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Romualdo Formation

The Romualdo Formation is a geological unit of the (late to early ) in the Araripe Basin of northeastern , comprising shales, limestones, and sandstones deposited in a restricted epeiric sea environment during the initial rifting of the South Atlantic. Renowned as a Konservat-Lagerstätte, it yields exceptionally preserved three-dimensional fossils encased in carbonate concretions, preserving soft tissues and offering insights into a high-stress with marine and terrestrial influences. This formation, part of the Santana Group, records a transgressive-regressive cycle marked by marine incursions that introduced , dinoflagellates, bivalves, echinoids, and mollusks alongside terrestrial vertebrates such as theropod dinosaurs, crocodyliforms, , and pterosaurs. The fossil assemblage, including notable taxa like the spinosaurid and coelacanths, highlights in a lagoonal to nearshore setting with periodic anoxic conditions favoring preservation. Chronostratigraphic studies confirm its deposition amid tectonic shifts, with organic-rich strata indicating fluctuating and oxygenation levels.

Geological Setting

Location and Basin Context

The Romualdo Formation crops out in the Araripe Basin of northeastern , spanning the states of , , and at their confluence. This region includes localities such as the municipality of Exu in State, where the formation's shales and coquinas are exposed. The basin itself occupies approximately 8,000 square kilometers and originated as an intracratonic feature linked to the tectonic fragmentation of the Borborema Province during the . The Araripe Basin's evolution involved multiple tectonic phases, beginning with pre-rift sedimentation, followed by rift-stage faulting and syn-rift deposition from the Upper Jurassic to Neocomian. Post-rift development, characterized by thermal subsidence, facilitated transgressive marine incursions during the Early Cretaceous, influencing the depositional setting of the Santana Group, which encompasses the Romualdo Formation. This phase records a polygenetic history with four unconformity-bounded megasequences, reflecting episodic extension and stabilization amid the opening of the South Atlantic. The Romualdo Formation specifically formed within a restricted epeiric during the , as part of a broader transgressive-regressive cycle that archived ingressions into the continental interior. margins are defined by fault zones, such as the northern border fault exhibiting recurrent activity evidenced by dated veins around 95 Ma. These structural elements controlled distribution and paleoenvironmental shifts, with the formation's strata reflecting interplay between fluvial, lacustrine, and influences in the post-rift context.

Stratigraphic Framework

The Romualdo Formation constitutes the upper unit of the Santana Group within the post-rift I megasequence of the Araripe Basin, northeastern Brazil, marking a phase of marine influence following restricted lacustrine and deposition. It overlies the Ipubi Formation's sequence, which in turn rests on the Crato Formation's lacustrine carbonates, with the contact typically disconformable due to a regional separating rift-related strata below from post-rift units above. This lower boundary reflects a shift from restriction to transgressive siliciclastic input, often transitional in outcrops where dissolution has obscured sharp contacts. The formation attains a thickness of approximately 100 meters in its most complete exposures, comprising predominantly fine-grained shales, siltstones, and minor sandstones that record a full transgressive-regressive cycle driven by marine ingression from the southeast. Bounded above by another regional unconformity, it passes into the overlying Araripina and Exu formations of the Araripe Group, which represent fluvial and marginal-marine ; this upper boundary signifies a return to continental dominance post-regression. The cycle's geometry shows coastal onlap toward the northwest, with thickness and marine signatures diminishing laterally, consistent with epeiric dynamics in an intracratonic setting. Stratigraphically, the Romualdo Formation integrates into the Alagoas Stage of the , correlating with similar incursions in adjacent basins like the Sergipe-Alagoas, though its preservation of laminated, concretion-bearing shales distinguishes it as a key archive of restricted conditions amid broader South Atlantic rifting. No significant internal hiatuses are reported, but variations from proximal sandier bases to distal shaly tops underscore the regressive cap, with biostratigraphic ties to ammonites and ostracods reinforcing its late assignment.

