Your search keyword '"Armbrecht, L"' showing total 90 results

1. Hybridisation capture allows DNA damage analysis of ancient marine eukaryotes

Author

Armbrecht, L., Hallegraeff, G., Bolch, C. J. S., Woodward, C., and Cooper, A.

Published

2021

2. From the Surface Ocean to the Seafloor: Linking Modern and Paleo-Genetics at the Sabrina Coast, East Antarctica (IN2017_V01)

Author

Armbrecht, L, Focardi, A, Lawler, KA, O’Brien, P, Leventer, A, Noble, TL, Opdyke, B, Duffy, M, Evangelinos, D, George, SC, Lieser, J, López-Quirós, A, Post, A, Ostrowski, M, Paulsen, I, Armand, L, Armbrecht, L, Focardi, A, Lawler, KA, O’Brien, P, Leventer, A, Noble, TL, Opdyke, B, Duffy, M, Evangelinos, D, George, SC, Lieser, J, López-Quirós, A, Post, A, Ostrowski, M, Paulsen, I, and Armand, L

Abstract

With ongoing climate change, research into the biological changes occurring in particularly vulnerable ecosystems, such as Antarctica, is critical. The Totten Glacier region, Sabrina Coast, is currently experiencing some of the highest rates of thinning across all East Antarctica. An assessment of the microscopic organisms supporting the ecosystem of the marginal sea-ice zone over the continental rise is important, yet there is a lack of knowledge about the diversity and distribution of these organisms throughout the water column, and their occurrence and/or preservation in the underlying sediments. Here, we provide a taxonomic overview of the modern and ancient marine bacterial and eukaryotic communities of the Totten Glacier region, using a combination of 16S and 18S rRNA amplicon sequencing (modern DNA) and shotgun metagenomics (sedimentary ancient DNA, sedaDNA). Our data show considerable differences between eukaryote and bacterial signals in the water column versus the sediments. Proteobacteria and diatoms dominate the bacterial and eukaryote composition in the upper water column, while diatoms, dinoflagellates, and haptophytes notably decrease in relative abundance with increasing water depth. Little diatom sedaDNA is preserved in the sediments, which are instead dominated by Proteobacteria and Retaria. We compare the diatom microfossil and sedaDNA record and link the weak preservation of diatom sedaDNA to DNA degradation while sinking through the water column to the seafloor. This study provides the first assessment of DNA transfer from ocean waters to sediments and an overview of the microscopic communities occurring in the climatically important Totten Glacier region.

Published

2023

3. Electrochemical Microfluidic Platform for Simultaneous Multi-analyte Detection

Author

Kling, A., Dincer, C., Armbrecht, L., Horak, J., Kieninger, J., and Urban, G.

Published

2015

4. Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years

Author

Weber, M.E., Bailey, I., Hemming, S.R., Martos, Y.M., Reilly, B.T., Ronge, T.A., Brachfeld, S., Williams, T., Raymo, M., Belt, M., Smik, L., vogel, H., Peck, V., Armbrecht, L., Cage, A., Cardillo, F.G., Du, Z., Fauth, G., Fogwill, C.J., and García-García, M. (Margarita)

Subjects

carbon, carbon cycle, pleistocene, Medio Marino, Centro Oceanográfico de Cádiz, ice ages, antarctic zone

Abstract

The Southern Ocean paleoceanography provides key insights into how iron fertilization and oceanic productivity developed through Pleistocene ice-ages and their role in influencing the carbon cycle. We report a high-resolution record of dust deposition and ocean productivity for the Antarctic Zone, close to the main dust source, Patagonia. Our deep-ocean records cover the last 1.5 Ma, thus doubling that from Antarctic ice-cores. We find a 5 to 15-fold increase in dust deposition during glacials and a 2 to 5-fold increase in biogenic silica deposition, reflecting higher ocean productivity during interglacials. This antiphasing persisted throughout the last 25 glacial cycles. Dust deposition became more pronounced across the Mid-Pleistocene Transition (MPT) in the Southern Hemisphere, with an abrupt shift suggesting more severe glaciations since ~0.9 Ma. Productivity was intermediate pre-MPT, lowest during the MPT and highest since 0.4 Ma. Generally, glacials experienced extended sea-ice cover, reduced bottom-water export and Weddell Gyre dynamics, which helped lower atmospheric CO2 levels., SI

Published

2022

5. Ancient marine sediment DNA reveals diatom transition in Antarctica

Author

Armbrecht, L., Weber, M.E., Raymo, M.E., Peck, V.L., Williams, T., Warnock, J., Kato, Y., Hernández-Almeida, I., Hoem, F., Reilly, B., Hemming, S., Bailey, I., Gutjahr, M., Percuoco, V., Allen, C., Brachfeld, S., Cardillo, F.G., Du, Z., Fauth, G., Fogwill, C., García-García, Margarita, et al., Armbrecht, L., Weber, M.E., Raymo, M.E., Peck, V.L., Williams, T., Warnock, J., Kato, Y., Hernández-Almeida, I., Hoem, F., Reilly, B., Hemming, S., Bailey, I., Gutjahr, M., Percuoco, V., Allen, C., Brachfeld, S., Cardillo, F.G., Du, Z., Fauth, G., Fogwill, C., García-García, Margarita, and et al.

Abstract

Antarctica is one of the most vulnerable regions to climate change on Earth and studying the past and present responses of this polar marine ecosystem to environmental change is a matter of urgency. Sedimentary ancient DNA (sedaDNA) analysis can provide such insights into past ecosystem-wide changes. Here we present authenticated (through extensive contamination control and sedaDNA damage analysis) metagenomic marine eukaryote sedaDNA from the Scotia Sea region acquired during IODP Expedition 382. We also provide a marine eukaryote sedaDNA record of ~1 Mio. years and diatom and chlorophyte sedaDNA dating back to ~540 ka (using taxonomic marker genes SSU, LSU, psbO). We find evidence of warm phases being associated with high relative diatom abundance, and a marked transition from diatoms comprising <10% of all eukaryotes prior to ~14.5 ka, to ~50% after this time, i.e., following Meltwater Pulse 1A, alongside a composition change from sea-ice to open-ocean species. Our study demonstrates that sedaDNA tools can be expanded to hundreds of thousands of years, opening the pathway to the study of ecosystem-wide marine shifts and paleo-productivity phases throughout multiple glacial-interglacial cycles.

Published

2022

6. Episodes of Early Pleistocene West Antarctic Ice Sheet Retreat Recorded by Iceberg Alley Sediments

Author

Bailey, I., Hemming, S., Reilly, B.T., Rollinson, G., Williams, T, Weber, M., Raymo, M.E., Peck, V.L., Ronge, T.A., Brachfeld, S., O'Connell, S., Tauxe, L., Warnock, J.P., Armbrecht, L., Cardillo, F.G., Fauth, G., García-García, Margarita, et al., Bailey, I., Hemming, S., Reilly, B.T., Rollinson, G., Williams, T, Weber, M., Raymo, M.E., Peck, V.L., Ronge, T.A., Brachfeld, S., O'Connell, S., Tauxe, L., Warnock, J.P., Armbrecht, L., Cardillo, F.G., Fauth, G., García-García, Margarita, and et al.

