A Capital Breeder in a Heterogeneous Environment: Lipid Reserves and RNA:DNA Ratio in Lake Baikal's Endemic Epischura

Bowman, Larry L., Kondrateva, Elizaveta S., Silow, Eugene A., Wilburn, Paul, Yampolsky, Lev Y.

01 April 2017

Lake Baikal (Siberia, Russia) is the oldest, the deepest and the most voluminous lake on Earth. During the last century, Baikal has experienced gradual increases in temperature but remains highly oligotrophic with increases in primary productivity limited to the warmest parts of the lake. Using whole body RNA:DNA ratio as an indicator of metabolic rate, we demonstrate that the key primary consumer in Baikal's plankton, Epischura baikalensis (Copepoda: Calanoida), is a capital breeder that relies on lipid storage to maintain productivity. In individuals from nature, the RNA:DNA ratio correlated with lipid content in samples from cold, low phytoplankton density locations from Baikal's North and Central basins, but not in samples from warmer South basin and Maloe More strait. Lipid reserves, both visually assessed and measured by Nile Red fluorescence, correlated positively with phytoplankton density. In laboratory experiments the RNA:DNA ratio responded to starvation and temperature in non-reproducing, low lipid storage females, but not in individuals with developed ovaries or high lipid storage. This indicates that, unlike many other zooplankton crustaceans, E. baikalensis uses resource storage to support current reproduction, which buffers the dependency of metabolic rate on current feeding conditions. We discuss possible effects of such buffering on E. baikalensis competition with non-endemic, largely income-feeding zooplankton species whose frequency is currently increasing in Baikal pelagia.

Baikal

capital breeding

epischura

life history

lipids

RNA:DNA ratio

zooplankton

Biological Sciences

Late Cenozoic Geoarchives from Lake Baikal, Siberia

Sapota, Tomasz

January 2004

<p>Three long sediment cores (BDP-98 – 600 m, BDP-96 – 200 m and BDP-93 – 100 m) drilled in Lake Baikal (Siberia) have been studied with the aims of establishing an absolute chronology and reconstructing paleoclimatic and paleoenvironmental changes in the region. The location of the lake at relatively high latitude and continental interior and a thick continuous sedimentary archive that developed in a rift system tectonic setting provide unique material for this investigation. The cosmogenic isotope ¹⁰Be was used for dating and the results indicate time spans of 8 (+0.8\-0.6) Myr for BDP-98, 5.5 (±0.13) Myr for BDP-96 and >0.7 Myr for BDP-93. Two major sedimentary facies (deltaic and hemipelagic) are distinguished by textural geochemical and mineralogical data. Detrital mineral composition suggests negligible change in provenance during the period studied. Formation of authigenic minerals, such as framboidal pyrite, vivianite and siderite, reflects variable environmental conditions in the lake and climate change in the region. Biogenic silica content shows climatic influence, which is modified by the supply of detrital material and postdepositional alterations. ¹⁰Be dating, combined with lithological analysis of the sediments, makes it possible to place temporal constrains on climate cooling at the Miocene/Pliocene boundary (5 Myr ago) and at the Early/Late Pliocene boundary (3.6 Myr ago) as well as the beginning of the northern hemisphere glaciation at about 2.5–2.6 Myr ago. The regional east-west tectonic extension of south-east Asia, related to Tibetan Plateau uplift, was confined in the Baikal area to between about 7 and 5 Myr ago, with a rifting rate calculated at 7 mm year^-1. Furthermore, the ¹⁰Be data suggest that geomagnetic field intensity strengthened around the Miocene/Pliocene boundary.</p>