Lithology and Chronostratigraphy

Sedimentological Characteristics

The Romualdo Formation is characterized by a diverse assemblage of siliciclastic and sediments, including stratified conglomerates, pebbly trough cross-bedded sandstones composed of , , and rock fragments, fine- to medium-grained sandstones, interbedded shales and siltstones, organic-rich black shales, laminated limestones, marls, and coquinas dominated by shells. These lithologies form a succession up to approximately 100 meters thick, with a prominent 3- to 5-meter-thick interval of fossil-rich black shales bearing concretions, which exhibit high organic carbon content (up to 12%) and evidence of dysoxic to anoxic conditions. Sedimentary structures include trough cross-bedding, current ripples, flaser, wavy, and lenticular in lower sandstone-dominated units; hummocky cross-stratification in bioclastic limestones; scour-fill deposits with intraclasts; and graded shell concentrations in upper beds, alongside laminated, lenticular, massive, and wavy carbonaceous or clay laminae throughout. associations transition from heterolithic ostracod-rich carbonate laminites and sigmoidal sandstones with mud drapes in basal sections to organic-rich claystones, wackestones with ostracodes and , and calcisphere mudstones in medial black shales, capped by shelly limestones and hybrid sandstones featuring glauconite-bearing arenites. Concretions, often centimeter- to decimeter-scale and carbonate-cemented, preserve exceptional fossils and form lenses within the shales, reflecting early diagenetic processes in fine-grained, low-energy deposits. The formation's sediments display a mixed siliciclastic-carbonate , with polymictic conglomerates containing and gravels at the base, and increasing marine indicators such as and bioclastic concentrations upward, signifying a wedge-shaped that thins northwestward. These characteristics reflect deposition in a influenced by transgressive pulses, with basal fluvial-alluvial inputs grading into tide- and storm-influenced shelf settings, though primary sedimentological features emphasize the interplay of terrigenous influx and in restricted to open marine conditions.

Age Determination and Correlations

The age of the Romualdo Formation has been determined primarily through biostratigraphic analysis of , supplemented by recent geochronological data from . Planktic such as Hedbergella aptiana and Microhedbergella miniglobularis indicate the upper M. miniglobularis Zone, while ostracods like Pattersoncypris crepata and calcispheres provide supporting evidence; the absence of Albian index species such as Microhedbergella renilaevis constrains the formation to the upper . Palynological studies corroborate this, identifying the P-270 Palynozone marked by the cyst Sergipea variverrucata, a reliable guide in basins, with marine palynomorphs (e.g., dinocysts and foraminiferal linings) signaling episodic transgressions in the late . nannofossils further support an -Albian range, though without resolving to a single stage. A U-Pb geochronological of dentine from the fish Cladocyclus gardneri yielded a discordia age of 110.5 ± 7.4 Ma (2σ, MSWD = 2.6), placing the formation in the early and highlighting potential limitations in ranges or diachroneity of biostratigraphic markers. This numerical age aligns broadly with the biostratigraphic framework but shifts emphasis toward the Aptian-Albian boundary (~113 Ma), suggesting that S. variverrucata may extend slightly into the earliest or that local depositional timing postdates initial marker appearances elsewhere. Stratigraphically, the Romualdo Formation correlates with upper marine ingressions in adjacent Brazilian rift basins, including the Sergipe-Alagoas and Potiguar basins, where equivalent microfossil assemblages and palynozones occur amid the opening of the South Atlantic. Within the Araripe Basin, it overlies the evaporitic Ipubi Formation (late ) and underlies post-rift deposits, reflecting a transgressive-regressive tied to regional and eustatic sea-level rise during the . Globally, its assemblages align with Tethyan upper sections, facilitating biostratigraphic ties to and North sequences via shared foraminiferal and nannofossil taxa.