Abstract

Ice loss in the Southern Hemisphere has been greatest over the past 30 years in West Antarctica. The high sensitivity of this region to climate change has motivated geologists to examine marine sedimentary records for evidence of past episodes of West Antarctic Ice Sheet (WAIS) instability. Sediments accumulating in the Scotia Sea are useful to examine for this purpose because they receive iceberg-rafted debris (IBRD) sourced from the Pacific- and Atlantic-facing sectors of West Antarctica. Here we report on the sedimentology and provenance of the oldest of three cm-scale coarse-grained layers recovered from this sea at International Ocean Discovery Program Site U1538. These layers are preserved in opal-rich sediments deposited ∼1.2 Ma during a relatively warm regional climate. Our microCT-based analysis of the layer's in-situ fabric confirms its ice-rafted origin. We further infer that it is the product of an intense but short-lived episode of IBRD deposition. Based on the petrography of its sand fraction and the Phanerozoic 40Ar/39Ar ages of hornblende and mica it contains, we conclude that the IBRD it contains was likely sourced from the Weddell Sea and/or Amundsen Sea embayment(s) of West Antarctica. We attribute the high concentrations of IBRD in these layers to “dirty” icebergs calved from the WAIS following its retreat inland from its modern grounding line. These layers also sit at the top of a ∼366-m thick Pliocene and early Pleistocene sequence that is much more dropstone-rich than its overlying sediments. We speculate this fact may reflect that WAIS mass-balance was highly dynamic during the ∼41-kyr (inter)glacial world.

Published

2022

7. Latitudinal Variance in the Drivers and Pacing of Warmth During Mid-Pleistocene MIS 31 in the Antarctic Zone of the Southern Ocean

Author

Warnock, J.P., Reilly, B.T., Raymo, M.E., Weber, M.E., Peck, V., Williams, T., Armbrecht, L., Bailey, I., Brachfeld, S., Fauth, G., García-García, Margarita, et al., Warnock, J.P., Reilly, B.T., Raymo, M.E., Weber, M.E., Peck, V., Williams, T., Armbrecht, L., Bailey, I., Brachfeld, S., Fauth, G., García-García, Margarita, and et al.

Abstract

Early Pleistocene Marine Isotope Stage (MIS)-31 (1.081–1.062 Ma) is a unique interval of extreme global warming, including evidence of a West Antarctic Ice Sheet (WAIS) collapse. Here we present a new 1,000-year resolution, spanning 1.110–1.030 Ma, diatom-based reconstruction of primary productivity, relative sea surface temperature changes, sea-ice proximity/open ocean conditions and diatom species absolute abundances during MIS-31, from the Scotia Sea (59°S) using deep-sea sediments collected during International Ocean Discovery Program (IODP) Expedition 382. The lower Jaramillo magnetic reversal (base of C1r.1n, 1.071 Ma) provides a robust and independent time-stratigraphic marker to correlate records from other drill cores in the Antarctic Zone of the Southern Ocean (AZSO). An increase in open ocean species Fragilariopsis kerguelensis in early MIS-31 at 53°S (Ocean Drilling Program Site 1,094) correlates with increased obliquity forcing, whereas at 59°S (IODP Site U1537; this study) three progressively increasing, successive peaks in the relative abundance of F. kerguelensis correlate with Southern Hemisphere-phased precession pacing. These observations reveal a complex pattern of ocean temperature change and sustained sea surface temperature increase lasting longer than a precession cycle within the Atlantic sector of the AZSO. Timing of an inferred WAIS collapse is consistent with delayed warmth (possibly driven by sea-ice dynamics) in the southern AZSO, supporting models that indicate WAIS sensitivity to local sub-ice shelf melting. Anthropogenically enhanced impingement of relatively warm water beneath the ice shelves today highlights the importance of understanding dynamic responses of the WAIS during MIS-31, a warmer than Holocene interglacial.

Published

2022

8. PaleoEcoGen: Unlocking the power of ancient environmental DNA to understand past ecological trends

Author

Monchamp, Marie-Eve, Armbrecht, L., Capo, E., Coolen, M.J.L., Cordier, T., Domaizon, I., Epp, L.S., Giguet-Covex, C., Gregory-Eaves, I., Herzschuh, U., Parducci, L., Stoof-Leichsenring, K.r., and Williams, J.W., Department of Biology, McGill University, Montreal, Canada, Australian Centre for Ancient DNA, School of biological Sciences, The University of Adelaide, Australia, Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences, Uppsala, Sweden, Environnements, Dynamiques et Territoires de la Montagne (EDYTEM), and Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDE]Environmental Sciences, past changes, climate, ancient DNA, environmental DNA, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2021

9. Hybridisation capture allows DNA damage analysis of ancient marine eukaryotes

Author

Armbrecht, L., primary, Hallegraeff, G., additional, Bolch, C.J.S., additional, Woodward, C., additional, and Cooper, A., additional

Published

2020

10. Site U1535.

Author

Peck, V. L., Weber, M. E., Raymo, M. E., Williams, T., Armbrecht, L. H., Bailey, I., Brachfeld, S. A., Cardillo, F. G., Du, Z., Fauth, G., García, M., Glüder, A., Guitard, M. E., Gutjahr, M., Hemming, S. R., Hernández-Almeida, I., Hoem, F. S., Hwang, J.-H., Iizuka, M., and Kato, Y.

Subjects

OCEAN dynamics, PALEOCEANOGRAPHY, SEAWATER

Published

2021

11. Site U1538.

Author

Weber, M. E., Raymo, M. E., Peck, V. L., Williams, T., Armbrecht, L. H., Bailey, I., Brachfeld, S. A., Cardillo, F. G., Du, Z., Fauth, G., García, M., Glüder, A., Guitard, M. E., Gutjahr, M., Hemming, S. R., Hernández-Almeida, I., Hoem, F. S., Hwang, J.-H., Iizuka, M., and Kato, Y.

Subjects

OCEAN dynamics, ICEBERGS, SEA level, PALEOCEANOGRAPHY, PALEOCLIMATOLOGY

Published

2021

12. Expedition 382 summary.

Author

Weber, M. E., Raymo, M. E., Peck, V. L., Williams, T., Armbrecht, L. H., Bailey, I., Brachfeld, S. A., Cardillo, F. G., Du, Z., Fauth, G., García, M., Glüder, A., Guitard, M. E., Gutjahr, M., Hemming, S. R., Hernández-Almeida, I., Hoem, F. S., Hwang, J.-H., Iizuka, M., and Kato, Y.

Subjects

ATMOSPHERIC carbon dioxide, CLIMATE change, ATMOSPHERIC circulation

Abstract

International Ocean Discovery Program Expedition 382, Iceberg Alley and Subantarctic Ice and Ocean Dynamics, investigated the long-term climate history of Antarctica, seeking to understand how polar ice sheets responded to changes in insolation and atmospheric CO2 in the past and how ice sheet evolution influenced global sea level and vice versa. Five sites (U1534-U1538) were drilled east of the Drake Passage: two sites at 53.2°S at the northern edge of the Scotia Sea and three sites at 57.4°-59.4°S in the southern Scotia Sea. We recovered continuously deposited late Neogene sediments to reconstruct the past history and variability in Antarctic Ice Sheet (AIS) mass loss and associated changes in oceanic and atmospheric circulation. [ABSTRACT FROM AUTHOR]

Published

2021

13. Expedition 382 methods.

Author

Weber, M. E., Raymo, M. E., Peck, V. L., Williams, T., Armbrecht, L. H., Bailey, I., Brachfeld, S. A., Cardillo, F. G., Du, Z., Fauth, G., García, M., Glüder, A., Guitard, M. E., Gutjahr, M., Hemming, S. R., Hernández-Almeida, I., Hoem, F. S., Hwang, J.-H., Iizuka, M., and Kato, Y.

