene boundary through productivity feedback97+92
16The Source and Fate of Massive Carbon Input During the Latest Paleocene Thermal Maximum48+46
17Multiple early Eocene hyperthermals: Their sedimentary expression on the New Zealand continental margin and in the deep sea48+46
18Warm and wet conditions in the Arctic region during Eocene Thermal Maximum 248+46
19High-resolution deep-sea carbon and oxygen isotope records of Eocene Thermal Maximum 2 and H248+46
20The Paleocene-Eocene benthic foraminiferal extinction and stable isotope anomalies48+46
21Temperature-dependent variation in the distribution of tetraether membrane lipids of marine Crenarchaeota: Implications for TEX86paleothermometry48+46
22Climate model sensitivity to atmospheric CO2 levels in the Early–Middle Paleogene48+46
23Carbon cycling and chronology of climate warming during the Palaeocene/Eocene transition48+46
24Abrupt increase in seasonal extreme precipitation at the Paleocene-Eocene boundary48+46
25A blast of gas in the latest Paleocene: Simulating first-order effects of massive dissociation of oceanic methane hydrate48+46
26An assessment of the biogeochemical feedback response to the climatic and chemical perturbations of the LPTM48+46
27Effect of calcium carbonate saturation state on the calcification rate of an experimental coral reef48+46
28Reduced calcification of marine plankton in response to increased atmospheric CO248+46
29Phytoplankton Calcification in a High-CO2 World48+46
30Evidence of surface water oligotrophy during the Paleocene-Eocene thermal maximum: Nannofossil assemblage data from Ocean Drilling Program Site 690, M...48+46
31Release of methane from a volcanic basin as a mechanism for initial Eocene global warming48+46
32Paleocene-Eocene Thermal Maximum and the Opening of the Northeast Atlantic48+46
33High-resolution records of the late Paleocene thermal maximum and circum-Caribbean volcanism: Is there a causal link?48+46
34Magnetofossil spike during the Paleocene-Eocene thermal maximum: Ferromagnetic resonance, rock magnetic, and electron microscopy evidence from Ancora,...48+46
35Role of methane clathrates in past and future climates48+46
36On the duration of the Paleocene-Eocene thermal maximum (PETM)48+46
37The shape of Eros39+16
38Physical properties of asteroid 433 Eros29+12
39Mineralogical Variations within the S-Type Asteroid Class19+8
40Eros’ Rahe Dorsum: Implications for internal structure19+8
41Feasibility of obtaining the Solar Parallax from simultaneous Micrometer Observations of (433) Eros9+4
42Spectrophotometry (0.33 to 1.07 μm) of 433 Eros and compositional implications9+4
43Five-color photoelectric photometry of asteroid 433 Eros9+4
44The diameter and thermal inertia of 433 Eros9+4
45doi:10.1038/380689a09+4
46Determination of Shape, Gravity, and Rotational State of Asteroid 433 Eros9+4
47A precise modeling of Eros 433 rotation9+4
48Compositional Structure of the Asteroid Belt9+4
49Maria’s Family: Physical Structure and Possible Implications for the Origin of Giant NEAs9+4
50Near-IR Reflectance Spectroscopy of 433 Eros from the NIS Instrument on the NEAR Mission9+4
51Elemental composition of 433 Eros: New calibration of the NEAR-Shoemaker XRS data9+4
52433 Eros lineaments: Global mapping and analysis9+4
53Global survey of color variations on 433 Eros: Implications for regolith processes and asteroid environments9+4

Wikipedia Languages

About project

Popularity and reliability assessment of sources in references of Wikipedia in different languages. Data extraction based on complex method using Wikimedia dumps in July 2020. More details in the research "Modeling Popularity and Reliability of Sources in Multilingual Wikipedia". Values for PR-score and AR-score were additinaly increased 100 times (to distinguish smaller values in the ranking).

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