Depositional and Paleoenvironmental History

Facies Analysis and Sequence Stratigraphy

The Romualdo Formation comprises a suite of sedimentary facies reflecting a mixed carbonate-siliciclastic ramp system influenced by marine transgressions during the late Aptian. Lithofacies include massive fine-grained calcareous quartz arenites with glauconite, massive siltstones, laminated organic-rich claystones with pyrite, massive and laminated wackestones rich in ostracodes and foraminifera, shales with limestone interbeds and wavy carbonaceous laminae, and calcisphere mudstones. These facies exhibit fining-upward and deepening-upward trends, transitioning from mid-ramp shoal environments to outer ramp and basin settings, with palaeodepths estimated at 50–200 meters under dysoxic to anoxic conditions. Additional facies in western exposures feature microbialites such as stromatolites forming bioherms and biostromes, alongside bivalve rudstones and echinoid-rich deposits, indicative of shallow, low-gradient, locally hypersaline coastal settings above fair-weather wave base. Black shales, carbonate concretions, and mollusk shell beds further characterize the succession, recording coastal alluvial to tide-dominated marine influences. Facies associations delineate a protected rocky coastline evolving into a shallow ramp deepening eastward, with fields directly overlying basement rocks and correlating to shell beds in eastern margins. Microfossil content, including holoeuryhaline ostracodes like Pattersoncypris crepata and benthic , supports restricted marine to epicontinental sea conditions with Tethyan affinities linked to South Atlantic connections. such as grains signal slow sedimentation rates, while and organic lamination point to bottom-water preserving delicate fossils within concretions. Coarse-grained sandstones and conglomerates in proximal areas grade into finer marine deposits, reflecting sediment sourcing from the north and depositional dips toward the southeast. Sequence stratigraphically, the Romualdo Formation constitutes a third-order transgressive-regressive cycle within the post-rift I megasequence of the Santana Group, bounded by regional unconformities and recording at least three marine ingression pulses from the southeast. The succession encompasses transgressive systems tracts in lower intervals, culminating in a maximum flooding zone marked by organic-rich shales, overlain by highstand systems tracts featuring interbedded shell beds and marginal-marine facies. This framework aligns with eustatic sea-level rise during South Atlantic rifting, with thickness variations decreasing northwestward and fossil-rich horizons tied to peak transgression. Microbialite development in upper units corresponds to regressive phases within the broader cycle, highlighting hydraulic and salinity fluctuations on the ramp.

Evidence of Marine Influence and Transgression

The Romualdo Formation records a late Aptian transgressive-regressive cycle linked to marine incursion into the Araripe Basin, driven by the early rifting of the South Atlantic and associated eustatic sea-level rise. This is evidenced by stratigraphic facies transitions from restricted lagoonal environments with evaporitic influences below to more open, tide-influenced marine settings upward, including decimeter-thick shell beds of reworked bivalves and gastropods indicating transgressive pulses. In the eastern basin, the sequence thickens southeastward with onlapping coastal geometries, reflecting progressive flooding over preexisting continental substrates. Paleontological indicators strongly support marine influence, including diverse assemblages of , ostracods, and such as the bivalves Nuculana spp. and gastropods, concentrated in offshore transitional with low-energy, dysaerobic conditions. These fossils, often preserved in concretions, show affinities to Tethyan and proto-Atlantic faunas, with ichnofacies (e.g., Cruziana and Thalassinoides traces) denoting periodic fluctuations and bottom-water oxygenation tied to . Vertebrate remains, including marine turtles like Santanachelys gaffneyi and sharks, further corroborate episodic seawater incursions, though co-occurring freshwater taxa suggest brackish rather than fully open-marine conditions. Geochemical proxies reinforce this interpretation: carbon isotope excursions aligned with global Oceanic Anoxic Event 1a correlate with the ingression, while and ratios in shales indicate periodic input and reduced freshwater dilution during highstands. However, the restricted extent of transgression—limited to hundreds of kilometers inland without deep-water indicators—has prompted on whether the incursion reached fully euhaline salinities basin-wide, with some analyses favoring hypersaline lagoons over direct oceanic connection. models the formation as a third-order bounded by sequence boundaries, with maximum flooding surfaces marked by fossil-rich, bituminous laminites.

