scholarly journals Looking for the key to preservation of fossil marine vertebrates in the Pisco Formation of Peru: new insights from a small dolphin skeleton

2018 ◽  
Vol 45 (3) ◽  
pp. 379 ◽  
Author(s):  
Anna Gioncada ◽  
Karen Gariboldi ◽  
Alberto Collareta ◽  
Claudio Di Celma ◽  
Giulia Bosio ◽  
...  
Keyword(s):  
Soft Tissues ◽  
Bone Mineralization ◽  
Stomach Contents ◽  
Outer Edge ◽  
Pisco Formation ◽  
Diagenetic Minerals ◽  
Chemical Conditions ◽  
Fossil Preservation ◽  
Redox Boundary ◽  
Mn Oxides

The upper Neogene Pisco Formation of Peru is known worldwide as one of the most significant Cenozoic marine vertebrate Konservatt-Lagerstätten, even featuring cetacean specimens that retain remains of soft tissues or stomach contents. Previous works showed that biomediated precipitation of dolomite concretions around large-sized decaying carcasses was one of the most relevant processes responsible for exceptional fossil preservation. In turn, little is known about the modes of fossilization of well-preserved small-sized vertebrates, which are rather common in the Pisco Formation, but mostly do not exhibit dolomite concretions. We report on a cetacean specimen, identified as belonging to the extinct short-snouted, small dolphin species Brachydelphis mazeasi (Pontoporiidae), preserved within a late Miocene sandy deposit at the site of Pampa Corre Viento. This specimen consists of a moderately disarticulated partial skeleton exhibiting well-mineralized bones; it is not enclosed within a dolomite concretion, being however delimited by an evident dark boundary in the host sediment. Scanning electron microscopy and microanalytical investigations identify Mn-oxides and apatite as early diagenetic minerals around the skeleton. We argue that a rapid burial of the specimen was pivotal for the preservation of the bones, and allowed the early establishment of anoxic processes for degradation of organic matter. Coupled with availability of P in porewater, the reducing conditions and the lowered pH allowed precipitation of Ca-phosphate while increasing Mn solubility close to the pontoporiid carcass. Mn-oxides precipitated at the redox boundary, the latter defining the outer edge of the volume of sediment affected by altered chemical conditions due to the decaying processes. The permeability of the sediment and the small size of the carcass were possible factors unfavorable to extensive sulfate reduction, thus preventing the formation of a dolomite concretion and allowing bone phosphatization. This record emphasizes the role of conditions favorable to bone mineralization in absence of an isolating carbonate concretion, in cases of high quality preservation of small-sized vertebrates observed in the Pisco Formation. The observation of patterns in the distribution of diagenetic minerals in the sediment enclosing vertebrate remains without, or with limited carbonate concretions provides insights into early taphonomic processes.

scholarly journals Bioimmuration: exceptional fossil preservation made routine

1992 ◽  
Vol 6 ◽  
pp. 287-287 ◽  
Author(s):  
Paul D. Taylor ◽  
Jonathan A. Todd
Keyword(s):  
Soft Tissues ◽  
Soft Part ◽  
High Fidelity ◽  
Marine Deposits ◽  
Living Space ◽  
Extant Genus ◽  
Fossil Preservation ◽  
Sessile Organisms ◽  
Nw Europe ◽  
Hard Substrates

