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The lesser Pacific Striped Octopus, Octopus chierchiae: an emerging laboratory model (2022)

Grearson, Anik G. ; Dugan, Alison ; Sakmar, Taylor ; [et al.]

Frontiers Media

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Publication Date: 2022-10-27

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Grearson, A. G., Dugan, A., Sakmar, T., Sivitilli, D. M., Gire, D. H., Caldwell, R. L., Niell, C. M., Doelen, G., Wang, Z. Y., & Grasse, B. The lesser Pacific Striped Octopus, Octopus chierchiae: an emerging laboratory model. Frontiers in Marine Science, 8, (2021): 753483, https://doi.org/10.3389/fmars.2021.753483.

Description: Cephalopods have the potential to become useful experimental models in various fields of science, particularly in neuroscience, physiology, and behavior. Their complex nervous systems, intricate color- and texture-changing body patterns, and problem-solving abilities have attracted the attention of the biological research community, while the high growth rates and short life cycles of some species render them suitable for laboratory culture. Octopus chierchiae is a small octopus native to the central Pacific coast of North America whose predictable reproduction, short time to maturity, small adult size, and ability to lay multiple egg clutches (iteroparity) make this species ideally suited to laboratory culture. Here we describe novel methods for multigenerational culture of O. chierchiae, with emphasis on enclosure designs, feeding regimes, and breeding management. O. chierchiae bred in the laboratory grow from a 3.5 mm mantle length at hatching to an adult mantle length of approximately 20–30 mm in 250–300 days, with 15 and 14% survivorship to over 400 days of age in first and second generations, respectively. O. chierchiae sexually matures at around 6 months of age and, unlike most octopus species, can lay multiple clutches of large, direct-developing eggs every ∼30–90 days. Based on these results, we propose that O. chierchiae possesses both the practical and biological features needed for a model octopus that can be cultured repeatedly to address a wide range of biological questions.

Description: The cephalopod program at the Marine Biological Laboratory (MBL) was supported by NSF 1827509 and NSF 1723141 grants. CN received funding from HFSP RGP0042. DG and DS received funding and research support from the University of Washington Friday Harbor Laboratories. ZYW was supported by funds from the Whitman Center at the MBL.

Keywords: Iteroparity ; Cephalopod ; Model organism ; Aquaculture ; Reproduction – mollusk ; Developmental biology ; Neurobiology

Repository Name: Woods Hole Open Access Server

Type: Article

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Intensified aridity over the Indo-Pacific Warm Pool controlled by ice-sheet expansion during the Last Glacial Maximum (2022)

Xiong, Zhifang ; Zhai, B. ; Algeo, T.J. ; [et al.]

ELSEVIER SCIENCE BV

In: EPIC3Global and Planetary Change, ELSEVIER SCIENCE BV, 217, ISSN: 0921-8181

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Publication Date: 2022-10-19

Repository Name: EPIC Alfred Wegener Institut

Type: Article , peerRev

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Genome and transcriptome mechanisms driving cephalopod evolution (2022)

Albertin, Carolin B. ; Medina-Ruiz, Sofia ; Mitros, Therese ; [et al.]

Nature Research

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Publication Date: 2022-08-19

Description: © The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Albertin, C. B., Medina-Ruiz, S., Mitros, T., Schmidbaur, H., Sanchez, G., Wang, Z. Y., Grimwood, J., Rosenthal, J. J. C., Ragsdale, C. W., Simakov, O., & Rokhsar, D. S. Genome and transcriptome mechanisms driving cephalopod evolution. Nature Communications, 13(1), (2022): 2427, https://doi.org/10.1038/s41467-022-29748-w.

Description: Cephalopods are known for their large nervous systems, complex behaviors and morphological innovations. To investigate the genomic underpinnings of these features, we assembled the chromosomes of the Boston market squid, Doryteuthis (Loligo) pealeii, and the California two-spot octopus, Octopus bimaculoides, and compared them with those of the Hawaiian bobtail squid, Euprymna scolopes. The genomes of the soft-bodied (coleoid) cephalopods are highly rearranged relative to other extant molluscs, indicating an intense, early burst of genome restructuring. The coleoid genomes feature multi-megabase, tandem arrays of genes associated with brain development and cephalopod-specific innovations. We find that a known coleoid hallmark, extensive A-to-I mRNA editing, displays two fundamentally distinct patterns: one exclusive to the nervous system and concentrated in genic sequences, the other widespread and directed toward repetitive elements. We conclude that coleoid novelty is mediated in part by substantial genome reorganization, gene family expansion, and tissue-dependent mRNA editing.