History of Research

Early Discoveries and Naming

The fossil-bearing concretions characteristic of the were first scientifically documented during the expedition of Johann Baptist von Spix and Carl Friedrich Philipp von Martius to from 1817 to 1820. Near Villa do Bom Jardim (modern-day area around Santana do Cariri), they collected fish specimens preserved in these concretions and noted their occurrence, marking the initial European recognition of the Araripe Basin's paleontological deposits; these findings were detailed in their multi-volume published between 1828 and 1831. Further collections in the 1830s and 1840s expanded knowledge of the strata. Scottish botanist George Gardner gathered fossils from Barra do Jardim in , forwarding them to ichthyologist , who in 1841 identified the fish assemblages as based on resemblances to those from the Upper Greensand of . These early efforts highlighted the abundance of well-preserved fish but did not yet delineate specific stratigraphic units. The Romualdo Member—later elevated to formational status—was formally named in 1962 by German-Brazilian geologist Karl Beurlen as part of his establishment of the Santana Formation, distinguishing the concretion-rich shales from overlying and underlying units in the Araripe Basin's post-rift sequence. Beurlen selected the name referencing the regional locality, emphasizing the unit's dark shales interbedded with limestones and its role as a key horizon. Prior informal references, such as H. Small's 1913 designation of "Calcáreo de Sant’Anna" for similar limestones in the Val do Cariri, had alluded to the strata without precise subdivision.

Major Studies and Methodological Advances

Major studies of the Romualdo Formation have emphasized systematic field methodologies to overcome biases inherent in commercial , which often prioritized spectacular specimens over contextual data. A pivotal advance occurred with controlled excavations initiated in 2003–2004 across multiple sites in the Araripe Basin, involving grid-based sampling and stratigraphic logging to document fossil occurrences . This approach, led by Fara et al., yielded 1,200+ specimens and revealed clustered distributions of vertebrates tied to specific lithofacies, enabling refined palaeoecological interpretations of a lagoonal system with episodic . Multiproxy analyses integrating microfossils, , and marked further methodological progress, particularly in elucidating depositional dynamics and marine influences. For instance, a 2021 study of the Sobradinho Section employed macrofossil inventories, biofacies, and clay mineralogy to delineate transgressive pulses within the sequence, identifying shifts from restricted lagoons to open-marine conditions via laminated shales and concretions. Complementing this, geochemical modeling of concretions using carbon and oxygen isotopes demonstrated rapid authigenic precipitation under stratified, low-oxygen waters, linking preservation to microbial reduction as early as 2023 research indicated. Refinements in advanced through targeted recovery protocols, such as disaggregation of shales with and sieving for and ostracods. A 2020 investigation applied this to Romualdo samples, correlating assemblages (e.g., Hedbergella trocoidea and robust planktonic ) to the late P-270 palynozone, while ruling out Albian overprints and quantifying marine incursion signals via diversity metrics. These techniques, building on earlier palynological work, reduced age uncertainties from ±5 to narrower bounds, facilitating precise correlations with global eustatic events. Taphonomic methodologies evolved with high-resolution of coquinas, incorporating computed () scans to visualize internal fabrics without destructive preparation. A analysis of bakevelliid-dominated shell beds used this to map parasequence stacking and event beds, attributing exceptional preservation to storm-induced tempestites in dysaerobic settings and challenging uniform anoxic models. Such non-invasive has since enabled reconstructions of soft-tissue fossils, enhancing understandings of around decaying organisms within hours to days of burial.