Bioimmuration, broadly defined as fossilization by virtue of organic overgrowth, allows preservation of soft-bodied organisms and soft parts of organisms with mineralized skeletons. Sessile organisms attached to hard or firm substrates are routinely overgrown by other organisms competing for living space. If the overgrowing organism has a mineralized skeleton which is likely to be fossilized, then it may carry a high fidelity (sub-micron scale) impression of the overgrown organism on its underside. This is a mould bioimmuration, the simplest mode of preservation. A diagenetic infilling of the mould, commonly by calcite, produces a cast bioimmuration. In addition, the protected microenvironment between the overgrowing organism and the substratum favours early diagenetic permineralization of the soft tissues of the bioimmured organism and the development of more complex preservational styles.In spite of its potential for soft part fossilization, very little research has been undertaken on bioimmuration, with the notable exception of the work of Ehrhard Voigt principally on Maastrichtian sea-grass communities. Research in progress is revealing a great abundance of bioimmured fossils in Mesozoic shallow marine deposits of NW Europe where oysters and serpulids overgrew a variety of other organisms.Bioimmured soft-bodied bryozoans belonging to the Order Ctenostomata are very common and display a range of preservational styles. Minute spines and pores ornamenting the cuticular zooidal walls are sometimes present, as are permineralized pore chambers. The high diversity of stoloniferan and carnosan ctenostomes encrusting hard substrates in the Oxfordian and Kimmeridgian is striking and contrasts with the depauperate fauna of calcified cyclostome bryozoans.Oyster shells in the Kimmeridge Clay are often encrusted by myriads of tiny individuals of the inarticulate brachiopod Discinisca, previously known from comparatively few specimens of this age. Emerging from the fragile commissures are setae several times the length of the delicate phosphatic shells. Setae of neighbouring individuals may be aligned in parallel facing away from the direction of approach of the overgrowing organism.The hemichordate Rhabdopleura is common as a bioimmured fossil in the Oxford Clay. Overgrowth protects the periderm and the black stolons, and colonies are much more intact than previously described examples of this genus from the Jurassic.The Phylum Entoprocta had no unequivocal fossil record before the recent discovery of bioimmured entoprocts in the Kimmeridge Clay. Colonies comprise stolons linking erect zooids which have been pushed flat against the substratum during overgrowth. The existence of thickened sockets at the base of the zooids permits assignment of the fossils to the extant genus Barentsia. Permineralization of the entoproct cuticle has occurred, leaving minute pores apparently once occupied by epithelial microvilli.Pedunculate barnacles are commonly found bioimmured by oysters in the mid-Cretaceous Cambridge Greensand. Normally the cirri are retracted but in one exceptional example their outlines are clearly visible as moulds on the attachment area of an oyster.

Osmo-inelastic response of the intervertebral disc

2019 ◽  
Vol 233 (3) ◽  
pp. 332-341 ◽  
Author(s):  
Amil Derrouiche ◽  
Ameni Zaouali ◽  
Fahmi Zaïri ◽  
Jewan Ismail ◽  
Makram Chaabane ◽  
...  
Keyword(s):  
Extracellular Matrix ◽  
Intervertebral Disc ◽  
Soft Tissues ◽  
Rate Dependency ◽  
Fluid Exchange ◽  
Inelastic Response ◽  
Loading Rates ◽  
Inelastic Behaviour ◽  
Tension And Compression ◽  
Chemical Conditions

The intervertebral disc exhibits a complex inelastic response characterized by relaxation, hysteresis during cyclic loading and rate dependency. All these inelastic phenomena depend on osmotic interactions between disc tissues and their surrounding chemical environment. Coupling between osmotic and inelastic effects is not fully understood, so this article aimed to study the influence of chemical conditions on the inelastic behaviour of the intervertebral disc in response to different modes of loading. A total of 18 non-frozen ‘motion segments’ (two vertebrae and the intervening soft tissues) were dissected from the cervical spines of mature sheep. The motion segments were loaded in tension, compression and torsion at various loading rates and saline concentrations. Analysis of variance showed that saline concentration significantly influenced inelastic effects in tension and especially in compression (p < 0.05), but not in torsion. Opposite effects were seen in tension and compression. An interpretation of the underlying osmo-inelastic mechanisms is proposed in which two sources of inelastic effects are identified, that is, extracellular matrix rearrangements and fluid exchange created by osmosis.

Exceptional Fossil Conservation through Phosphatization

2014 ◽  
Vol 20 ◽  
pp. 59-82 ◽  
Author(s):  
James D. Schiffbauer ◽  
Adam F. Wallace ◽  
Jesse Broce ◽  
Shuhai Xiao
Keyword(s):  
Calcium Phosphate ◽  
Soft Tissues ◽  
Geochemical Processes ◽  
Comprehensive Description ◽  
Animal Evolution ◽  
Pore Fluid Chemistry ◽  
Type Preservation ◽  
Fossil Preservation ◽  
Calcium Phosphate Precipitation ◽  
Taphonomic Processes