Quaternary geology

Lake Baikal

Be-10 isotope

chronology

paleoclimate

tectonics

geomagnetic field

cosmic rays

Kvartärgeologi

Quaternary geology

Kvartärgeologi

Late Cenozoic Geoarchives from Lake Baikal, Siberia

Sapota, Tomasz

January 2004

Three long sediment cores (BDP-98 – 600 m, BDP-96 – 200 m and BDP-93 – 100 m) drilled in Lake Baikal (Siberia) have been studied with the aims of establishing an absolute chronology and reconstructing paleoclimatic and paleoenvironmental changes in the region. The location of the lake at relatively high latitude and continental interior and a thick continuous sedimentary archive that developed in a rift system tectonic setting provide unique material for this investigation. The cosmogenic isotope 10Be was used for dating and the results indicate time spans of 8 (+0.8\-0.6) Myr for BDP-98, 5.5 (±0.13) Myr for BDP-96 and &gt;0.7 Myr for BDP-93. Two major sedimentary facies (deltaic and hemipelagic) are distinguished by textural geochemical and mineralogical data. Detrital mineral composition suggests negligible change in provenance during the period studied. Formation of authigenic minerals, such as framboidal pyrite, vivianite and siderite, reflects variable environmental conditions in the lake and climate change in the region. Biogenic silica content shows climatic influence, which is modified by the supply of detrital material and postdepositional alterations. 10Be dating, combined with lithological analysis of the sediments, makes it possible to place temporal constrains on climate cooling at the Miocene/Pliocene boundary (5 Myr ago) and at the Early/Late Pliocene boundary (3.6 Myr ago) as well as the beginning of the northern hemisphere glaciation at about 2.5–2.6 Myr ago. The regional east-west tectonic extension of south-east Asia, related to Tibetan Plateau uplift, was confined in the Baikal area to between about 7 and 5 Myr ago, with a rifting rate calculated at 7 mm year-1. Furthermore, the 10Be data suggest that geomagnetic field intensity strengthened around the Miocene/Pliocene boundary.

Quaternary geology

Lake Baikal

Be-10 isotope

chronology

paleoclimate

tectonics

geomagnetic field

cosmic rays

Kvartärgeologi

Quaternary geology

Kvartärgeologi

Tectonic evolution of continental rifts. Inference from numerical modelling and fission track thermochronology

van der Beek, Pieter

24 May 1995

pas de résumé

apatite fission track thermochronology

Baikal rift

post-rift margin

Norway

Oslo graben

tectonic uplift

examples

FORMATION PROCESS OF STRUCTURE I AND II GAS HYDRATES DISCOVERED IN KUKUY, LAKE BAIKAL

Hachikubo, Akihiro, Sakagami, Hirotoshi, Minami, Hirotsugu, Nunokawa, Yutaka, Yamashita, Satoshi, Takahashi, Nobuo, Shoji, Hitoshi, Kida, Masato, Krylov, Alexey, Khlystov, Oleg, Zemskaya, Tamara, Manakov, Andrey, Kalmychkov, Gennadiy, Poort, Jeffrey

07 1900

Structure I and II gas hydrates were observed in the same sediment cores of a mud volcano in the Kukuy Canyon, Lake Baikal. The sII gas hydrate contained about 13-15% of ethane, whereas the sI gas hydrate contained about 1-5% of ethane and placed beneath the sII gas hydrate. We measured isotopic composition of dissociation gas from both type gas hydrates and dissolved gas in pore water. We found that ethane δD of sI gas hydrate (from -196 to -211 ‰) was larger than that of sII (from -215 to -220 ‰), whereas methane δ13C, methane δD and ethane δD in both hydrate structures were almost the same. δ13C of methane and ethane in gas hydrate seemed several permil smaller than those in pore water. These results support the following idea that the current gas in pore water is not the source of these gas hydrates of both structures. Isotopic data also provide useful information how the “double structure” gas hydrates formed.

gas hydrate

stable isotope

Lake Baikal

crystal structure

isotopic fractionation

ICGH 2008

Recent and fossil phytoplankton pigments in Lake Baikal as markers for community structure and environmental changes