Recent Developments and New Findings

In 2024, a study described four new genera and six new species of bivalves from the Romualdo Formation, including Modiolus sp., “Myrtea” sp., and “Tellina” sp., enhancing understanding of the formation's benthic marine communities during Aptian-Albian marine ingressions. These findings highlight previously understudied molluscan diversity in the Araripe Basin's restricted epicontinental settings. A 2023 investigation identified new sites in the Romualdo Formation, providing evidence for at least three discrete ingression events that influenced deposition in the Aptian-Albian interval, with associated trace fossils and body fossils indicating fluctuating and oxygenation levels. Concurrently, analysis of -bearing concretions demonstrated accumulation during periods of heightened carbon burial, linking black deposition in the lower Romualdo to early oceanic anoxic events (OAEs) around 112-110 million years ago, based on geochemical proxies like δ¹³C and trace metals. In July 2025, researchers applied mercury isotope analysis to fossils from the Romualdo Formation's onset, reconstructing paleotrophic relationships and revealing mercury patterns consistent with a lacustrine-to-marine transitional , where higher trophic levels showed elevated concentrations up to 10-20 times baseline levels in primary producers. This geochemical approach provided novel insights into predator-prey dynamics without relying on skeletal morphology alone. Recent extensions of the formation's record include the first documented specimens from State in northern Araripe Basin exposures, comprising isolated bones attributable to Anhangueridae, expanding the known geographic distribution of Romualdo pterosaurs beyond and since 2025 field surveys. Additionally, foraminiferal studies confirmed agglutinated taxa dominance in dysoxic bottom waters, supporting interpretations of episodic marine flooding over a predominantly paralic . These developments refine age constraints and environmental models, with calcareous nannofossil affirming an early late to early timeframe (circa 113-108 Ma).

Fossil Assemblage and Preservation

Taphonomic Processes and Concretion Formation

Fossils in the Romualdo Formation are primarily preserved within calcareous concretions embedded in organic carbon-rich, laminated black shales, reflecting rapid burial in an oxygen-depleted environment during the Early Cretaceous. The taphonomic process begins with carcasses sinking into stratified bottom waters characterized by an expanded oxygen minimum zone, likely exacerbated by Oceanic Anoxic Event 1b around 113 Ma, which minimized scavenging and bacterial decay of soft tissues. This anoxic setting, combined with high organic productivity and nutrient influx from continental runoff, promoted the accumulation of fine-grained sediments that sealed remains from oxidative degradation. Concretion formation occurs early during , with (primarily ) precipitating around decaying in the lower Romualdo Formation shales, particularly within the maximum flooding zone of depositional sequences. Microbial decomposition generates localized alkalinity through processes such as sulfate reduction, facilitating and growth of septarian concretions that encapsulate fossils, preventing compaction and further alteration. Concretion density averages 4.4 per cubic meter across sampled sections, though fossil-yielding nodules constitute only 10-15% of the total, with well-preserved vertebrates concentrated in discrete stratigraphic horizons linked to episodic mass mortality events possibly triggered by or oxygen fluctuations. Soft-tissue preservation involves bacterial-mediated phosphatization, where minerals replicate decaying structures shortly after death, as evidenced by intact cellular details in crests and other remains. In skeletal elements, partially substitutes with , enhancing resistance to diagenetic alteration, while surrounding matrices show dominant replacement and minimal pyritization. These mechanisms yield exceptional , including scales, feathers, and internal organs in fishes, reptiles, and , underscoring the formation's status as a konservat-lagerstätte.