This paper addresses the taphonomic processes responsible for fossil preservation in calcium phosphate, or phosphatization. Aside from silicification and rarer examples of carbonaceous compression, phosphatization is the only taphonomic mode claimed to preserve putative subcellular structures. Because this fossilization window can record such valuable information, a comprehensive understanding of its patterns of occurrence and the geochemical processes involved in the replication of soft tissues are critical endeavors. Fossil phosphatization was most abundant during the latest Neoproterozoic through the early Paleozoic, coinciding with the decline of non-pelletal phosphorite deposits. Its temporal abundance during this timeframe makes it a particularly valuable window for the study of early animal evolution. Several occurrences of phosphatization from the Ediacaran through the Permian Period, including Doushantuo-type preservation of embryo-like fossils and acritarchs, phosphatized gut tracts within Burgess Shale-type carbonaceous compressions, Orsten-type preservation of meiofaunas, and other cases from the later Paleozoic are reviewed. In addition, a comprehensive description of the geochemical controls of calcium phosphate precipitation from seawater is provided, with a focus on the rates of phosphate nucleation and growth, favorable nucleation substrates, and properties of substrate tissue and pore-fluid chemistry. It is hoped that the paleontological and geochemical summaries provided here offer a practical and valuable guide to the Neoproterozoic–Paleozoic phosphatization window.

scholarly journals Selective localization of a Golgi apparatus acid phosphatase isoenzyme in bone using pyridoxal-5'-phosphate.

1980 ◽  
Vol 28 (2) ◽  
pp. 115-123 ◽  
Author(s):  
R A Coleman ◽  
B H Schofield ◽  
D F McDonald
Keyword(s):  
Acid Phosphatase ◽  
Golgi Apparatus ◽  
Soft Tissues ◽  
Bone Mineralization ◽  
Bone Matrix ◽  
Thiamine Pyrophosphate ◽  
Selective Localization ◽  
Strong Staining ◽  
Matrix Components ◽  
Substrate Medium

Substrates commonly used for localizing bone Golgi apparatus (GA) acid phosphatase (AcPase), e.g., beta-glycerophosphate, p-nitrophenylphosphate, cytidine-5'-monophosphate, and di(dicyclohexylammonium)-2-napthylthiolphosphate, give strong staining not only of GA but also of lysosomes. Thiamine pyrophosphate and inosine-5'-monophosphate--substrates that give good GA staining in some soft tissues--give only lysosomal staining in bone. No previously used substrate or substrate-effector combination has selectively localized the GA acid phosphatase in bone. This article describes results using a new AcPase medium having pyridoxal-5'-phosphate (PLP) as substrate. In bone this medium produced strong staining of the osteoblast GA, but relatively little staining of lysosomes, including lysosomes in osteoclasts. The weak lysosomal staining was almost totally eliminated, without affecting the GA reaction, by pretreating the tissue in 0.3% NH3 solution. Conversely, elevated ionic strength of the substrate medium eliminated the GA reaction, while having little effect on lysosomal staining. The GA enzyme was very sensitive to 1 mM tartrate whereas the lysosomal enzyme was not. These differences suggest the presence of distinct isoenzymes in the two locations. The distribution of osteoblasts with stained GA coincided with the distribution of strongest alkaline phosphatase activity and rapid bone mineralization, supporting previous suggestions that osteoblast GA AcPase is involved in the processing of one or more newly synthesized bone matrix components.

Ferritin crystals in the gut caeca of stegocephaloides christianiensis boeck and other stegocephalidae (amphipoda gammaridea): a functional interpretation

1984 ◽  
Vol 306 (1127) ◽  
pp. 219-245 ◽  
Keyword(s):  
B Cells ◽  
Soft Tissues ◽  
Stomach Contents ◽  
Atomic Absorption Spectrophotometry ◽  
Dry Mass ◽  
Senior Author ◽  
Tissue Reaction ◽  
Regulation System ◽  
Functional Interpretation ◽  
The Family