Fietz, Susanne

04 July 2005

Der Baikalsee ist der älteste, tiefste und größte (gemessen am Volumen) See der Welt, mit über 1500 endemischen Arten. Er wurde 1996 zum UNESCO Weltnaturerbe deklariert; doch auch dieses einzigartige Ökosystem könnte in Zukunft durch anthropogen bedingte Klimaänderungen und Nährstoff-Einträge gefährdet sein. Rezente und fossile Phytoplankton-Pigmente werden immer häufiger in Monitorings genutzt, um aktuelle und historische Änderungen der Phytoplankton-Produktivität und –Zusammensetzung zu bestimmen, welche Änderungen von klimatischen und anderen Umweltbedingungen anzeigen. Dennoch wurden im Baikal bislang keine rezenten und nur in wenigen Studien fossile Phytoplankton-Pigmente untersucht. Drei Hauptaspekte wurden in dieser Arbeit untersucht: (1) die Phytoplnkton und Phytoplankton-Pigment Verteilung in der euphotischen Zone, (2) deren Sedimentation zum Seeboden und Degradierung im oxischen Oberflächensediment, und (3) Änderung der fossilen Pigmente während des Holozäns (seit 10.000 Jahren) und der vorangegangenen Warmzeit (vor 129.000-117.000 Jahren). Schlussfolgernd läßt sich sagen, dass Pigment-basierte Analysen im Baikal verlässliche Aussagen über rezente und historische Phytoplankton-Variationen ermöglichen, welche durch Umwelteinflüsse (natürlichen oder menschlichen Ursprungs) induziert werden. Im Rahmen des EU-Projekts CONTINENT und des Langzeit-Monitorings der Staatlichen Universität Irkutsk werden die Ergebnisse zur Phytoplankton-Entwicklung seit der letzten Warmzeit bis zum Beginn des 21. Jahrhunderts den lokalen Naturschutz und globale Klimastudien unterstützen. / Lake Baikal is the World´s oldest, deepest and largest (by volume) lake and contains over 1,500 endemic species. Since 1996, after becoming a UNESCO World Heritage Area, the effects of global warming and local anthropogenic eutrophication on its unique ecosystem become a subject of international discussion. Recent and fossil phytoplankton pigments are being increasingly used to monitor recent and past responses of the phytoplankton composition and productivity to changes of climatic and other environmental conditions in aquatic systems. However, phytoplankton pigments were not yet investigated in the water column of Lake Baikal and only little in its sediment. Three main aspects were investigated in this thesis: (1) the distribution of phytoplankton and phytoplankton pigments in the euphotic zone, (2) its sedimentation through the water column and preservation within the oxidised surface sediment, and (3) variation of fossil phytoplankton pigments in the pristine lake during Holocene (since 10,000 years ago) and last interglacial (129,000-117,000 years ago). Taken together, pigment-based analyses were shown to accurately reflect phytoplankton variation caused by environmental changes of natural or human origin in Lake Baikal. In conjunction with the EU project CONTINENT and the long-term monitoring in Irkutsk, the phytoplankton development determined from the last interglacial up until the early 21st century will be used for future research of climate changes as well as for the Lake Baikal’s protection.

HPLC

Baikalsee

Phytoplankton

Photosynthetische Pigmente

HPLC

Lake Baikal

Phytoplankton

Photosynthetic Pigments

570 Biowissenschaften, Biologie

32 Biologie

WK 1600

AR 12450

WI 4745

ddc:570

Analysis of a lithic assemblage from the multi-component habitation site Gorelyi Les, Siberia

Kurzybov, Petr

06 1900

The research presented in this thesis examines a lithic assemblage from the multi-component habitation site Gorelyi Les in the Belaia river valley, Cis-Baikal region, Siberia. The distinctive traits of this collection are the relatively small size of the lithic assemblage and the large proportion of debitage. The chosen methodological framework for this research concentrates on obtaining maximum information from the available materials through application of typological, technological, use-wear, and spatial analyses. The results suggest that there were differences in the organization of the technological process of lithic tool manufacture during the Early Neolithic and Late Neolithic. During the Early Neolithic, lithic tool manufacture and use were rather intensive and diversified, while during the Late Neolithic, tool manufacture and use were limited to a narrower range of technological operations and functions.

lithic analysis

debitage

use-wear analysis

Neolithic

Cis-Baikal

Siberia

habitation site

lithic technology

hunter-gatherers

small size lithic assemblage

stone tools functions

Qualitative and quantitative analyses of Lake Baikal's surface-waters using ocean colour satellite data (SeaWiFS)