Description: We thank the Marine Resources Center and the Cephalopod program at the Marine Biological Laboratory for supplying D. pealeii, R. Hanlon for the image in Fig. 1a, R. Hanlon and S. Senft for help with tissue dissection, Dr. Chuck Winkler for supplying O. bimaculoides, B. Burford and W. Gilly for assistance with D. opalescens collection, and the Vienna Zoo (Tiergarten Schönbrunn), particularly R. Halbauer, A. Weissenbacher, and the aquarist team for E. scolopes husbandry. Computation was done using the Life Science Cluster at the University of Vienna. This project began with generous funding from the Grass Foundation, administered by the MBL through J.J.R. It was also supported by Austrian Science fund FWF (P30686-B29) to H.S. and O.S., the Whitman Center Early Career Fellowship to O.S., the Okinawa Institute of Science and Technology Molecular Genetics Unit, Chan-Zuckerberg BioHub, and the Marthella Foskett Brown Chair in Computational Biology to D.S.R, NSF grant (IOS-1354898) to C.W.R, and the Hibbitt Early Career Fellowship to C.B.A. Sequencing at the University of Chicago Functional Genomics Facility was partially supported by the NIH (5UL1TR002389-02 and UL1 TR000430).

Repository Name: Woods Hole Open Access Server

Type: Article

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Kinetic controls on Sc distribution in diopside and geochemical behavior of Sc in magmatic systems (2022)

Wang, Z. ; Zhou, M. ; Li, M. ; [et al.]

In: Geochimica et Cosmochimica Acta

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Publication Date: 2022-06-09

Description: Scandium is important in modern technology and is regarded as a strategic metal in many countries. It is highly dispersed in Earth’s crust and rarely forms independent minerals. Clinopyroxene is the most important Sc-bearing mineral in some world-class deposits hosted in mafic–ultramafic intrusions, which are also the major source of laterite-hosted Sc deposits. However, the factors controlling Sc distribution in minerals have been little explored, impeding the understanding of the geochemical behavior of Sc and why it is common in some clinopyroxene grains. The newly discovered Mouding Sc deposit in SW China is hosted in a zoned intrusion composed, from core to rim, of monzogabbro, syenogabbro, gabbro, magnetite clinopyroxenite, and clinopyroxenite. Clinopyroxene in the intrusion is diopsidic in composition with high Sc contents (80–105 ppm). In-situ trace element mappings of diopside crystals reveal homogeneous, zoned, swallow-tailed, and hourglass internal Sc distribution patterns. These patterns can be produced through kinetically controlled incorporation of Sc on different crystal faces. The preferential substitution of Sc can take place on the {1 0 0}, {1 1 0} and {0 1 0} prism faces because of the high flexibility of the octahedral M1 protosites. The fast growth of diopside, which facilitates kinetically controlled crystallization, is dominated by textural coarsening and promoted by the hydrous parental magmas with low viscosities and active convection. The active flow and efficient interstitial communication of the magma can direct compatible elements from the magma into clinopyroxene, thus favoring formation of Sc-rich grains. Our study provides a feasible way to study intra-grain variations of Sc in minerals and emphasizes that kinetic effects may play a critical role in Sc distribution and enrichment in hydrous magmatic Sc deposits. We also show that disequilibrium crystallization may be more pervasive than previously thought, and the hourglass zoning of clinopyroxene can provide valuable information on this process.

Language: English

Type: info:eu-repo/semantics/article

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Multiple angle observations would benefit visible band remote sensing using night lights (2022)

Kyba, C. ; Aubé, M. ; Bará, S. ; [et al.]

In: Journal of Geophysical Research: Atmospheres

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Publication Date: 2022-07-07

Description: The spatial and angular emission patterns of artificial and natural light emitted, scattered, and reflected from the Earth at night are far more complex than those for scattered and reflected solar radiation during daytime. In this commentary, we use examples to show that there is additional information contained in the angular distribution of emitted light. We argue that this information could be used to improve existing remote sensing retrievals based on night lights, and in some cases could make entirely new remote sensing analyses possible. This work will be challenging, so we hope this article will encourage researchers and funding agencies to pursue further study of how multi-angle views can be analyzed or acquired.

Type: info:eu-repo/semantics/article

Format: application/pdf

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Thermo-kinematic modeling of the Cenozoic uplift of the Bogda Shan, Northwest China (2021)

Jiao, R. ; Yuan, X. ; Braun, J. ; [et al.]

In: Tectonophysics

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Publication Date: 2022-08-26

Description: Constraining the Cenozoic uplift of Tian Shan is important for assessing the impact of the India-Asia collision to Central Asia. Here we estimate the uplift history of the Bogda Shan, northeastern Tian Shan, using a thermo-kinematic model which is constrained by previously reported apatite fission-track thermochronological data. By assuming that the growth of the mountain range propagates towards the basin as a classic critical wedge model, we show that the observed variation in the cooling ages on the mountain flank can be used to provide constraints on the timing and rate of the deformation along a series of south dipping thrust faults, which all root on a low-angle décollement. Inverse modeling confirms previous findings from thermal history models that the Cenozoic uplift in the Bogda Shan initiated during the Paleogene, no later than ~40 Ma. Since the early Miocene (~23 Ma), locus of uplift has expanded to the current southern margin of the Junggar Basin. Our kinematic model of the deformation of the Bogda Shan suggests a temporal stability in the shortening rate of the northeastern Tian Shan over the period of the India-Asia collision during the late Cenozoic.

Language: English

Type: info:eu-repo/semantics/article

Format: application/pdf

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