Iron-rich octahedral crystals have been described by the senior author in the gut caeca cells of the amphipod Stegocephaloides christianiensis . The present investigation revealed their presence in other species in the family Stegocephalidae ( Bathystegocephalus inflatus , Euandania ingens , Parandania boecki , Stegocephaloides auratus , S. vanhojfeni , Stegocephalus inflatus , Phippsiella spp. and Parandaniexis sp. (cf. mirabilis ). Crystals were not found in Andaniopsis nordlandica , T etradeion crassum or Andaniexis abyssi , although the latter gave a tissue reaction for iron. Fe cells contain only a single crystal each in all species and crystals consistently increased in size proximally in each caecum. The most distal region of the caecum was devoid of crystals. Detailed work was confined to Stegocephaloides christianiensis , Stegocephalus inflatus and Parandaniexis sp. (cf. mirabilis ). Caecum ultrastructure of S. christianiensis is described: two cell facies (R /F and B cells) are distinguishable. R /F cells (=Fe cells) are columnar, with a terminal brush-border of long microvilli. Lipid globules, glycogen, Fe crystals and Ca granules are found in these cells. B-cells have a luminal border of short, stubby microvilli with an apical complex of membrane-bound vesicles of varying degrees of coalescence. The composition of the Fe crystals has been described using X -ray microprobe analysis. Strong Fe peaks were revealed together with minor peaks for Si, P, S, Cl, K, Ca, Cu and Zn. These elements were identified in the surrounding cytoplasm also. Crystal composition is homogeneous with no separate core. The crystal consists of hexagonally arranged, electron dense cores of 5.8 + 0.3 nm diameter at intercore distances of 10.5 ± 0.5 nm, 7.5 + 0.5 nm and 9.5 + 0.5 nm. Wide angle electron diffraction analysis of the cores gave four rings with d spacings of 0.250, 0.223, 0.191 and 0.145 nm (all + 0.003 nm). On these bases the substance of the crystals is identified as ferritin. Ferritin crystals are voided in the faeces of Stegocephaloides christianiensis , suggesting a role in iron excretion, perhaps as part of a body content regulation process. The content of iron in S. christianiensis and a variety of other inshore Amphipoda has been investigated using atomic absorption spectrophotometry. Iron content was non-linearly related to body dry mass in S. christianiensis and cannot simply be explained as a consequence of surface adsorption. Iron levels in S. christianiensis were higher than in many other species investigated. The morphology of the mouthparts of S. christianiensis has been investigated using scanning electron microscopy. Analyses of fresh stomach contents revealed cnidarian nematocysts which corresponded in size and form with those from Adamsia carciniopados , Pennatula phosphorea and Hydractinia echinata . Behavioural observations on live S. christianiensis suggested that Pennatula was a likely prey item. Investigations of a range of Cnidaria and of a few known predators of cnidarians ( Pycnogonum , Hyperia ) confirmed that the discharged acontia of Adamsia and the soft tissues of Pennatula contained unusually high concentrations of iron. It is proposed that the production and expulsion of ferritin crystals by S. christianiensis and other cnidarian-consuming species in the family Stegocephalidae represents an iron regulation system in animals experiencing a dietary iron challenge.

scholarly journals Investigating Possible Gastroliths in a Referred Specimen of Bohaiornis guoi (Aves: Enantiornithes)

2021 ◽  
Vol 9 ◽  
Author(s):  
Shumin Liu ◽  
Zhiheng Li ◽  
Alida M. Bailleul ◽  
Min Wang ◽  
Jingmai O’Connor
Keyword(s):  
Digestive System ◽  
Multidisciplinary Approach ◽  
Direct Evidence ◽  
Soft Tissues ◽  
Indirect Evidence ◽  
Stomach Contents ◽  
Gastric Mill ◽  
Limited Evidence ◽  
X Ray ◽  
Two Samples