Vertebrate Fossils

The Romualdo Formation yields a rich assemblage dominated by ray-finned fishes, with over 20 species documented, including predatory forms such as Cladocyclus and Vinctifer that often preserve stomach contents revealing trophic interactions. These fossils, frequently found articulated within carbonate concretions, indicate a lacustrine to lagoonal depositional environment with anoxic bottom waters favoring exceptional preservation, including soft tissues in some specimens. Pterosaurs represent the most abundant non-fish tetrapods, with taxa such as Anhanguera santanae, Cearadactylus, Tapejara wellnhoferi, Thalassodromeus, and Tupuxuara documented, often preserving three-dimensional wing elements and cranial features diagnostic of ornithocheiroids and tapejarids. These flying reptiles, adapted for marine-influenced settings, comprise a significant portion of the tetrapod biota, with recent finds extending their geographic range within the Araripe Basin. Non-avian dinosaurs are rare but include spinosaurids like Irritator challengeri and Angaturama limai, characterized by elongated snouts suited to piscivory, alongside coelurosaurs such as Santanaraptor placidus and Mirischia asymetrica. A recently described basal coelurosaur, Aratasaurus museunacionali, based on elements from dark shales at the formation's base, suggests early diversification of theropods in the region during the . Reptilian remains feature pleurodiran turtles including Araripemys barretoi, Cearachelys placidoi, and Santanachelys, with new specimens from southwestern sites providing insights into shell morphology and across the basin. Crocodilians are represented by Araripesuchus wegeneri, preserving cranial and postcranial elements indicative of semi-aquatic habits. Sarcopterygians, such as juvenile coelacanths, further diversify the record, highlighting ontogenetic and ecological variations. The assemblage reflects a brackish to freshwater ecosystem with periodic marine incursions, where rapid encasement in concretions minimized scavenging and disarticulation, enabling detailed anatomical and behavioral inferences.

Invertebrate and Trace Fossils

The Romualdo Formation preserves a range of invertebrate body fossils, particularly within carbonate concretions and fine-grained shales, indicative of episodic marine incursions into a predominantly lagoonal or paralic environment during the Early Cretaceous (Aptian-Albian). These include mollusks, crustaceans, echinoderms, and microfossils such as foraminifera and ostracods, which provide evidence of fluctuating salinity and oxygenation levels. Fossil assemblages often cluster in distinct associations tied to depositional facies, with higher diversity in upper units reflecting tidal channel and shallow marine influences. Molluscan remains dominate the macroinvertebrate record, encompassing bivalves and gastropods adapted to brackish-to- settings. Bivalve faunas, recovered from fine-grained sediments, exhibit moderate diversity and include undescribed or poorly studied taxa, suggesting opportunistic colonization during transgressions. Gastropods, such as those in the families Cassiopidae and , preserve rare color patterns visible under natural and light, preserved on shell exteriors and representing the first such records from the formation. Echinoids and other echinoderm fragments occur in banks of the upper formation, alongside ostracods and gastropods, signaling fully marine episodes. Crustacean fossils, primarily decapods, highlight the formation's taphonomic bias toward rapid encasement in concretions, preserving delicate exoskeletons. Notable finds include dendrobranchiate shrimps and new caridean species like Kellnerius jamacaruensis, a small-bodied form from Albian-aged concretions. Stenopodidean "boxer shrimps," exemplified by Dubiostenopus parvus, further diversify the record, with specimens measuring under 20 mm in length and displaying chelae specialized for close-range combat or manipulation. Spinicaudata (conchostracans) appear sporadically, contributing to paleoecological reconstructions of low-oxygen, ephemeral water bodies. Trace fossils in the Romualdo Formation remain sparsely documented relative to body fossils, with ichnological studies focusing more on adjacent units like the Barbalha Formation. Available evidence points to subtle bioturbation in shales and marls, potentially including simple burrows or feeding traces from infaunal , but systematic ichnofabrics have not been extensively described for Romualdo-specific horizons. This paucity may reflect the dominance of anoxic bottom conditions favoring body preservation over tracemaking, though upper facies with diverse suggest potential for undiscovered ichnoassemblages.