Subjects

OCEAN dynamics, GLOBAL Positioning System, DRILL pipe, DATA analysis

Published

2021

14. Under the Southern Cross: 13th International Conference on Paleoceanography

Author

Missiaen, L, Falster, G, Armbrecht, L, Missiaen, L, Falster, G, and Armbrecht, L

Published

2019

15. Assessment of welfare indicators in dairy farms offering pasture at differing levels

Author

Armbrecht, L., primary, Lambertz, C., additional, Albers, D., additional, and Gauly, M., additional

Published

2019

16. A database of chlorophyll a in Australian waters

Author

Davies, CH, Ajani, P, Armbrecht, L, Atkins, N, Baird, ME, Beard, J, Bonham, P, Burford, M, Clementson, L, Coad, P, Crawford, C, Dela-Cruz, J, Doblin, MA, Edgar, S, Eriksen, R, Everett, JD, Furnas, M, Harrison, DP, Hassler, C, Henschke, N, Hoenner, X, Ingleton, T, Jameson, I, Keesing, J, Leterme, SC, James McLaughlin, M, Miller, M, Moffatt, D, Moss, A, Nayar, S, Patten, NL, Patten, R, Pausina, SA, Proctor, R, Raes, E, Robb, M, Rothlisberg, P, Saeck, EA, Scanes, P, Suthers, IM, Swadling, KM, Talbot, S, Thompson, P, Thomson, PG, Uribe-Palomino, J, Van Ruth, P, Waite, AM, Wright, S, Richardson, AJ, Davies, CH, Ajani, P, Armbrecht, L, Atkins, N, Baird, ME, Beard, J, Bonham, P, Burford, M, Clementson, L, Coad, P, Crawford, C, Dela-Cruz, J, Doblin, MA, Edgar, S, Eriksen, R, Everett, JD, Furnas, M, Harrison, DP, Hassler, C, Henschke, N, Hoenner, X, Ingleton, T, Jameson, I, Keesing, J, Leterme, SC, James McLaughlin, M, Miller, M, Moffatt, D, Moss, A, Nayar, S, Patten, NL, Patten, R, Pausina, SA, Proctor, R, Raes, E, Robb, M, Rothlisberg, P, Saeck, EA, Scanes, P, Suthers, IM, Swadling, KM, Talbot, S, Thompson, P, Thomson, PG, Uribe-Palomino, J, Van Ruth, P, Waite, AM, Wright, S, and Richardson, AJ

Abstract

© The Author(s) 2018. Chlorophyll a is the most commonly used indicator of phytoplankton biomass in the marine environment. It is relatively simple and cost effective to measure when compared to phytoplankton abundance and is thus routinely included in many surveys. Here we collate 173, 333 records of chlorophyll a collected since 1965 from Australian waters gathered from researchers on regular coastal monitoring surveys and ocean voyages into a single repository. This dataset includes the chlorophyll a values as measured from samples analysed using spectrophotometry, fluorometry and high performance liquid chromatography (HPLC). The Australian Chlorophyll a database is freely available through the Australian Ocean Data Network portal (https://portal.aodn.org.au/). These data can be used in isolation as an index of phytoplankton biomass or in combination with other data to provide insight into water quality, ecosystem state, and relationships with other trophic levels such as zooplankton or fish.

Published

2018

17. Corrigendum:A database of marine phytoplankton abundance, biomass and species composition in Australian waters (Scientific Data (2016) 3 (160043) DOI: 10.1038/sdata.2016.43)

Author

Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pausina, SA, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, and Richardson, AJ

Subjects

TheoryofComputation_COMPUTATIONBYABSTRACTDEVICES, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries)

Abstract

© The Author(s) 2016. A series of errors in our database were brought to our attention by readers, and have been corrected in an updated version of this database, which is accessible via the AODN at the following link: https://portal.aodn.org.au/search?uuid =75f4f1fc-bee3-4498-ab71-aa1ab29ab2c0 The custodian details of several datasets were incorrect. These fields in the metadata table have been updated to correctly assign P744, P746, P748, and P778 to the Australian Antarctic Division, and P752 to the Royal Belgian Institute of Natural Sciences. Species names and functional group assignments have been changed for a small number of records to fix identified errors. Tripos brevis and Tripos arietinus were spelt incorrectly, and have been duly corrected. Pedinellaceae was wrongly assigned to dinoflagellate as a functional group, and has now been re-assigned to flagellate. The 'Naked flagellate' group has been renamed 'Flagellate' as there is some inconsistency in the use of the term 'Naked flagellate' and what precisely would be included. The functional group 'Other', has also been excluded as this contained data that was not necessarily phytoplankton but had been found in phytoplankton counts. The macroalgae Murrayella australica, Cladophora spp., Chlorohormidium sp., Eudorina spp., Tribonema spp., Chlorohormidium spp. were also removed. In addition to these corrections, three datasets have been extended to include more recently acquired data: P 597 IMOS Australian Continuous Plankton Recorder survey (ongoing dataset, 59089 new records as of 2016-08-31); P599 IMOS National Reference Stations (ongoing dataset, 14669 new records as of 2016-08-31); and P1068 Great Barrier Reef Expedition 1928-29 (new dataset, 1340 new records). Table 1 provides a summary of the overall change in database contents. (Table Presented). This dataset will continue to grow and will be regularly updated with new data and any further corrections to the data. Users can email imos-planktonatcsiro.au with any comments, which will be reviewed and included in future updates if applicable. The AODN portal will always direct the user to the most recent version, the original version will remain available at http://dx.doi.org/10.4225/69/ 56454b2ba2f79, and interim versions will be available on request.

Published

2017

18. Corrigendum: A database of marine phytoplankton abundance, biomass and species composition in Australian waters (Scientific Data (2016) 3 (160043) DOI: 10.1038/sdata.2016.43)

Author

Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pausina, SA, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, Richardson, AJ, Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pausina, SA, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, and Richardson, AJ

Abstract

© 2017 The Author(s). The authors regret that Sarah A. Pausina was omitted in error from the author list of the original version of this Data Descriptor. This omission has now been corrected in the HTML and PDF versions of this Data Descriptor, as well as the accompanying Corrigendum.

Published

2017

19. Characterisation of anticancer peptides at the single-cell level

Author

Armbrecht, L., primary, Gabernet, G., additional, Kurth, F., additional, Hiss, J. A., additional, Schneider, G., additional, and Dittrich, P. S., additional

Published

2017

20. A database of marine phytoplankton abundance, biomass and species composition in Australian waters

Author

Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, Richardson, AJ, Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, and Richardson, AJ

Abstract

There have been many individual phytoplankton datasets collected across Australia since the mid 1900s, but most are unavailable to the research community. We have searched archives, contacted researchers, and scanned the primary and grey literature to collate 3,621,847 records of marine phytoplankton species from Australian waters from 1844 to the present. Many of these are small datasets collected for local questions, but combined they provide over 170 years of data on phytoplankton communities in Australian waters. Units and taxonomy have been standardised, obviously erroneous data removed, and all metadata included. We have lodged this dataset with the Australian Ocean Data Network (http://portal.aodn.org.au/) allowing public access. The Australian Phytoplankton Database will be invaluable for global change studies, as it allows analysis of ecological indicators of climate change and eutrophication (e.g., changes in distribution; diatom:dinoflagellate ratios). In addition, the standardised conversion of abundance records to biomass provides modellers with quantifiable data to initialise and validate ecosystem models of lower marine trophic levels.