Gastroliths, where preserved, can provide indirect evidence regarding diet in extinct avian and non-avian dinosaurs. Masses of gastroliths consistent with the presence of a gastric mill are preserved in many Early Cretaceous Jehol birds mostly belonging to the Ornithuromorpha. Gastroliths are also present in basal birds Sapeornis and Jeholornis in which herbivory is supported by direct evidence these taxa consumed seeds in the form of crop or stomach contents. Although gastroliths have been correlated with herbivory in non-avian dinosaurs, the presence of gastroliths and bone together in Ambopteryx calls this association in to question. Despite being known from greater numbers of specimens than other avian lineages, no unequivocal direct or indirect evidence of diet has been recovered from Jehol deposits for the Enantiornithes. A referred specimen of Bohaiornis guoi IVPP V17963 was described as preserving a small number of gastroliths interpreted as rangle, gastroliths whose function is cleaning the stomach in extant raptorial birds. However, based on comparison with gastroliths in other Jehol birds, it has alternatively been suggested that the identified structures are not ingested stones at all but some unusual mineral precipitate. Considering the limited evidence regarding diet in Enantiornithes and the importance of accurately identifying the traces in Bohaiornis in order to understand the enantiornithine digestive system, we extracted two samples of these purported gastroliths and explored these traces using computerized laminography scanning, scanning electron microscopy, energy dispersive x-ray spectroscopy, ground sections, and body size to gastral mass regressions. Similar analyses were conducted on gastroliths extracted from undisputed gastral masses of two Jehol ornithuromorphs and the non-avian pennaraptoran Caudipteryx. The combined results contradict the hypothesis that these traces are gastroliths and supports the interpretation they are mineral precipitate, most likely authigenic quartz (chalcedony). Although authigenesis is commonly responsible for the preservation of soft tissues, it is unclear if these traces record part of the tissues of this Bohaiornis. This study highlights the importance of a multidisciplinary approach in understanding unusual traces in the fossil record and reveal a previously unidentified taphonomic phenomenon in fossils from Jehol deposits.

scholarly journals Parycalcitol + J131 - A New Route to Treatment Secondary Hyperparathyroidism in Patients with Chronic Kidney Disease on Long-term Dialysis?

2019 ◽  
Vol 3 (3) ◽  
pp. 1-4
Author(s):  
Radosław Drozd ◽  
Keyword(s):  
Chronic Kidney Disease ◽  
Kidney Disease ◽  
Secondary Hyperparathyroidism ◽  
Bone Metabolism ◽  
Soft Tissues ◽  
Bone Mineralization ◽  
The Body ◽  
Calcium Deposition ◽  
Phosphate Binding

Two cases with the dramatic course of secondary hyperparathyroidism in patients with chronic kidney disease on long-term dialysis. Has anything possible been done in management of these patients? Complications associated with impaired bone mineralization among patients with chronic kidney disease on long-term dialysis are observed frequently with an array of pathologic processes being found. Kidney osteodystrophy may be associated with either increased or decreased (adynamic bone disease, osteomalacia, aluminum-induced osteopenia) bone metabolism, as well as mixed forms related to the B2 microglobulin amyloidosis. Differential diagnosis of various types of osteopathy is difficult and is usually based on the histologic assessment of the bone biopsy. The most typical bone complication in patients with impaired kidney function is osetodistophy with increased bone metabolism, caused by secondary hyperparathyroidism clinically manifesting as osteitis fibrosa. High serum levels of PTH induce osteoclast and osteoblast activity. Early changes, with characteristic increase in the woven osteoid suggesting early, increased osteoplastic bone resorption may be found in a significant percentage of patients with GFR>60ml/min/1,73m2 of the body surface. Lower values of the GFR are associated with both faster bone synthesis and more active resorption with progressive increase in the intraosseous fibrosis and decreased bone mineralization. As the abnormalities progress, which is especially marked in patients on long-term dialysis, a rage of clinical symptoms, such as: severe bone and joint pain, bone deformation, pathological fractures, especially in the spinal region, calcifications of the soft tissues and vessels, including heart valves and lungs. In children, the most common abnormality is growth impairment. In some patient’s skin calcifications, with subsequent necrosis, due to increased calcium deposition in small and medium arteries. The diagnosis is based on the typical clinical picture, biochemical parameters (calcium and phosphate ratio, parathormone levels, characteristic radiologic charges and sometimes, bone histology. Prevention and treatment of these complications includes effective dialysis, appropriate low-phosphate diet with limitation of the protein supply to the 0.8g/kg of the body mass, adequate calcium and active Vitamin D3 supply, introduction of the phosphate binding medications (sevelamer or lantan) as well as calcimimetic use (substances activating parathyroid gland calcium receptors inhibiting both its up-regulation and PTH secretion). In the severe cases, with insufficient effect of the treatment described above, parathyroidectomy is required after close ultrasound and scintigraphy-based assessment of these glands. However, even such treatment may be insufficient in some cases, as presented below.

