Introduction Paleocene sediments on the Dubrovnik Coast (Adria- tic Carbonate Platform) have not been documented. The find of the Paleocene algal flora from Plo~ice, Konavli is worthy of the attention although details on the strati- graphic column Plo~ice are missing. A limestone sam- ple with dasycladales and twenty thin sections originat- ing from the bed overlying karstified Upper Cretaceous deposits with bauxite traces were kindly given to me by my colleague MILENKO STOJKOVI]. This text – inventory of Plo~ice algal flora – is based on this material alone. Geological Review According to the Geological Map, Sheet Dubrovnik 1:100 000 (MARKOVI], 1972; 1975), in the Konavli Cre- taceous belt, west of the Zupci fault, sediments of (1) “Maastrichtian” and (2) “Danian” (= Cretaceous Gyro- pleura beds, and, in the uppermost part, beds with Sto- matopsis and Kosinia which “possibly are of Paleocene age”) are outcropped. The latter are unconformably over- lain by Middle Eocene Alveolina–Nummulites limestone. East of the Zupci Fault, “Danian” is missing – Middle Eocene is lying on the “Maastrichtian” with bauxite at places. Plo~ice is situated west of the Zupci Fault in a succession of “Danian” Gyropleura beds (Fig. 1). To my knowledge, the Konavli carbonate belt consists of ?Turonian, Senonian and Paleocene (?partly) dolomites and limestone (facies of the platform interior) and Lo- wer and Middle Eocene limestone (facies of the margin- al area of the platform). Santonian–Campanian sediments bear rich foraminiferal and rudist fauna. Beds with Rha- pydionina liburnica and rare Neobalkhania bignoti, with Laffiteina mengaudi and Rotalia trochidiformis, with Gy- Note on Paleocene algae in the Dubrovnik Coast (Adriatic Carbonate Platform) RAJKA RADOI^I] Abstract. The presence of Paleocene in the Dubrovnik Coast (Adriatic Carbonate Platform) is documented by algal flora in the locality Plo~ice, Konavli. The algal assemblage includes more than 20 species. Ten taxa present in the Paleocene of the Karst (NE Italy–Slovenia) occur in Plo~ice: Acroporella chiapasensis DELOFFRE, FOURCADE & MICHAUD, Decastroporella tergestina BARATTOLO, Drobnella slovenica BARATTOLO, Dissocladella gracilis RADOI^I], Hamulusella? liburnica (RADOI^I]), Cymopolia elongata (DEFRANCE) MUNIER–CHALMAS, Cymopolia paronai RAINERI, Cymopolia satyavanti (PIA), Cymopolia cf. barberae ELLIOTT and Microspo- rangiella buseri BARATTOLO. The stratigraphy of the Konavli carbonate belt has been revised in this study. Keywords: Dasycladales, Microproblematica, Paleocene, Adriatic Carbonate Platform, Dubrovnik Coast. Apstrakt. Nalaskom paleocenske algalne flore u Dubrova~kom primorju (Plo~ice, Konavli) doku- mentovano je prisustvo paleocena u ovom dijelu Jadranske karbonatne platforme. Algalnu skupinu ~ini vi{e od 20 taksona od kojih je deset (ukqu~iv{i i dva nova roda) nedavno opisano iz paleocena Karsta u grani~noj oblasti Slovenije i SI Italije: Acroporella chiapasensis DELOFFRE, FOURCADE & MICHAUD, Decastroporella tergestina BARATTOLO, Drobnella slovenica BARATTOLO, Dissocladella gracilis RADOI^I], Ha- mulusella? liburnica (RADOI^I]), Cymopolia elongata (DEFRANCE) MUNIER–CHALMAS, Cymopolia satyavanti (PIA), Cymopolia cf. barberae ELLIOTT i Microsporangiella buseri BARATTOLO. Revidirana je stratigrafija karbonatnog pojasa Konavala. Kqu~ne rije~i: Dasycladales, Microproblematica, paleocen, Jadranska karbonatna platforma, Dubro- va~ko primorje. GEOLO[KI ANALI BALKANSKOGA POLUOSTRVA ANNALES GÉOLOGIQUES DE LA PÉNINSULE BALKANIQUE 65 (2002–2003) 29–45 BEOGRAD, decembar 2004 BELGRADE, December 2004 Kralja Petra 38, 11000 Belgrade, Serbia and Montenegro. E-mail: radoicic@sezampro.yu
17
Embed
Note on Paleocene algae in the Dubrovnik Coast … · Paleocene sediments on the Dubrovnik Coast (Adria-tic Carbonate Platform) have not been documented. The find of the Paleocene
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Introduction
Paleocene sediments on the Dubrovnik Coast (Adria-tic Carbonate Platform) have not been documented. Thefind of the Paleocene algal flora from Plo~ice, Konavliis worthy of the attention although details on the strati-graphic column Plo~ice are missing. A limestone sam-ple with dasycladales and twenty thin sections originat-ing from the bed overlying karstified Upper Cretaceousdeposits with bauxite traces were kindly given to me bymy colleague MILENKO STOJKOVI]. This text – inventoryof Plo~ice algal flora – is based on this material alone.