Published

2016

21. Corrigendum: A database of marine phytoplankton abundance, biomass and species composition in Australian waters (Scientific Data (2016) 3 (160043) DOI: 10.1038/sdata201643))

Author

Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pausina, SA, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, Richardson, AJ, Davies, CH, Coughlan, A, Hallegraeff, G, Ajani, P, Armbrecht, L, Atkins, N, Bonham, P, Brett, S, Brinkman, R, Burford, M, Clementson, L, Coad, P, Coman, F, Davies, D, Dela-Cruz, J, Devlin, M, Edgar, S, Eriksen, R, Furnas, M, Hassler, C, Hill, D, Holmes, M, Ingleton, T, Jameson, I, Leterme, SC, Lønborg, C, McLaughlin, J, McEnnulty, F, McKinnon, AD, Miller, M, Murray, S, Nayar, S, Patten, R, Pausina, SA, Pritchard, T, Proctor, R, Purcell-Meyerink, D, Raes, E, Rissik, D, Ruszczyk, J, Slotwinski, A, Swadling, KM, Tattersall, K, Thompson, P, Thomson, P, Tonks, M, Trull, TW, Uribe-Palomino, J, Waite, AM, Yauwenas, R, Zammit, A, and Richardson, AJ

Abstract

© The Author(s) 2016. A series of errors in our database were brought to our attention by readers, and have been corrected in an updated version of this database, which is accessible via the AODN at the following link: https://portal.aodn.org.au/search?uuid =75f4f1fc-bee3-4498-ab71-aa1ab29ab2c0 The custodian details of several datasets were incorrect. These fields in the metadata table have been updated to correctly assign P744, P746, P748, and P778 to the Australian Antarctic Division, and P752 to the Royal Belgian Institute of Natural Sciences. Species names and functional group assignments have been changed for a small number of records to fix identified errors. Tripos brevis and Tripos arietinus were spelt incorrectly, and have been duly corrected. Pedinellaceae was wrongly assigned to dinoflagellate as a functional group, and has now been re-assigned to flagellate. The 'Naked flagellate' group has been renamed 'Flagellate' as there is some inconsistency in the use of the term 'Naked flagellate' and what precisely would be included. The functional group 'Other', has also been excluded as this contained data that was not necessarily phytoplankton but had been found in phytoplankton counts. The macroalgae Murrayella australica, Cladophora spp., Chlorohormidium sp., Eudorina spp., Tribonema spp., Chlorohormidium spp. were also removed. In addition to these corrections, three datasets have been extended to include more recently acquired data: P 597 IMOS Australian Continuous Plankton Recorder survey (ongoing dataset, 59089 new records as of 2016-08-31); P599 IMOS National Reference Stations (ongoing dataset, 14669 new records as of 2016-08-31); and P1068 Great Barrier Reef Expedition 1928-29 (new dataset, 1340 new records). Table 1 provides a summary of the overall change in database contents. (Table Presented). This dataset will continue to grow and will be regularly updated with new data and any further corrections to the data. Users can email imos-planktonatcsiro

Published

2016

22. Designed miniaturization of microfluidic biosensor platforms using the stop-flow technique

Author

Dincer, C., primary, Kling, A., additional, Chatelle, C., additional, Armbrecht, L., additional, Kieninger, J., additional, Weber, W., additional, and Urban, G. A., additional

Published

2016

23. Self-assembled magnetic bead chains for sensitivity enhancement of microfluidic electrochemical biosensor platforms

Author

Armbrecht, L., Dincer, C., Kling, A., Horak, Josef, Kieninger, J., Urban, G., Armbrecht, L., Dincer, C., Kling, A., Horak, Josef, Kieninger, J., and Urban, G.

Abstract

In this paper, we present a novel approach to enhance the sensitivity of microfluidic biosensor platforms with self-assembled magnetic bead chains. An adjustable, more than 5-fold sensitivity enhancement is achieved by introducing a magnetic field gradient along a microfluidic channel by means of a soft-magnetic lattice with a 350 mu m spacing. The alternating magnetic field induces the self-assembly of the magnetic beads in chains or clusters and thus improves the perfusion and active contact between the analyte and the beads. The soft-magnetic lattices can be applied independent of the channel geometry or chip material to any microfluidic biosensing platform. At the same time, the bead-based approach achieves chip reusability and shortened measurement times. The bead chain properties and the maximum flow velocity for bead retention were validated by optical microscopy in a glass capillary. The magnetic actuation system was successfully validated with a biotin-streptavidin model assay on a low-cost electrochemical microfluidic chip, fabricated by dry-film photoresist technology (DFR). Labelling with glucose oxidase (GOx) permits rapid electrochemical detection of enzymatically produced H2O2., QC 20151202

Published

2015

24. Signal amplification using magnetic bead chains in microfluidic electrochemical biosensors

Author

Armbrecht, L., Dincer, C., Kling, A., Horak, Josef, Kieninger, J., Urban, G., Armbrecht, L., Dincer, C., Kling, A., Horak, Josef, Kieninger, J., and Urban, G.

Abstract

We present a novel approach to increase the sensitivity of microfluidic biosensor platforms using magnetic micro-bead chains. An almost 2-fold sensitivity enhancement is achieved by introducing a magnetic field gradient along a microfluidic channel by means of a soft-magnetic lattice with lattice spacings down to 100 μm. The magnetic field gradient induces self-assembly of the magnetic beads in chains or clusters and thus improves the active contact between analyte and beads. This facile strategy significantly increases the active bead surface while allowing for complete independence of traditional biosensor materials and channel geometries, chip-reusability and shortened measurement times. Bead chain properties were validated with optical microscopy in a glass capillary and with electrochemical measurements via glucose oxidase (GOx) labels on an integrated microfluidic chip fabricated in dry-film photo resist technology (DFR)., QC 20160517

Published

2015

25. Ion-molecule collisions in gaseous111InCl and111InI systems

Author

Schütter, K., Armbrecht, L., Bartels, E. R., Finke, R., Ziegeler, L., and Borchert, I.

Published

1986

26. Measurement of the hyperfine interaction of free75As ions In H2, He, Ne, Kr and Xe buffer environments and estimate of clolision cross sections in the eV and meV energy region

Author

Armbrecht, L., Schütter, K., Ziegeler, L., and Borchert, I.

Published

1983

27. The measurement of a pressure-dependent perturbed angular correlation in gaseous H2 75Se sources with H2, He and Kr buffer environments

Author

Armbrecht, L., Ziegeler, L., and Borchert, I.

Published

1981

28. Pressure-dependent perturbed directional correlations and collision cross sections in the meV and eV energy region for gaseous ion — Noble gas systems

Author

Schütter, K., Armbrecht, L., Ilper, E., Magerkorth, K. -J., Ziegeler, L., and Borchert, I.

