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Letter to the Editor

The holotype partial skull of Agorophius pygmaeus (the monotypic form for both the genus Agorophius and the Family Agorophiidae) has been missing for approximately 140 years. Since the discovery of Agorophius pygmaeus, many additional taxa and specimens have been placed in the Family Agorophiidae, only to be reclassified and removed later. This has created confusion as to what is and what is not an agorophiid and a lack of clarity as to what characteristics delimit the Agorophiidae. A newly discovered skull of an agorophiid recently collected from an underwater cliff face of the Ashley River, South Carolina, USA, is assigned to Agorophius pygmaeus. It derives from the base of the Ashley Formation (early Oligocene). The new specimen consists of most of the skull and periotics, which are well preserved and described for the first time in an agorophiid. The new specimen provides an opportunity to diagnose the Agorophiidae and place the genus and species within the phylogenetic context of the early odontocete radiation in the Oligocene, along with other taxa such as the Ashleycetidae, Mirocetidae, Patriocetidae, Simocetidae, Waipatiidae, and Xenorophidae. Based on this new understanding, Agorophiidae are known with certainty only from the early Oligocene of South Carolina, with other undescribed, potential agorophiid specimens from the Oligocene of the North Pacific region (Japan, Mexico, and Washington State).

Dinocysts recovered from sediments related to the Chesapeake Bay impact structure in Virginia and the earliest Eocene suboxic environment in Maryland show strange and intriguing details of preservation. Features such as curled processes, opaque debris, breakage, microborings and cyst ghosts, among others, invite speculation about catastrophic depositional processes, rapid burial and biological and chemical decay. Selected specimens from seven cores taken in the coastal plain of Virginia and Maryland show abnormal preservation features in various combinations that merit illustration, description, discussion and further study. Although the depositional environments described are extreme, many of the features discussed are known from, or could be found in, other environments. These environments will show both similarities to and differences from the extreme environments here.

Two protocetid whale vertebrae, here referred to “Eocetus” wardii, have been recovered from the riverbed of the Pamunkey River in east-central Virginia. Neither bone was found in situ, but both were found with lumps of lithified matrix cemented to their surfaces. Most of this matrix was removed and processed for microfossils. Specimens of dinoflagellates were successfully recovered and this flora clearly demonstrates that both vertebrae came from the middle Eocene Piney Point Formation, which crops out above and below river level in the area where the bones were discovered. These vertebrae are the oldest whale remains reported from Virginia and are as old as any cetacean remains known from the western hemisphere.

The Chesapeake Bay impact structure, formed by a comet or meteorite that struck the Virginia continental shelf about 35.5 million years ago, is the focus of an extensive coring project by the U.S. Geological Survey and its cooperators. Organicwalled dinocysts recovered from impact-generated deposits in a deep core inside the 85-90 km-wide crater include welded organic clumps and fused, partially melted and bubbled dinocysts unlike any previously observed. Other observed damage to dinocysts consists of breakage, pitting, and folding in various combinations. The entire marine Cretaceous, Paleocene, and Eocene section that was once present at the site has been excavated and redeposited under extreme conditions that include shock, heat, collapse, tsunamis, and airfall. The preserved dinocysts reflect these conditions and, as products of a known impact, may serve as guides for recognizing impact-related deposits elsewhere. Features that are not unique to impacts, such as breakage and folding, may offer new insights into crater-history studies in general, and to the history of the Chesapeake Bay impact structure in particular. Impact-damaged dinocysts also are found sporadically in post-impact deposits and add to the story of continuing erosion and faulting of crater material.

The new gonyaulacoid dinoflagellate Pentadinium galileoi Sancay et al., sp. nov. from the Oligocene-Lower Miocene sediments of Eastern Anatolia has been identified. It is spherical, chordate with prominant discoidal cingulum and distally furcate apical, sulcal, and antapical processes. It has a type P (3\") archeopyle, and periarcheopyle is larger than endoarcheopyle. Tabulation is distinct and it has a formula of lpr, 3-4', 6\",6c, 6\"', lp, 1\"\". Wall structure is granular in intraplate areas, and it has gonal spines at apex, posterior intercalary, and antapex. Processes at gonal positions may be on a variably developed antapical 'skirt' formed by extended septa (2-3 ipm), minute bifurcate spines intergonally and along cingulum at plate intersections. Periphragm and endophragm appressed except at cingular area and at septa. The size of the cysts ranges between 73-89µm with an avarage of 84µm.

This paper describes, illustrates, and interprets Eocene palynomorph assemblages from the North Slope of Alaska, mainly from 31 outcrop samples from seven stratigraphic sections at Franklin Bluffs on the Sagavanirktok River. The top of the Sagwon Member of the Sagavanirktok Formation is shown to be a thin, coaly, apparently nonmarine sequence almost certainly of early Eocene age; the remainder of the member has long been known to be Paleocene in age. The remaining six sections at Franklin Bluffs contain silty, sandy, and clayey strata and are in the Franklin Bluffs Member of the Sagavanirktok Formation in the type area of this member. Dinocyst and pollen data from the Franklin Bluffs Member suggest mainly an early Eocene age, but some strata might be middle Eocene. In all samples from the type Franklin Bluffs Member that contained reasonably well preserved dinocyst assemblages, the environment of deposition was nearshore marine or estuarine. The Franklin Bluffs Member is the temporal equivalent of the marine Mikkelsen Tongue of the Canning Formation, whose type locality is approximately 90 km to the east-northeast. Previous pollen and plant megafossil data from the Arctic showed that the early to middle Eocene climate of the North Slope of Alaska was warm temperate, perhaps nearly subtropical. At least 20 pollen taxa present in the Eocene of the North Slope also occurred as far south in North America as the Gulf Coast and therefore had enormous latitudinal ranges. Several of these taxa appear to have migrated north to the Arctic Coast, probably mainly in the latest Paleocene, at the beginning of the climatic thermal maximum for the Tertiary. However, there is also evidence that plants producing modern-looking grains of Carya, Juglans, and Liquidambar migrated southward from the Arctic to the Gulf Coast after the early Eocene.

The graphic correlation technique of Shaw (1964) is not restricted to biostratigraphic applications. Supplemented graphic correlation (SGC) expands the original technique to include nonunique events (log patterns) to add to the understanding of the geologic history of an area. Nonunique events are evaluated in light of the biostratigraphic data and may be used to refine correlations provided that (1) the investigator has reason to believe that the log patterns respond to time-significant phenomena over the areal extent of the specific problem at hand, and (2) all nonunique events to be considered are tested for geologic reasonableness before they are used. Dinocyst and acritarch occurrence data and single-point resistance electric logs from three Paleocene to Eocene cores in the Virginia Coastal Plain illustrate the method. The two western cores show similar geologic histories, but the thickness in the northernmost core is approximately 30% greater. SGC reveals four episodes of deposition in the easternmost core relative to the western cores, During late Paleocene time, relative accumulation rates increased in an easterly direction. A major change in sediment source and supply occurred in early Eocene time when relative accumulation rates increased to the north. Graphic correlation combining biostratigraphic events and time-significant log-type data can increase resolution in correlation. Possible correlations are tested and refined during the graphic procedure and multiple lines of evidence are used to produce geologically reasonable, and informative, results.