Geological Review
According to the Geological Map, Sheet Dubrovnik1:100 000 (MARKOVI], 1972; 1975), in the Konavli Cre-
taceous belt, west of the Zupci fault, sediments of (1)“Maastrichtian” and (2) “Danian” (= Cretaceous Gyro-pleura beds, and, in the uppermost part, beds with Sto-matopsis and Kosinia which “possibly are of Paleoceneage”) are outcropped. The latter are unconformably over-lain by Middle Eocene Alveolina–Nummulites limestone.East of the Zupci Fault, “Danian” is missing – MiddleEocene is lying on the “Maastrichtian” with bauxite atplaces. Plo~ice is situated west of the Zupci Fault in asuccession of “Danian” Gyropleura beds (Fig. 1). To myknowledge, the Konavli carbonate belt consists of?Turonian, Senonian and Paleocene (?partly) dolomitesand limestone (facies of the platform interior) and Lo-wer and Middle Eocene limestone (facies of the margin-al area of the platform). Santonian–Campanian sedimentsbear rich foraminiferal and rudist fauna. Beds with Rha-pydionina liburnica and rare Neobalkhania bignoti, withLaffiteina mengaudi and Rotalia trochidiformis, with Gy-
Note on Paleocene algae in the Dubrovnik Coast(Adriatic Carbonate Platform)
RAJKA RADOI^I]
Abstract. The presence of Paleocene in the Dubrovnik Coast (Adriatic Carbonate Platform) is documentedby algal flora in the locality Plo~ice, Konavli. The algal assemblage includes more than 20 species. Ten taxapresent in the Paleocene of the Karst (NE Italy–Slovenia) occur in Plo~ice: Acroporella chiapasensis DELOFFRE,FOURCADE & MICHAUD, Decastroporella tergestina BARATTOLO, Drobnella slovenica BARATTOLO, Dissocladellagracilis RADOI^I], Hamulusella? liburnica (RADOI^I]), Cymopolia elongata (DEFRANCE) MUNIER–CHALMAS,Cymopolia paronai RAINERI, Cymopolia satyavanti (PIA), Cymopolia cf. barberae ELLIOTT and Microspo-rangiella buseri BARATTOLO. The stratigraphy of the Konavli carbonate belt has been revised in this study.
Apstrakt. Nalaskom paleocenske algalne flore u Dubrova~kom primorju (Plo~ice, Konavli) doku-mentovano je prisustvo paleocena u ovom dijelu Jadranske karbonatne platforme. Algalnu skupinu ~inivi{e od 20 taksona od kojih je deset (ukqu~iv{i i dva nova roda) nedavno opisano iz paleocena Karstau grani~noj oblasti Slovenije i SI Italije: Acroporella chiapasensis DELOFFRE, FOURCADE & MICHAUD,Decastroporella tergestina BARATTOLO, Drobnella slovenica BARATTOLO, Dissocladella gracilis RADOI^I], Ha-mulusella? liburnica (RADOI^I]), Cymopolia elongata (DEFRANCE) MUNIER–CHALMAS, Cymopolia satyavanti(PIA), Cymopolia cf. barberae ELLIOTT i Microsporangiella buseri BARATTOLO. Revidirana je stratigrafijakarbonatnog pojasa Konavala.
ANNALES GÉOLOGIQUES DE LA PÉNINSULE BALKANIQUE65 (2002–2003) 29–45 BEOGRAD, decembar 2004
BELGRADE, December 2004
Kralja Petra 38, 11000 Belgrade, Serbia and Montenegro. E-mail: [email protected]
ropleura and those with atypic fossils, alternate in theUpper Maastrichtian succession.