Published

1983

29. Signal amplification using magnetic bead chains in microfluidic electrochemical biosensors

Author

Armbrecht, L., primary, Dincer, C., additional, Kling, A., additional, Horak, J., additional, Kieninger, J., additional, and Urban, G., additional

Published

2015

30. Self-assembled magnetic bead chains for sensitivity enhancement of microfluidic electrochemical biosensor platforms

Author

Armbrecht, L., primary, Dincer, C., additional, Kling, A., additional, Horak, J., additional, Kieninger, J., additional, and Urban, G., additional

Published

2015

31. Measurement of mass of single inkjet drops with a quartz crystal microbalance QCM

Author

Reinhold, Ingo, Mecea, V., Armbrecht, L., Voit, W., Müller, M., Zapka, Werner, Baumann, R. R., Reinhold, Ingo, Mecea, V., Armbrecht, L., Voit, W., Müller, M., Zapka, Werner, and Baumann, R. R.

Abstract

Monitoring inkjet performance requires control of parameters such as drop velocity, direction and drop volume. Present methods to determine drop volume utilize optical vision systems or calculation of an average drop mass from large numbers of drops on a precision balance. An alternative technique based on QCM (Quartz Crystal Microbalance) was assessed to measure the mass of single drops. Low-cost plano-convex 6 MHz AT-cut quartz resonators were used to measure single inkjet drops. Since the footprint of these ink drops is of the order 100 μm the QCM detector was used in a 'localized spot' measurement mode in contrast to the typical large area detection mode. The sensitivity of an inner 0.5 mm circle was determined to be 5.46 x 10-10 g/Hz for solid silver films. Single drops of an oil-based ink of 50 pL nominal volume were jetted using a Xaar126 piezo inkjet printhead onto the QCM target area and produced signals with a SNR better than 70:1. This paper presents the technical challenges relating to liquid droplet volume measurements using higher frequency oscillators., QC 20131011

Published

2012

32. The measurement of a pressure-dependent perturbed angular correlation in gaseous H275Se sources with H2, He and Kr buffer environments

Author

Armbrecht, L., Ziegeler, L., and Borchert, I.

Published

1981

33. Measurement of the hyperfine interaction of free75As ions In H2, He, Ne, Kr and Xe buffer environments and estimate of clolision cross sections in the eV and meV energy region

Author

Armbrecht, L., Schütter, K., Ziegeler, L., and Borchert, I.

Abstract

With the time-integral perturbed angular correlation (TIPAC) method the pressure dependence of the perturbation of the 121.1–279.5 keV ?-? cascade in75As has been investigated using gaseous H275Se sources in different buffer environments. The obtained attenuation coefficients G22 (8) in the range of 0.55 to 1.0 were fitted with a theoretical stochastic model. In the region of low density, where the correlation time tC is large compared to the lifetime t of the intermediate level of the nucleus, charge transfer collision cross sections have been evaluated between 8.1·10-16 cm2 for He, 1.3·10-14 cm2 for Xe and 1.8·10-14 cm2 for the molecular H2 buffer gas. For increasing densities of the buffer gases the correlation time tC became small compared to the intermediate lifetime t. The main effect in this region is the depolarization, and we found cross sections between 5.2·10-15 cm2 for He, 8.7·10-14 cm2 for Xe and 1.2·10-13 cm2 for the H2 buffer gas.

Published

1983

34. Ion-molecule collisions in gaseous111InCl and111InI systems

Author

Schütter, K., Armbrecht, L., Bartels, E. R., Finke, R., Ziegeler, L., and Borchert, I.

Abstract

Using gaseous sources of111InCl and111InI with densities between 1.0·1017 cm-3 and 4.4·1019 cm-3 the perturbation of the 171.3–245.4 keV?-? cascade was measured as a function of time and density by the time-differential perturbed angular correlation (TDPAC) method. The anisotropy shows a strong dependence on the density. By means of an extended model based on a stochastic model of Bosch and Spehl collision cross sections for charge transfer and deorientation could be determined. The cross sections for charge transfer collisions were within the region from 2·10-15 cm2 to 26·10-15 cm2 and for deorientation collisions between 1·10-15 cm2 and 100·10-15 cm2.

Published

1986

35. Microfluidic multiplexed multi-analyte immunosensing platform

Author

Kling, A., Dincer, C., Chatelle, C., Armbrecht, L., Jochen Kieninger, Weber, W., and Urban, G.

36. Ion-molecule collisions in gaseous111InCl and111InI systems

Author

Sch�tter, K., primary, Armbrecht, L., additional, Bartels, E. R., additional, Finke, R., additional, Ziegeler, L., additional, and Borchert, I., additional

Published

1986

37. Recovering sedimentary ancient DNA of harmful dinoflagellates accumulated over the last 9000 years off Eastern Tasmania, Australia.

Author

Armbrecht L, Bolch CJS, Paine B, Cooper A, McMinn A, Woodward C, and Hallegraeff G

Abstract

Harmful algal blooms (HABs) have had significant adverse impacts on the seafood industry along the Tasmanian east coast over the past 4 decades. To investigate the history of regional HABs, we performed analyses of sedimentary ancient DNA ( sed aDNA) in coastal sediments up to ~9000 years old collected inshore and offshore of Maria Island, Tasmania. We used metagenomic shotgun sequencing and a hybridisation capture array ("HABbaits1") to target three harmful dinoflagellate genera, Alexandrium , Gymnodinium , and Noctiluca . Bioinformatic and DNA damage analyses verified the authenticity of the sed aDNA sequences. Our results show that dinoflagellates of Alexandrium genera have been present off eastern Tasmania during the last ~8300 years, and we sporadically detected and unambiguously verified sequences of Gymnodinium catenatum that were present offshore up to ~7600 years ago. We also recovered sed aDNA of the fragile, soft-bodied Noctiluca scintillans with increased relative abundance since 2010, consistent with plankton surveys. This study enabled us to identify challenges of sed aDNA sequence validation (in particular for G. catenatum , a microreticulate gymnodinoid species) and provided guidance for the development of tools to monitor past and present HAB species and improvement of future HAB event predictions., Competing Interests: The authors declare that there are no competing financial interests in relation to the work described., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

38. MyCTC chip: microfluidic-based drug screen with patient-derived tumour cells from liquid biopsies.

Author

Schwab FD, Scheidmann MC, Ozimski LL, Kling A, Armbrecht L, Ryser T, Krol I, Strittmatter K, Nguyen-Sträuli BD, Jacob F, Fedier A, Heinzelmann-Schwarz V, Wicki A, Dittrich PS, and Aceto N

Abstract

Cancer patients with advanced disease are characterized by intrinsic challenges in predicting drug response patterns, often leading to ineffective treatment. Current clinical practice for treatment decision-making is commonly based on primary or secondary tumour biopsies, yet when disease progression accelerates, tissue biopsies are not performed on a regular basis. It is in this context that liquid biopsies may offer a unique window to uncover key vulnerabilities, providing valuable information about previously underappreciated treatment opportunities. Here, we present MyCTC chip, a novel microfluidic device enabling the isolation, culture and drug susceptibility testing of cancer cells derived from liquid biopsies. Cancer cell capture is achieved through a label-free, antigen-agnostic enrichment method, and it is followed by cultivation in dedicated conditions, allowing on-chip expansion of captured cells. Upon growth, cancer cells are then transferred to drug screen chambers located within the same device, where multiple compounds can be tested simultaneously. We demonstrate MyCTC chip performance by means of spike-in experiments with patient-derived breast circulating tumour cells, enabling >95% capture rates, as well as prospective processing of blood from breast cancer patients and ascites fluid from patients with ovarian, tubal and endometrial cancer, where sensitivity to specific chemotherapeutic agents was identified. Together, we provide evidence that MyCTC chip may be used to identify personalized drug response patterns in patients with advanced metastatic disease and with limited treatment opportunities., Competing Interests: Conflict of interestN.A. is a co-founder and member of the Board of PAGE Therapeutics AG, consultant for companies with an interest in liquid biopsy, and Novartis shareholder. M.C.S. is an employee at Novartis Pharma AG and a Novartis shareholder. All other authors declare no competing interests., (© The Author(s) 2022.)