Heim, Birgit

January 2005

One of the most difficult issues when dealing with optical water remote-sensing is its acceptance as a useful application for environmental research. This problem is, on the one hand, concerned with the optical complexity and variability of the investigated natural media, and therefore the question arises as to the plausibility of the parameters derived from remote-sensing techniques. Detailed knowledge about the regional bio- and chemico-optical properties is required for such studies, however such information is seldom available for the sites of interest. On the other hand, the primary advantage of remote-sensing information, which is the provision of a spatial overview, may not be exploited fully by the disciplines that would benefit most from such information. It is often seen in a variety of disciplines that scientists have been primarily trained to look at discrete data sets, and therefore have no experience of incorporating information dealing with spatial heterogeneity. <br><br> In this thesis, the opportunity was made available to assess the potential of Ocean Colour data to provide spatial and seasonal information about the surface waters of Lake Baikal (Siberia). While discrete limnological field data is available, the spatial extension of Lake Baikal is enormous (ca. 600 km), while the field data are limited to selected sites and expedition time windows. Therefore, this remote-sensing investigation aimed to support a multi-disciplinary limnological investigation within the framework of the paleoclimate EU-project ‘High Resolution CONTINENTal Paleoclimate Record in Lake Baikal, Siberia (CONTINENT)’ using spatial and seasonal information from the SeaWiFS satellite (NASA). From this, the SeaWiFS study evolved to become the first efficient bio-optical satellite study of Lake Baikal. <br><br> During the course of three years, field work including spectral field measurements and water sampling, was carried out at Lake Baikal in Southern Siberia, and at the Mecklenburg and Brandenburg lake districts in Germany. The first step in processing the SeaWiFS satellite data involved adapting the SeaDAS (NASA) atmospheric-correction processing to match as close as possible the specific conditions of Lake Baikal. Next, various Chl-<i>a</i> algorithms were tested on the atmospherically-corrected optimized SeaWiFS data set (years 2001 to 2002), comparing the CONTINENT pigment ground-truth data with the Chl-<i>a</i> concentrations derived from the satellite data. This showed the high performance of the global Chl-<i>a</i> products OC2 and OC4 for the oligotrophic, transparent waters (bio-optical Case 1) of Lake Baikal. However, considerable Chl-<i>a</i> overestimation prevailed in bio-optical Case 2 areas for the case of discharge events. High-organic terrigenous input into Lake Baikal could be traced and information extracted using the SeaWiFS spectral data. Suspended Particulate Matter (SPM) was quantified by the regression of the SeaDAS attenuation coefficient as the optical parameter with SPM field data. <br><br> Finally, the Chl-<i>a</i> and terrigenous input maps derived from the remote sensing data were used to assist with analyzing the relationships between the various discrete data obtained during the CONTINENT field work. Hence, plausible spatial and seasonal information describing autochthonous and allochthonous material in Lake Baikal could be provided by satellite data.<br>Lake Baikal, with its bio-optical complexity and its different areas of Case 1 and Case 2 waters, is a very interesting case study for Ocean Colour analyses. Proposals for future Ocean Colour studies of Lake Baikal are discussed, including which bio-optical parameters for analytical models still need to be clarified by field investigations. / Die Gewässerfernerkundung entwickelte sich seit den 70ern vor allem aus der Ozeanographie und der Atmosphärenforschung, und wird inzwischen als anerkannte Methode genutzt, um global die Phytoplanktonverteilung in den Weltmeeren erfassen zu können, u.a. für CO₂-Haushaltsmodellierungen. Atmosphärenkorrigierte Multi- und Hyperspektralscannerdaten ermöglichen die Qualifizierung bio-optischer Gewässertypen und die Quantifizierung optisch sichtbarer Wasserinhaltsstoffe und bieten gerade auch für dynamische und heterogene Küsten- und Binnengewässer das große Potential des räumlichen Informationsgewinnes.<br>Im Rahmen des Paläoklimaprojektes CONTINENT wurde in dieser Arbeit das Oberflächenwasser des Baikalsees mit Gewässerfernerkungsmethoden analysiert. Wichtig für die Interpretation von Klima-Proxies sind v.a. auch Hinweise auf die Verteilung des autochthonen Materials im Baikalsee (Fernerkundungsparameter: Chlorophyll-<i>a</i>), ebenso wie Hinweise auf allochthone Einträge an den Bohrungsstellen (Fernerkundungsparameter ‚Terrigener Eintrag’). Auf den Geländekampagnen in den Sommern 2001, 2002, 2003 in Sibirien und in Deutschland wurden Feldspektrometermessungen mit gleichzeitiger Wasserprobenahme auf die optisch sichtbaren Wasserinhaltsstoffe Phytoplankton, Schwebstoff, und DOC durchgeführt. Dabei konnten Messtechniken für Geländespektrometer evaluiert, und grundlegende Aussagen über die spektrale Verteilung des In-Wasser Lichtfeldes im Baikalsee gemacht werden. <br><br> Die Ocean Colour Satellitendaten des NASA-Instrumentes SeaWiFS und die Möglichkeiten der komplexen NASA Software SeaDAS wurden genutzt. Für die Ableitung des am Baikalsee anzutreffenden organikreichen terrigenen Eintrages, wurde ein vorläufiger Algorithmus aus den Geländedaten generiert. Verschiedene Algorithmen für den Parameter ‚Chlorophyll-<i>a</i>’ wurden mit dem Geländedatensatz der Projektpartnerin S. Fietz (Institut für Gewässerökologie und Binnenfischerei, IGB) evaluiert. Als geeignetester etablierte sich der auf oligotrophe Gewässer optimierte NASA Chlorophyll Algorithmus ‚Ocean Colour (OC) 2’. Die Quantifizierungen und Ergebnisse werden diskutiert. <br><br> Als Endergebnis wird der Überblick über Sedimenteintrag und Phytoplanktondynamik im Baikalsee für den Zeitraum 2001-2002 zur Verfügung gestellt und die autochthonen versus allochthonen Einflüsse an den Projektlokationen werden beschrieben. Der Baikalsee erwies sich als bio-optisch ein sehr komplexes und interessantes Studienobjekt. Ein wichtiger Punkt, der in dieser Arbeit angesprochen wird, ist die Atmosphärenkorrektur, die wesentliche Einflüsse auf die Qualifizierungen und Quantifizierungen hat, aber als Standardprogramm nur für den pelagialen Wasserkörper in Meeresspiegelhöhe mit marinen, bzw. Küstenatmosphären konditioniert ist. Ein weiterer bedeutender Punkt, der in dieser Arbeit diskutiert wird, ist der relevante spektrale Einfluss des organikreichen terrigenen Eintrages auf die Gewässerfarbe und dadurch auf die Qualität der Chlorophyll-Ableitung. Somit boten sich die Möglichkeiten, das räumliche Ausmaß und die Dynamik rezenter terrigener Einträge zu erfassen. Auch die Entwicklung des Phytoplankton von Frühsommer bis Spätsommer im Baikalsee konnte mit den SeaWiFS Daten nachvollzogen werden. Die hier vorgestellte Studie stellte sich als die erste grundlegende optische Gewässerfernerkundungsstudie mit Satellitendaten am Baikalsee heraus, und konnte erfolgreich abgeschlossen werden.