Until recently the opinion prevailed that the marinetransgression in the given part of the Adriatic Carbo-nate Platform (= (Dalmatian Zone. auktorum) began onlyin the Lutetian: BIGNOT & CADET, 1972; CADET, 1978).
Upper Maastrichtian deposits with Rhapydionina li-burnica (= Danian sensu MARKOVI], 1972) are also di-stributed east of the Zupci Fault. On the DubrovnikCoast and in the Boka Kotorska, these sediments aredolomitized and epigenetically much altered, at placesthey are more or less karstified.
The information about the Paleocene suggests a needfor a more detailed study of the transitional ACP/CukaliBudva Basin area. Dating of stratigraphic gaps would be
very important, because they are multiple and of variousduration in individual platform blocks.
Plo~ice algal flora
The sampled Paleocene bed (subtidal bioclastic packsto-ne–wackestone, partly removed) contains rich algal florawhich were a transported component and sorted in part ofthe bed (Pl. 6, Fig. 5). Numerous altered specimens havelost primary features, in such a way that even their gener-ic characters could not be recognized. The fauna consistsof rare gastropods, corals and numerous foraminifera (pre-vailing frequently discorbids, Bangiana, Gyroidinella, Ro-talia, Miliolidae). Disaggregated and resedimented Paroni-pora elements are dispersed or concentrated in laminae.Vugs with speleothem fabric in this Paleocene limestoneindicate subaerial exposure as well as karstification.
BARATTOLO (1998) presented rich and well preservedassemblages of Dasycladales and microproblermaticafrom Maastrichtian and Paleocene in Karst, Slovenia–Italy boundary area. Ten taxa of this algal flora, includ-ing two new genera, were found in the Plo~ice Paleo-cene. The abundant transported algae in the Plo~icelimestone originate from shallow–water littoral areaswhich were inhabited by diverse algal populations.
The algal assemblage from Plo~ice includes the fol-lowing species:
This species is described in rich but poorly preserved ma-terial from the Maastrichtian of the Chiapas region in Me-xico: small–sized cylindrical thallus (D 0.375–1.05 mm) with“un axe principal particulierment large” (0.225–0.6 mm),inclined primary, bearing tufts of 5–8 secondary laterals anda d/D of 60%. In the illustrated sections, the secondary la-terals are not clearly visible.
In the Karst area, the species is found in beds “fromuppermost Maastrichtian to lower Danian (Sopada sec-tion) or only in Danian beds (Cole de Medea) (BARAT-TOLO, 1998).
The specimens of Acroporella chiapassenis in Plo~i-ce are much better preserved than those in type local-ities. The thin dark microcrystalline layer around theaxis and those around some pores is calcified mem-brane of primary organic origin. Short secondary lateralsare rarely observed (Pl. 1, Fig. 1). The thallus is small-er in size (0.336–0.640 mm) and, compared with typematerial, has a narrower axis (0.160–0.320 mm) and,consequently, a different d/D value (34–45%).
It seems that specimens of smaller dimension prevailin the population of Acroporella chiapasensis from theKarst area (BARATTOLO, 1998; pl. 1, figs. 1, 2, 4), butthat rare specimens have a larger axis diameter similarto the Mexican material (Pl. 1, Fig. 3)
RAJKA RADOI^I]30
Fig. 1. Detail from the Geological Map, Sheet Dubrovnik(MARKOVI], 1972), simplified. 1 = Dinaric Carbonate Platform(“Visoki kr{“): Jurassic and Cretaceous; 2–4 = Adriatic Car-bonate Platform (“Parautochton”): 2 = Maastrichtian, 3 = Da-nian Gyropleura beds, 4 = Middle Eocene Nummulites–Alveo-lina limestone; 5 = Eocene–Oligocene, Flysch; 6 = Cukali–Bu-dva Basin: Upper Cretaceous (the last outcrop of this Basintowards west).
Most probably, individuals with a small sized thal-lus and a narrower axis prevail in populations of thisalga in Dinaridic domains.
It should be mentioned at this point that Acroporella chia-pasensis is also present in the Maastrichtian of the same belt,east of the Zupci Fault. The only specimen, shown in Pl. 1,Fig. 13, was found in a bed with Rhapydionina liburnica.