Scientific Debates

Disputes on Age Assignment

The age assignment of the Romualdo Formation has long been contentious, primarily oscillating between late and early , or a span across the - boundary at approximately 113 million years ago. This debate arises from the scarcity of unambiguous index fossils, prompting initial reliance on lithostratigraphic correlations within the Alagoas local stage, which encompasses both stages. Early interpretations, based on regional sedimentary sequences and limited palynological data, favored an Aptian placement, aligning with the Sergipea variverrucata (P-270 palynozone). Proponents of an extension cite calcareous nannofossil assemblages, which reveal two marine phases with species ranges suggesting progression into the lower , such as reworked or markers from zones NC8 to CC9. Ostracode taxa like Pattersoncypris micropapillosa have also been invoked to support a transitional -Albian interval. Conversely, foraminiferal evidence, including the presence of Hedbergella aptiana, H. praelippa, and Microhedbergella miniglobularis, alongside the absence of Albian-diagnostic forms like M. renilaevis, constrains the formation to the upper . Magnetostratigraphic analyses of the thickest exposed sections yield deposition ages from roughly 114.7 to 109.5 million years ago within chron C34n, potentially bridging the boundary but consistent with late dominance. Integrated , incorporating ostracodes such as Pattersoncypris crepata (middle to upper indicator), reinforces this upper affinity when correlated to global schemes. Microfacies sequences, depicting a deepening-upward ramp with wackestones and mudstones, further align with late transgressive events tied to proto-Atlantic incursions. Despite these refinements, discrepancies persist due to diagenetic overprinting on microfossils and variable section completeness, with some workers maintaining a broader -Albian span to accommodate faunal diversity. Ongoing debates highlight the need for high-resolution U-Pb dating of authigenic minerals or expanded subsurface cores to resolve boundary-crossing claims. Current consensus, informed by multi-proxy data, favors a predominantly upper age, circa 115–113 million years ago, though transitional elements preclude absolute closure.

Interpretations of Paleoenvironmental Conditions

The Romualdo Formation records a transgressive-regressive sedimentary cycle in the Araripe Basin, interpreted as deposition in a coastal to marginal setting during the late . This environment featured a mixed siliciclastic-carbonate ramp with mid-ramp shoals transitioning to outer ramp or basin facies, at paleodepths estimated between 50 and 200 meters. Sedimentary successions dominated by black shales, siltstones, and intercalated limestones reflect low-energy, dysoxic to anoxic bottom waters that facilitated the formation of carbonate concretions and exceptional fossil preservation. Marine influence is evidenced by episodic incursions linked to the early opening of the equatorial South Atlantic, with three stratigraphic intervals in the upper formation showing heightened marine signals through planktic foraminifera (Hedbergella, Microhedbergella), dinoflagellate cysts (Subtilisphaera), and benthic fossils such as bakevelliid bivalves. assemblages, including euryhaline like Pattersoncypris crepata, indicate fluctuating salinities from mixohaline to holoeuryhaline conditions, with hypersaline episodes suggested by evaporitic precursors in underlying units and restricted circulation. Geochemical indicators, such as in sandstones, point to mildly reducing conditions, while organic-rich shales underscore anoxic events potentially tied to oceanic anoxic episode 1b. Interpretations emphasize a high-stress with low-diversity, tolerant biotas adapted to and oxygen variability, consistent with a protected, epicontinental or lagoonal system intermittently connected to open marine realms via debated routes, such as southeastern (Jatobá-Recôncavo) or northeastern (Potiguar-Parnaíba) pathways. Low diversity supports restricted marine conditions rather than fully open shelves, while regressive trends toward the formation's top show increasing terrestrial input and limnic transitions. These paleoenvironmental dynamics are attributed to tectonic influences from fragmentation, driving flooding into the intracratonic basin.