Baikalsee

Optische Fernerkundung

Phytoplankton

Sedimenttransport

Palaeoklima

SeaWiFS Ocean-Colour Satellitendaten

autochthon

allochthon

Gewässerfernerkundung

Lake Baikal

Ocean Colour satellite data

terrigenous input

phytoplankton distribution

Earth sciences

Dental Calculus: Combining Current Methods in the Study of Diet and Mouth Use Activities Among Neolithic and Early Bronze Age Hunter-Gatherers of the Cis-Baikal, Siberia

2015 June 1900

The utility of dental calculus as a proxy for diet and mouth use is explored for the Middle Holocene Cis-Baikal region of Central Siberia based on two methods: a macroscopic analysis of severity and a microscopic analysis of particles within deposits. The study area was inhabited by two culturally and biologically distinct cultures, the Early Neolithic (EN) Kitoi culture (8,000 to 7,000/6,800 cal B.P.) and the Late Neolithic-Early Bronze Age (LN-EBA) Isakovo-Serovo-Glaskovo (ISG) cultural complex (6,000/5,800 to 4,000 cal B.P.), separated by a period of cultural transition marked by a cessation in formal cemetery use. Data were collected from four cemetery sites, two dating to the EN and two dating to the LN-EBA. Nonparametric testing of calculus severity revealed that, for adult males and juveniles, lakeshore populations displayed greater affinity to each other than to their contemporaneous cultural counterpart populations living along riverine systems in the Angara River Valley. Trends within the EN cemetery Shamanka II contrasted to the other cemetery populations, with noticeably larger deposits in anterior quadrants and significant sexual distinctions. The proportion of protein to carbohydrates consumed is known to influence calculus formation, but both cultural groups lived on a diet based predominately on meat sources so dietary ratios alone do not adequately explain the differences distinguished. A complex multifactorial model involving microregional differences in resources/environment, foraging patterns, individual variation, and dental wear patterns provides at least a partial explanation for the results observed. A wide range of particles were recovered during the microscopic analysis of calculus, albeit in low concentrations. The low starch grain counts were consistent with a diet based predominately on meats but still provide some of the first direct evidence for plant consumption in the Cis-Baikal, including possible plant processing by cooking or grinding based on damage evident on the grains. Other particles recovered may provide evidence of mouth use activities or palaeoenvironmental influences. Together, the two components of this analysis offer strong evidence that dental calculus is a useful tool for reconstructing hunter-gatherer lifeways but also highlight the limitations of conducting this type of research on previously excavated and potentially contaminated material.

Cis-Baikal

Dental calculus

diet

mouth use

microscopic analysis of plant particles

starch grains

phytoliths

hunter-gatherers

Analysis of a lithic assemblage from the multi-component habitation site Gorelyi Les, Siberia

Kurzybov, Petr

Unknown Date

No description available.

lithic analysis

debitage

use-wear analysis

Neolithic

Cis-Baikal

Siberia

habitation site

lithic technology

hunter-gatherers

small size lithic assemblage

stone tools functions