Rare, poorly preserved, narrow cylindrical tubes withwhorls of bowl–like inclined primary laterals are Clype-ina, which are similar to Clypeina occidentalis in termsof the form of the laterals.
Genus Cymopolia LAMOUROUX is represented by rarespecimens of different species:
Cymopolia paronai RAINERI, 1930Pl. 2, Fig. 12
Only two fragments of this species (which are veryfrequent in the Karst area) are recognized in the exam-ined thin sections.
Cymopolia satyavanti (PIA inRAMA RAO & PIA, 1936)
Pl. 1, Fig. 12
The oblique section of a cylindrical tube ascribed tothis taxon represents a sterile article (see sterile articlesillustrated by PIA in RAMA RAO and PIA, 1936; pl. 1).Whorls of sterile articles consist of inclined laterals: ashort primary bearing two funnel–like secondaries gradu-ally enlarged, swollen at the distal end. The latter are ar-ranged in pairs, one above the other in a vertical plane,which is clearly visible in the illustrated section (arrows).
Genus Decastroporella – type species Decastropo-rella tergestina is introduced on the rich, well pre-served material from the Karst area. The main charac-teristics of the species are a peculiar thallus structure(lower cylindrical portion and well differentiated head),the presence of sterile and fertile laterals and, possibly,double location of the reproductive organs.
Decastroporella tergestina is characterized by an arti-culated cylindrical portion. Relatively more or less longarticles bear numerous sterile laterals (hair type) and, atthe top, a whorl of phloiophoreous fertile primary later-als. The head of the thallus is also covered by numer-ous sterile laterals. Due to its dismembered thallus, thehead occurs separately from the cylindrical portion.
In the Plo~ice limestone, the thallus of this species isdismembered; separate articles are dispersed in the rock,fragments with two or three articles rarely occur. Therecrystallized wall of the articles is often thicker with-out preserved pores corresponding to sterile laterals (Pl.3, Figs. 2, 3, 9). One large circular section with a thinmicrocrystalline wall is the only specimen of a thallushead. (Pl. 6, Fig. 6).
This small Dissocladella decribed from Paleocene ofMt. Majevica, Bosnia, was recognized by Barattolo inDanian beds of the Cole de Medea section. Specimensfrom Plo~ice are somewhat larger than those in the typelocality (Table 1).
Calcareous tubes of Dissocladela gracilis in the Plo-~ice limestone are differently preserved, in some ofthem pores are rare or unpreserved, especially the pores
Note on Paleocene algae in the Dubrovnik Coast (Adriatic Carbonate Platform) 31
Table 1. Measurements.
of secondary laterals. Some specimens have more or lessenlarged pores.
In the Paleocene of Materija, Slovenia, dasycladaleanDS2 occurs, as in Plo~ice, associated with Decastropo-rella tergestina and Drobnella slovenica (BUSER & RA-DOI^I], 1987, pl.3, figs. 3, 4). Some sections of thisspecies appear to have a thallus of a simple structure,as is the case with some Clypeina. In fact its structureis more complex, the fertile ampullae location is notquite clear. At the moment, the available material doesnot provide sufficient data for the introduction of a newgenus and species .
Terquemella spp.Pl. 1, Fig. 15; Pl. 2, Fig. 3
Terquemelae are a minor component in the Plo~icealgal assemblage.
Some of the undetermined dasycladales are also il-lustrated: DP1 (Pl. 1, Fig. 16), DP2 (Pl. 2, Fig. 11),DP3 (Pl. 3, Fig. 14), DP4 (Pl. 5, Fig. 9), DP5 (Pl. 6,Fig. 1), DP6 (Pl. 6, Fig. 3).
Although Drobnella slovenica is described on the richrelatively well preserved material (numerous large thal-lus fragments), their systematic position is at the mo-ment uncertain: Chlorophyta or Charophyta? The spe-cies is characterized by a peculiar thallus structure and,especially, by an exceptional calcareous skeleton, which“does not seem to have been recorded before in moreor less similar fossil algae” (BARATTOLO, 1998: 89).
In the Plo~ice Paleocene, as in Materia, Slovenia, Drob-nella slovenica is presented only by small skeletal frag-ments and different sections of elongated pores – “main
pores”. The unusual tangential–oblique section of the mainpore, illustrated in Pl. 4, Fig. 6, has a very long pointed di-stal end, much longer than observed in the Karst material.