Dimethyl Sulfide as an Odor Component in Nova Scotia Fall Mackerel

1972 ◽  
Vol 29 (7) ◽  
pp. 1085-1088 ◽  
Author(s):  
R. G. Ackman ◽  
J. Hingley ◽  
K. T. MacKay
Keyword(s):  
Nova Scotia ◽  
Petroleum Product ◽  
Dimethyl Sulfide ◽  
Petroleum Refinery ◽  
Stomach Contents ◽  
Outer Edge

A strong petroleum refinery odor in mackerel taken in late November 1971, near Halifax and on the outer edge of the Emerald Bank, has been identified as harmless dimethyl sulfide. It has been shown to originate from stomach contents and is specifically associated with the pteropod Spiratella retroversa. The dimethyl sulfide was not accompanied by any very large deposition in the fish of the known precursor of algal origin, dimethyl-β-propiothetin. Petroleum product pollution was not involved.

scholarly journals A new Miocene baleen whale from the Peruvian desert

2016 ◽  
Vol 3 (10) ◽  
pp. 160542 ◽  
Author(s):  
Felix G. Marx ◽  
Naoki Kohno
Keyword(s):  
Soft Tissue ◽  
Late Miocene ◽  
Feeding Strategy ◽  
Stomach Contents ◽  
Baleen Whale ◽  
Baleen Whales ◽  
Southern Peru ◽  
Pisco Formation ◽  
Stark Contrast ◽  
Lunge Feeding

The Pisco-Ica and Sacaco basins of southern Peru are renowned for their abundance of exceptionally preserved fossil cetaceans, several of which retain traces of soft tissue and occasionally even stomach contents. Previous work has mostly focused on odontocetes, with baleen whales currently being restricted to just three described taxa. Here, we report a new Late Miocene rorqual (family Balaenopteridae), Incakujira anillodefuego gen. et sp. nov., based on two exceptionally preserved specimens from the Pisco Formation exposed at Aguada de Lomas, Sacaco Basin, southern Peru. Incakujira overall closely resembles modern balaenopterids, but stands out for its unusually gracile ascending process of the maxilla, as well as a markedly twisted postglenoid process of the squamosal. The latter likely impeded lateral (omega) rotation of the mandible, in stark contrast with the highly flexible craniomandibular joint of extant lunge-feeding rorquals. Overall, Incakujira expands the still meagre Miocene record of balaenopterids and reveals a previously underappreciated degree of complexity in the evolution of their iconic lunge-feeding strategy.

scholarly journals Genome-Wide CRISPR/Cas9-Based Screening for Deubiquitinase Subfamily Identifies Ubiquitin-Specific Protease 11 as a Novel Regulator of Osteogenic Differentiation

2022 ◽  
Vol 23 (2) ◽  
pp. 856
Author(s):  
Kamini Kaushal ◽  
Apoorvi Tyagi ◽  
Janardhan Keshav Karapurkar ◽  
Eun-Jung Kim ◽  
Parthasaradhireddy Tanguturi ◽  
...  
Keyword(s):  
Stem Cells ◽  
Mesenchymal Stem Cells ◽  
Protein Degradation ◽  
Osteogenic Differentiation ◽  
Soft Tissues ◽  
Bone Mineralization ◽  
Loss Of Function ◽  
Differentiation Potential ◽  
Specific Protease ◽  
Ubiquitin Specific Protease

The osteoblast differentiation capacity of mesenchymal stem cells must be tightly regulated, as inadequate bone mineralization can lead to osteoporosis, and excess bone formation can cause the heterotopic ossification of soft tissues. The balanced protein level of Msh homeobox 1 (MSX1) is critical during normal osteogenesis. To understand the factors that prevent MSX1 protein degradation, the identification of deubiquitinating enzymes (DUBs) for MSX1 is essential. In this study, we performed loss-of-function-based screening for DUBs regulating MSX1 protein levels using the CRISPR/Cas9 system. We identified ubiquitin-specific protease 11 (USP11) as a protein regulator of MSX1 and further demonstrated that USP11 interacts and prevents MSX1 protein degradation by its deubiquitinating activity. Overexpression of USP11 enhanced the expression of several osteogenic transcriptional factors in human mesenchymal stem cells (hMSCs). Additionally, differentiation studies revealed reduced calcification and alkaline phosphatase activity in USP11-depleted cells, while overexpression of USP11 enhanced the differentiation potential of hMSCs. These results indicate the novel role of USP11 during osteogenic differentiation and suggest USP11 as a potential target for bone regeneration.

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