Published

2022

39. Ancient marine sediment DNA reveals diatom transition in Antarctica.

Author

Armbrecht L, Weber ME, Raymo ME, Peck VL, Williams T, Warnock J, Kato Y, Hernández-Almeida I, Hoem F, Reilly B, Hemming S, Bailey I, Martos YM, Gutjahr M, Percuoco V, Allen C, Brachfeld S, Cardillo FG, Du Z, Fauth G, Fogwill C, Garcia M, Glüder A, Guitard M, Hwang JH, Iizuka M, Kenlee B, O'Connell S, Pérez LF, Ronge TA, Seki O, Tauxe L, Tripathi S, and Zheng X

Subjects

Antarctic Regions, DNA, Ancient, Ecosystem, Eukaryota, Geologic Sediments, Diatoms genetics

Abstract

Antarctica is one of the most vulnerable regions to climate change on Earth and studying the past and present responses of this polar marine ecosystem to environmental change is a matter of urgency. Sedimentary ancient DNA (sedaDNA) analysis can provide such insights into past ecosystem-wide changes. Here we present authenticated (through extensive contamination control and sedaDNA damage analysis) metagenomic marine eukaryote sedaDNA from the Scotia Sea region acquired during IODP Expedition 382. We also provide a marine eukaryote sedaDNA record of ~1 Mio. years and diatom and chlorophyte sedaDNA dating back to ~540 ka (using taxonomic marker genes SSU, LSU, psbO). We find evidence of warm phases being associated with high relative diatom abundance, and a marked transition from diatoms comprising <10% of all eukaryotes prior to ~14.5 ka, to ~50% after this time, i.e., following Meltwater Pulse 1A, alongside a composition change from sea-ice to open-ocean species. Our study demonstrates that sedaDNA tools can be expanded to hundreds of thousands of years, opening the pathway to the study of ecosystem-wide marine shifts and paleo-productivity phases throughout multiple glacial-interglacial cycles., (© 2022. The Author(s).)

Published

2022

40. Episodes of Early Pleistocene West Antarctic Ice Sheet Retreat Recorded by Iceberg Alley Sediments.

Author

Bailey I, Hemming S, Reilly BT, Rollinson G, Williams T, Weber ME, Raymo ME, Peck VL, Ronge TA, Brachfeld S, O'Connell S, Tauxe L, Warnock JP, Armbrecht L, Cardillo FG, Du Z, Fauth G, Garcia M, Glueder A, Guitard M, Gutjahr M, Hernández-Almeida I, Hoem FS, Hwang JH, Iizuka M, Kato Y, Kenlee B, Martos YM, Pérez LF, Seki O, Tripathi S, and Zheng X

Abstract

Ice loss in the Southern Hemisphere has been greatest over the past 30 years in West Antarctica. The high sensitivity of this region to climate change has motivated geologists to examine marine sedimentary records for evidence of past episodes of West Antarctic Ice Sheet (WAIS) instability. Sediments accumulating in the Scotia Sea are useful to examine for this purpose because they receive iceberg-rafted debris (IBRD) sourced from the Pacific- and Atlantic-facing sectors of West Antarctica. Here we report on the sedimentology and provenance of the oldest of three cm-scale coarse-grained layers recovered from this sea at International Ocean Discovery Program Site U1538. These layers are preserved in opal-rich sediments deposited ∼1.2 Ma during a relatively warm regional climate. Our microCT-based analysis of the layer's in-situ fabric confirms its ice-rafted origin. We further infer that it is the product of an intense but short-lived episode of IBRD deposition. Based on the petrography of its sand fraction and the Phanerozoic 40 Ar/ 39 Ar ages of hornblende and mica it contains, we conclude that the IBRD it contains was likely sourced from the Weddell Sea and/or Amundsen Sea embayment(s) of West Antarctica. We attribute the high concentrations of IBRD in these layers to "dirty" icebergs calved from the WAIS following its retreat inland from its modern grounding line. These layers also sit at the top of a ∼366-m thick Pliocene and early Pleistocene sequence that is much more dropstone-rich than its overlying sediments. We speculate this fact may reflect that WAIS mass-balance was highly dynamic during the ∼41-kyr (inter)glacial world., (© 2022. The Authors.)

Published

2022

41. Environmental paleomicrobiology: using DNA preserved in aquatic sediments to its full potential.

Author

Capo E, Monchamp ME, Coolen MJL, Domaizon I, Armbrecht L, and Bertilsson S

Subjects

Biodiversity, DNA, Geologic Sediments microbiology, Humans, Lakes microbiology, Ecosystem, Microbiota genetics

Abstract

In-depth knowledge about spatial and temporal variation in microbial diversity and function is needed for a better understanding of ecological and evolutionary responses to global change. In particular, the study of microbial ancient DNA preserved in sediment archives from lakes and oceans can help us to evaluate the responses of aquatic microbes in the past and make predictions about future biodiversity change in those ecosystems. Recent advances in molecular genetic methods applied to the analysis of historically deposited DNA in sediments have not only allowed the taxonomic identification of past aquatic microbial communities but also enabled tracing their evolution and adaptation to episodic disturbances and gradual environmental change. Nevertheless, some challenges remain for scientists to take full advantage of the rapidly developing field of paleo-genetics, including the limited ability to detect rare taxa and reconstruct complete genomes for evolutionary studies. Here, we provide a brief review of some of the recent advances in the field of environmental paleomicrobiology and discuss remaining challenges related to the application of molecular genetic methods to study microbial diversity, ecology, and evolution in sediment archives. We anticipate that, in the near future, environmental paleomicrobiology will shed new light on the processes of microbial genome evolution and microbial ecosystem responses to quaternary environmental changes at an unprecedented level of detail. This information can, for example, aid geological reconstructions of biogeochemical cycles and predict ecosystem responses to environmental perturbations, including in the context of human-induced global changes., (© 2022 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2022

42. Antiphased dust deposition and productivity in the Antarctic Zone over 1.5 million years.

Author

Weber ME, Bailey I, Hemming SR, Martos YM, Reilly BT, Ronge TA, Brachfeld S, Williams T, Raymo M, Belt ST, Smik L, Vogel H, Peck VL, Armbrecht L, Cage A, Cardillo FG, Du Z, Fauth G, Fogwill CJ, Garcia M, Garnsworthy M, Glüder A, Guitard M, Gutjahr M, Hernández-Almeida I, Hoem FS, Hwang JH, Iizuka M, Kato Y, Kenlee B, OConnell S, Pérez LF, Seki O, Stevens L, Tauxe L, Tripathi S, Warnock J, and Zheng X