Age of Plo~ice limestone
Decastroporella tergestina, Drobnella slovenica, andAcroporella chiapasensis are the dominant species inthe Plo~ice assemblage. In the Karst area, Decastropo-rella tergestina and Drobnella slovenica appear “veryclose to the K/T boundary” and were distributed inSBZ1. Acroporella chiapasensis appears in Maastrichti-an; in the Danian SBZ1, it is associated with Decastro-porella tergestina and Drobnella slovenica. These taxaappear before the appearance of the Cymopolia assem-blage in the lowest part of SBZ1 (BARATTOLO, 1998:93). Consequently, the algal flora in the Plo~ice limesto-ne can be asscribed to the Late Danian. Valuable dataon the development and the distribution of Paleocenein this domain of the Adriatic Carbonate Platform is tobe expected through further and more detailed studiesof the Konavli Paleocene.
Acknowledgement
I am thankful to my colleague MILENKO STOJKOVI] whogave me the rock-sample from Plo~ice and thus contributed tothe knowledge of the Paleocene in the Konavli carbonate belt.
References
BARATTOLO, F., 1998. Dasycladacean Green Algae and Mi-croproblematica of the uppermost Cretaceous-Paleocene inthe Karst area (NE Italy and Slovenia). Dela – OperaSAZU, 4. razred, 34 (2): 65–127, Ljubljana.
BIGNOT, G. & CADET, J.P., 1972. Sur la stratigraphie des couch-es de passage du Cretace au Tertiaire; Le Liburnien de Dal-matie et de Herzegovine meridionales (Yougoslavie). CompteRendu, Sommaire, Société géologique de France, 386–387.
BUSER, S. & RADOI^I], R., 1987. Dasycladacean Algae inMiddle Paleocene miliolid limestones in Kras in Slovenia.Geologija, 28/29 (1985/1986): 69–91.
CADET, J.P., 1978. Essai sur l’evolution alpine d’une paleo-merge continentale: les confins de la Bosnie–Herzegovine etdu Montenegro (Yougoslavie). Mémoire de la Société géo-logique de France, Nouvelle serie, 57, 133: 1–84.
DELOFFRE, R., FOURCADE, E. & MICHAUD F., 1985. Acropo-rella chiapasensis n. sp., algue dasycladacee maastrichtien-ne du Chiapas (SE Mexique). Bulletin, Centre RecherchesExploration–Production, Elf–Aquitaine, 9 (1): 115–125.
MARKOVI], B., 1972. Osnovna geolo{ka karta SFRJ 1:100 000,list Dubrovnik, K34–49. Savezni geolo{ki zavod, Beograd.
MARKOVI], B., 1975. Tuma~ za Osnovnu geolo{ku kartu SFRJ1:100 000, list Dubrovnik K34–49. Savezni geolo{ki zavod,Beograd.
RAJKA RADOI^I]32
RAMA RAO & Pia J., 1936. Fossil algae from the UppermostCretaceous beds (the Niniyur Group) of the TrichynopolyDistrict, S. India. Paleontologica Indica, 21(4): 1–44.
Rezime
Biqe{ka o paleocenskim algamaDubrova~kog primorja (Jadranskakarbonatna platforma)
U uzorku kre~waka iz Plo~ica u Konavlima(Dubrova~ko primorje), koji mi je qubazno ustupiokolega Milenko Stojanovi}, na|ena je bogata pale-ocenska algalna flora. Ovim nalazom dokumento-vano je prisustvo paleocena u karbonatnom pojasuKonavala koji pripada Jadranskoj karbonatnoj plat-formi (= parautohton autora). Algalnu skupinu~ini vi{e od dvadeset vrsta dazikladalesa i algal-ni rod i vrsta problemati~ne pripadnosti – Drob-nella slovenica BARATTOLO.
Prema Osnovnoj geolo{koj karti lista Dubrov-nik 1:100 000 (MARKOVI], 1972) karbonatni pojasKonavala, zapadno od Zuba~kog rasjeda, izgra|ujusedimenti “mastrihta” i “danijena” koji se smatragorwokrednim katom (= slojevi sa giropleurama i,u najvi{em dijelu, sa stomatopsisima i kozinijama.Za ove potowe se ka`e da mogu}e pripadaju paleo-cenu). Isto~no od Zuba~kog rasjeda slojevi danije-na nedostaju, a alveoliunski i numulitski kre~wa-ci sredweg eocena le`e preko “mastrihta” sa po-javama boksita (sl. 1).