Paleontological Significance

Biodiversity Insights and Lagerstätte Comparisons

The Romualdo Formation hosts a vertebrate-dominated assemblage characteristic of a lagoonal paleoenvironment with influences, featuring exceptional three-dimensional preservation within carbonate concretions. Pterosaurs represent the most diverse group, with 27 taxa documented, underscoring a major radiation of ornithocheiroids and tapejaroids in . Theropod dinosaurs, including spinosaurids like Irritator challengeri and coelurosaurs such as Santanaraptor placidus, indicate semi-aquatic predatory niches, while chelonians (Santanachelys gaffneyi, Araripemys barretoi) and crocodyliforms (Araripesuchus wegeneri) reflect reptilian adaptations to brackish waters. Actinopterygian fishes form the bulk of the fauna, with rarer and rays, collectively evidencing trophic levels from planktivores to apex predators, as inferred from mercury patterns. Invertebrates contribute to biodiversity insights, with decapods (including brachyurans and dendrobranchiates), cassiopid gastropods showing Tethyan affinities, bivalves (four new genera described), echinoids, and microfossils like 17 foraminiferal taxa and dinoflagellates signaling episodic incursions and shifts. This faunal mix points to between the interior Araripe Basin and broader proto-Atlantic seaways during Aptian-Albian times, fostering faunal exchanges despite the basin's setting. However, the ecosystem exhibits signs of stress, with reduced diversity in transgressive shales attributed to dysoxia and restricted conditions, contrasting with higher fossil yields in regressive carbonates. Comparisons to other lagerstätten emphasize Romualdo's distinct taphonomic regime: unlike the compressed impressions in Solnhofen's lithographic limestones, which preserve delicate soft tissues and insects alongside rare vertebrates like Archaeopteryx, Romualdo's rapid concretion formation under anoxic bottoms yields volumetrically intact skeletons, enabling detailed osteological and biomechanical studies of large pterosaurs and dinosaurs. This mode yields fewer insects and plants than Solnhofen or the older Crato Formation in the same basin but excels in vertebrate abundance, particularly pterosaurs, highlighting aquatic biases tied to black shale deposition during oceanic anoxic events. Such parallels and contrasts illuminate global patterns in exceptional preservation, with Romualdo uniquely documenting Gondwanan mid-Cretaceous aerial and aquatic dynamics.

Implications for Cretaceous Ecosystems

The 's record elucidates mid- ecosystems in northeastern Brazil during the late Aptian, revealing a dynamic interplay between terrestrial, lacustrine, and influences amid the rifting of western . Seawater intrusions, linked to the nascent South , induced ecological shifts, including fluctuations that stressed resident and facilitated opportunistic incursions. This transition is evidenced by multiproxy data, such as foraminiferal assemblages indicating paleoecological responses to epicontinental sea advances, with benthic reflecting hypoxic to anoxic bottom waters conducive to exceptional preservation. Such conditions underscore a high-stress where adaptive strategies, including semi-aquatic lifestyles in theropods like spinosaurids, enabled survival amid environmental perturbations. Biodiversity within the formation highlights trophic complexity, with apex predators such as Irritator challengeri coexisting alongside diverse taxa (e.g., Anhanguera spp.), chelonians, and actinopterygian fish, suggesting a supported by primary productivity in shallow, vegetated lagoons. records, including bivalves and parasitized crustaceans, further indicate resilient benthic communities capable of exploiting nutrient-rich, stratified waters, with evidence of early parasitic interactions predating modern analogs by over 110 million years. These findings imply that Romualdo ecosystems served as refugia for Gondwanan endemics while integrating Atlantic biota, contributing to evolutionary radiations in flying reptiles and piscivorous dinosaurs. Comparisons to contemporaneous lagerstätten reveal Romualdo's unique Gondwanan signature, filling gaps in equatorial faunas and informing global patterns of during Oceanic Anoxic Event 1b, where anoxic preservation enhanced fossil fidelity but likely mirrored widespread oxygen depletion affecting marine-terrestrial interfaces. Paleotrophic reconstructions suggest interconnected food chains vulnerable to climatic volatility, with implications for understanding resilience in fragmented supercontinental settings. Overall, the formation's assemblages challenge uniformitarian views of stable tropics, emphasizing episodic disruptions as drivers of ecological innovation and selectivity.

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