Subjects

Antarctic Regions, Atmosphere, Oceans and Seas, Dust analysis, Seawater

Abstract

The Southern Ocean paleoceanography provides key insights into how iron fertilization and oceanic productivity developed through Pleistocene ice-ages and their role in influencing the carbon cycle. We report a high-resolution record of dust deposition and ocean productivity for the Antarctic Zone, close to the main dust source, Patagonia. Our deep-ocean records cover the last 1.5 Ma, thus doubling that from Antarctic ice-cores. We find a 5 to 15-fold increase in dust deposition during glacials and a 2 to 5-fold increase in biogenic silica deposition, reflecting higher ocean productivity during interglacials. This antiphasing persisted throughout the last 25 glacial cycles. Dust deposition became more pronounced across the Mid-Pleistocene Transition (MPT) in the Southern Hemisphere, with an abrupt shift suggesting more severe glaciations since ~0.9 Ma. Productivity was intermediate pre-MPT, lowest during the MPT and highest since 0.4 Ma. Generally, glacials experienced extended sea-ice cover, reduced bottom-water export and Weddell Gyre dynamics, which helped lower atmospheric CO 2 levels., (© 2022. The Author(s).)

Published

2022

43. Paleo-diatom composition from Santa Barbara Basin deep-sea sediments: a comparison of 18S-V9 and diat-rbcL metabarcoding vs shotgun metagenomics.

Author

Armbrecht L, Eisenhofer R, Utge J, Sibert EC, Rocha F, Ward R, Pierella Karlusich JJ, Tirichine L, Norris R, Summers M, and Bowler C

Abstract

Sedimentary ancient DNA (sedaDNA) analyses are increasingly used to reconstruct marine ecosystems. The majority of marine sedaDNA studies use a metabarcoding approach (extraction and analysis of specific DNA fragments of a defined length), targeting short taxonomic marker genes. Promising examples are 18S-V9 rRNA (~121-130 base pairs, bp) and diat-rbcL (76 bp), targeting eukaryotes and diatoms, respectively. However, it remains unknown how 18S-V9 and diat-rbcL derived compositional profiles compare to metagenomic shotgun data, the preferred method for ancient DNA analyses as amplification biases are minimised. We extracted DNA from five Santa Barbara Basin sediment samples (up to ~11 000 years old) and applied both a metabarcoding (18S-V9 rRNA, diat-rbcL) and a metagenomic shotgun approach to (i) compare eukaryote, especially diatom, composition, and (ii) assess sequence length and database related biases. Eukaryote composition differed considerably between shotgun and metabarcoding data, which was related to differences in read lengths (~112 and ~161 bp, respectively), and overamplification of short reads in metabarcoding data. Diatom composition was influenced by reference bias that was exacerbated in metabarcoding data and characterised by increased representation of Chaetoceros, Thalassiosira and Pseudo-nitzschia. Our results are relevant to sedaDNA studies aiming to accurately characterise paleo-ecosystems from either metabarcoding or metagenomic data., (© 2021. The Author(s).)

Published

2021

44. Microbial factories: monitoring vitamin B 2 production by Escherichia coli in microfluidic cultivation chambers.

Author

Jusková P, Schmitt S, Armbrecht L, and Dittrich PS

Subjects

Culture Media, Industrial Microbiology, Escherichia coli genetics, Microfluidics, Riboflavin biosynthesis, Vitamins biosynthesis

Abstract

Microbial cells represent a standard production host for various important biotechnological products. Production yields can be increased by optimising strains and growth conditions and understanding deviations in production rates over time or within the microbial population. We introduce here microfluidic cultivation chambers for highly parallel studies on microbial cultures, enabling continuous biosynthesis monitoring of the industrially relevant product by Escherichia coli cells. The growth chambers are defined by ring-valves that encapsulate a volume of 200 pL when activated. Bacterial cells, labelled with magnetic beads, are inoculated in a small magnetic trap, positioned in the centre of each chamber. Afterwards, the ring-valves are partially activated, allowing for exchange reagents, such as the addition of fresh media or specific inducers of biosynthesis, while the bacterial cells and their progeny are maintained inside. On this platform, we monitor the production of riboflavin (vitamin B 2 ). We used different variants of a riboflavin-overproducing bacterial strain with different riboflavin production levels and could distinguish them on the level of individual micro-colonies. In addition, we could also observe differences in the bacterial morphology with respect to the production. The presented platform represents a flexible microfluidic tool for further studies of microbial cell factories.

Published

2021

45. An optimized method for the extraction of ancient eukaryote DNA from marine sediments.

Author

Armbrecht L, Herrando-Pérez S, Eisenhofer R, Hallegraeff GM, Bolch CJS, and Cooper A

Subjects

Fossils, Gene Library, Tasmania, DNA genetics, DNA, Ancient chemistry, Eukaryota genetics, Geologic Sediments chemistry

Abstract

Marine sedimentary ancient DNA (sedaDNA) provides a powerful means to reconstruct marine palaeo-communities across the food web. However, currently there are few optimized sedaDNA extraction protocols available to maximize the yield of small DNA fragments typical of ancient DNA (aDNA) across a broad diversity of eukaryotes. We compared seven combinations of sedaDNA extraction treatments and sequencing library preparations using marine sediments collected at a water depth of 104 m off Maria Island, Tasmania, in 2018. These seven methods contrasted frozen versus refrigerated sediment, bead-beating induced cell lysis versus ethylenediaminetetraacetic acid (EDTA) incubation, DNA binding in silica spin columns versus in silica-solution, diluted versus undiluted DNA in shotgun library preparations to test potential inhibition issues during amplification steps, and size-selection of low molecular-weight (LMW) DNA to increase the extraction efficiency of sedaDNA. Maximum efficiency was obtained from frozen sediments subjected to a combination of EDTA incubation and bead-beating, DNA binding in silica-solution, and undiluted DNA in shotgun libraries, across 45 marine eukaryotic taxa. We present an optimized extraction protocol integrating these steps, with an optional post-library LMW size-selection step to retain DNA fragments of ≤500 base pairs. We also describe a stringent bioinformatic filtering approach for metagenomic data and provide a comprehensive list of contaminants as a reference for future sedaDNA studies. The new extraction and data-processing protocol should improve quantitative paleo-monitoring of eukaryotes from marine sediments, as well as other studies relying on the detection of highly fragmented and degraded eukaryote DNA in sediments., (© 2020 John Wiley & Sons Ltd.)