Karbonatni pojas Konavala, na osnovu sada{wegpoznavawa, ~ine ?turonski, senonski i paleocen-ski kre~waci i dolomiti (facije platformne unu-tra{wosti) i kre~waci doweg i sredweg eocena(facije marginalnog platformnog areala). Sloje-vi sa Rhapydionina liburnica i Neobalkhania bignoti, saLaffiteina mengaudi i Rotalia trochidiformis, sa giro-pleurama i oni sa atipi~nim fosilima naizmje-ni~no se javqaju u gorwem mastrihtu. Gorwomast-rihtski sedimenti sa Rhypidionina liburnica (= “da-nijen” u smislu MARKOVI], 1972) tako|e su raspro-straweni isto~no od Zuba~kog rasjeda. U Dubro-
va~kom primorju, kao i u Boki Kotorskoj, ovi sed-imenti su dolomitizirani i veoma epigenetski iz-mijeweni, mjestimi~no su znatno karstifikovani.
Analizirani uzorak subplimatski bioklasti~nipekston-vekston, djelom sinsedimentno poreme}en.Algalna flora je transportovana; u dijelu sloja bio-gena komponenta je sortirana (tab. 6, sl. 5). Faunu~ine rijetki gastropodi, korali i veoma u~estaliforaminiferi (diskorbidi, Bangiana, Gyroidinella,Rotalia, Miliolidae). Elementi–kristali razorenihParonipora veoma su brojni, javqaju se rasuti u sedi-mentu ili koncentrisani u lamine (tab. 6, sl. 5).
Karsne {upqine u uzorku ovog paleocenskog kre~-waka ukazuju na postojawe stratigrafske praznine iu paleocenu (stratigrafske praznine – kra}a ilidu`a izrowavawa – u intervalu mastriht–paleogensu vi{ekratna i razli~itog trajawa na pojedinimblokovima platforme).
Algalna flora Plo~ica u velikoj mjeri je sli~-na paleocenskoj flori Karsta (grani~no podru~jeSlovenije i SI Italije) koju je u veoma obimnojstudiji prikazao BARATTOLO (1998).
Decastroporella tergestina, Drobnella slovenica iAcroporella chiapasensis dominantne su vrste u kre~-waku Plo~ica.
BARATTOLO pomiwe da se ovi taksoni u oblastiKarsta javqaju “very close to K/T boundary” i da surasprostraweni u intervalu SBZ1, dakle danske sustarosti. Polaze}i od ovog podatka, analiziranikre~wak Plo~ica tako|e je danske starosti. Ima-ju}i u vidu znatno u~e{}e roda Cymopolia, evident-nu stratigrafsku prazninu i mjestimi~no znatnokarstifikovanu krednu podlogu, paleocenski kre~-wak Plo~ica odgovarao bi vi{em danijenu.
Karsne {upqine u analiziranom uzorku ukazujuna postojawe stratigrafske praznine i u paleocenu(stratigrafske praznine – kra}a ili du`a izrowa-vawa u intervalu mastriht–paleogen su vi{ekrat-na i razli~itog trajawa na pojedinim blokovimaplatforme.
Nalazak paleocena u Konavlima treba da budepoticaj detaqnijem biostratigrafskom i sedimen-tolo{kom prou~avawu sukcesije mastriht–sredwieocen u Dubrova~kom i Crnogorskom primorju.
Note on Paleocene algae in the Dubrovnik Coast (Adriatic Carbonate Platform) 33
Fig. 4. Cymopolia sp. (aff. C. ellongata). Specimen with short primary, longer secondarylaterals and small fertile ampullae, oblique section; × 60. Thin section RR2964.
Fig. 7. Cymopolia sp. nov.?. Oblique section. The same species is presented byBARATTOLO as “Cymopolia cf. barberae ELLIOTT”; × 35. Thin section RR2961.
Note on Paleocene algae in the Dubrovnik Coast (Adriatic Carbonate Platform) 37
RAJKA RADOI^I]38
PLATE 3
Figs. 1–13. Decastroporella tergestina BARATTOLO.1–4, 13. Different longitudinal sections; × 50. 1: two complete articles; lower
part of the article shows pores corresponding to sterile “subtile” later-als, upper part bears a whorl of “massive” (fertile) laterals. Thin sec-tions RR2946, 2944, 2953, 2951; RR2955.