Published

2020

46. Quantification of Protein Secretion from Circulating Tumor Cells in Microfluidic Chambers.

Author

Armbrecht L, Rutschmann O, Szczerba BM, Nikoloff J, Aceto N, and Dittrich PS

Abstract

Cancer cells can be released from a cancerous lesion and migrate into the circulatory system, from whereon they may form metastases at distant sites. Today, it is possible to infer cancer progression and treatment efficacy by determining the number of circulating tumor cells (CTCs) in the patient's blood at multiple time points; further valuable information about CTC phenotypes remains inaccessible. In this article, a microfluidic method for integrated capture, isolation, and analysis of membrane markers as well as quantification of proteins secreted by single CTCs and CTC clusters is introduced. CTCs are isolated from whole blood with extraordinary efficiencies above 95% using dedicated trapping structures that allow co-capture of functionalized magnetic beads to assess protein secretion. The patform is tested with multiple breast cancer cell lines spiked into human blood and mouse-model-derived CTCs. In addition to immunostaining, the secretion level of granulocyte growth stimulating factor (G-CSF), which is shown to be involved in neutrophil recruitment, is quantified The bead-based assay provides a limit of detection of 1.5 ng mL -1 or less than 3700 molecules per cell. Employing barcoded magnetic beads, this platform can be adapted for multiplexed analysis and can enable comprehensive functional CTC profiling in the future., Competing Interests: The authors declare no conflict of interest., (© 2020 The Authors. Published by WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2020

47. Single-cell protein profiling in microchambers with barcoded beads.

Author

Armbrecht L, Müller RS, Nikoloff J, and Dittrich PS

Abstract

Single-cell profiling provides insights into cellular behaviour that macroscale cell cultures and bulk measurements cannot reveal. In the context of personalized cancer treatment, the profiling of individual tumour cells may lead to higher success rates for therapies by rapidly selecting the most efficacious drugs. Currently, genomic analysis at the single-cell level is available through highly sensitive sequencing approaches. However, the identification and quantification of intracellular or secreted proteins or metabolites remains challenging. Here, we introduce a microfluidic method that facilitates capture, automated data acquisition and the multiplexed quantification of proteins from individual cells. The microfluidic platform comprises 1026 chambers with a volume of 152 pL each, in which single cells and barcoded beads are co-immobilized. We demonstrated multiplexed single-cell protein quantification with three different mammalian cell lines, including two model breast cancer cell lines. We established on-chip immunoassays for glyceraldehyde-3-phosphate dehydrogenase (GAPDH), galectin-3 (Gal-3) and galectin-3 binding protein (Gal-3bp) with detection limits as low as 7.0 × 10 4 , 2.3 × 10 5 and 1.8 × 10 3 molecules per cell, respectively. The three investigated cell types had high cytosolic levels of GAPDH and could be clearly differentiated by their expression levels of Gal-3 and Gal-3bp, which are important factors that contribute to cancer metastasis. Because it employed commercially available barcoded beads for this study, our platform could be easily used for the single-cell protein profiling of several hundred different targets. Moreover, this versatile method is applicable to the analysis of bacteria, yeast and mammalian cells and nanometre-sized lipid vesicles., Competing Interests: Conflict of interestThe authors declare that they have no conflict of interest., (© The Author(s) 2019.)

Published

2019

48. In silico design and optimization of selective membranolytic anticancer peptides.

Author

Gabernet G, Gautschi D, Müller AT, Neuhaus CS, Armbrecht L, Dittrich PS, Hiss JA, and Schneider G

Subjects

Algorithms, Antineoplastic Agents chemical synthesis, Antineoplastic Agents classification, Computer Simulation, Endothelial Cells drug effects, Humans, Machine Learning, Models, Molecular, Peptides chemical synthesis, Peptides classification, Structure-Activity Relationship, Antineoplastic Agents pharmacology, Cell Membrane drug effects, Neoplasms drug therapy, Peptides pharmacology

Abstract

Membranolytic anticancer peptides represent a potential strategy in the fight against cancer. However, our understanding of the underlying structure-activity relationships and the mechanisms driving their cell selectivity is still limited. We developed a computational approach as a step towards the rational design of potent and selective anticancer peptides. This machine learning model distinguishes between peptides with and without anticancer activity. This classifier was experimentally validated by synthesizing and testing a selection of 12 computationally generated peptides. In total, 83% of these predictions were correct. We then utilized an evolutionary molecular design algorithm to improve the peptide selectivity for cancer cells. This simulated molecular evolution process led to a five-fold selectivity increase with regard to human dermal microvascular endothelial cells and more than ten-fold improvement towards human erythrocytes. The results of the present study advocate for the applicability of machine learning models and evolutionary algorithms to design and optimize novel synthetic anticancer peptides with reduced hemolytic liability and increased cell-type selectivity.

Published

2019

49. A database of chlorophyll a in Australian waters.

Author

Davies CH, Ajani P, Armbrecht L, Atkins N, Baird ME, Beard J, Bonham P, Burford M, Clementson L, Coad P, Crawford C, Dela-Cruz J, Doblin MA, Edgar S, Eriksen R, Everett JD, Furnas M, Harrison DP, Hassler C, Henschke N, Hoenner X, Ingleton T, Jameson I, Keesing J, Leterme SC, James McLaughlin M, Miller M, Moffatt D, Moss A, Nayar S, Patten NL, Patten R, Pausina SA, Proctor R, Raes E, Robb M, Rothlisberg P, Saeck EA, Scanes P, Suthers IM, Swadling KM, Talbot S, Thompson P, Thomson PG, Uribe-Palomino J, van Ruth P, Waite AM, Wright S, and Richardson AJ

Subjects

Australia, Databases, Factual, Ecosystem, Phytoplankton, Seawater, Chlorophyll

Abstract

Chlorophyll a is the most commonly used indicator of phytoplankton biomass in the marine environment. It is relatively simple and cost effective to measure when compared to phytoplankton abundance and is thus routinely included in many surveys. Here we collate 173, 333 records of chlorophyll a collected since 1965 from Australian waters gathered from researchers on regular coastal monitoring surveys and ocean voyages into a single repository. This dataset includes the chlorophyll a values as measured from samples analysed using spectrophotometry, fluorometry and high performance liquid chromatography (HPLC). The Australian Chlorophyll a database is freely available through the Australian Ocean Data Network portal (https://portal.aodn.org.au/). These data can be used in isolation as an index of phytoplankton biomass or in combination with other data to provide insight into water quality, ecosystem state, and relationships with other trophic levels such as zooplankton or fish.

Published

2018

50. Does access to pasture affect claw condition and health in dairy cows?

Author

Armbrecht L, Lambertz C, Albers D, and Gauly M

Subjects

Animals, Cattle, Female, Germany epidemiology, Prevalence, Seasons, Cattle Diseases epidemiology, Foot Diseases veterinary, Hoof and Claw, Poaceae

Abstract

The aim of this study was to examine effects of pasturing in dairy cows on claw condition (claw length, hardness) and on the prevalence of claw diseases. At claw trimming, a total of 240 Holstein-Friesian or Red-Holstein cows from 20 German farms were examined twice, at the end of the pasture and barn season. Each individual claw was trimmed at both assessments. Farms were classified based on animals' pasture access during pasture season into: group 1 (G1) >10 hours pasture access per day, group 2 (G2) 6-10 hours, group 3 (G3) <6 hours and group 4 (G4) without pasture access. Greater values for hardness were associated with lower scores (=prevalence×severity level) of sole ulcers, white line disease, sole haemorrhage, heel horn erosion and interdigital hyperplasia. In pasture groups, heel horn erosion showed lower frequencies in summer compared with winter, while it was vice versa in G4. In G1 and G3, lower frequencies of white line disease were found in summer compared with winter. Overall, pasture access had positive effects in particular for claw diseases that are related to moist environments. Nevertheless, appropriate free-stall design and claw trimming routine might have a greater influence., Competing Interests: Competing interests: None declared., (© British Veterinary Association (unless otherwise stated in the text of the article) 2017. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2018