Degassing Rhythms and Fluctuations of Geogenic Gases in A Red Wood-Ant Nest and in Soil in The Neuwied Basin (East Eifel Volcanic Field, Germany)

Gabriele M. Berberich; Martin B. Berberich; Aaron M. Ellison; Christian Wöhler

doi:10.3390/insects9040135

Degassing Rhythms and Fluctuations of Geogenic Gases in A Red Wood-Ant Nest and in Soil in The Neuwied Basin (East Eifel Volcanic Field, Germany)

Insects ◽

10.3390/insects9040135 ◽

2018 ◽

Vol 9 (4) ◽

pp. 135 ◽

Cited By ~ 2

Author(s):

Gabriele M. Berberich ◽

Martin B. Berberich ◽

Aaron M. Ellison ◽

Christian Wöhler

Keyword(s):

Coupled System ◽

Ambient Air ◽

Biological Indicators ◽

Volcanic Field ◽

Geochemical Data ◽

Geochemical Tracers ◽

Formica Polyctena ◽

Infradian Rhythms ◽

Ant Nest ◽

Buried Fault

Geochemical tracers of crustal fluids (CO2, He, Rn) provide a useful tool for the identification of buried fault structures. We acquired geochemical data during 7-months of continual sampling to identify causal processes underlying correlations between ambient air and degassing patterns of three gases (CO2, He, Rn) in a nest of red wood ants (Formica polyctena; “RWA”) and the soil at Goloring in the Neuwied Basin, a part of the East Eifel Volcanic Field (EEVF). We explored whether temporal relations and degassing rhythms in soil and nest gas concentrations could be indicators of hidden faults through which the gases migrate to the surface from depth. In nest gas, the coupled system of CO2-He and He concentrations exceeding atmospheric standards 2-3 fold suggested that RWA nests may be biological indicators of hidden degassing faults and fractures at small scales. Equivalently periodic degassing infradian rhythms in the RWA nest, soil, and three nearby minerals springs suggested NW-SE and NE-SW tectonic linkages. Because volcanic activity in the EEVF is dormant, more detailed information on the EEVF’s tectonic, magmatic, and degassing systems and its active tectonic fault zones are needed. Such data could provide additional insights into earthquake processes that are related to magmatic processes at the lower crust.

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Can a red wood-ant nest be a trap for fault-related CH4 micro-seepage? A case study from continuous short-term in-situ sampling

10.1101/154245 ◽

2017 ◽

Author(s):

G.M. Berberich ◽

A.M. Ellison ◽

M.B. Berberich ◽

A. Grumpe ◽

A. Becker ◽

...

Keyword(s):

Activity Patterns ◽

Stable Carbon Isotope ◽

Ambient Air ◽

Volcanic Field ◽

Earth Tides ◽

Microbial Decomposition ◽

Formica Polyctena ◽

Natural Gas Reservoirs ◽

Red Wood Ant

AbstractMethane (CH4) is common on Earth, forms the major commercial natural gas reservoirs, and is a key component of the global carbon cycle, but its natural sources are not well-characterized. We present a geochemical dataset acquired from a red wood-ant (RWA; Formica polyctena) nest in the Neuwied Basin, a part of the East Eifel Volcanic Field (EEVF), focusing on methane (CH4), stable carbon isotope of methane (δ13C-CH4), RWA activity patterns, earthquakes, and earth tides. Nest gas and ambient air were continuously sampled in-situ and analyzed to detect microbial, thermogenic, and abiotic fault-related micro-seepage. Methane degassing was not synchronized with earth tides. Elevated CH4 concentrations in nest gas appear to result from a combination of microbial activity and fault-related emissions moving via through fault networks through the RWA nest. Two δ13C-CH4 signatures were identified in nest gas: −69‰ and −37‰. The −69‰ signature of δ13C-CH4 within the RWA nest is attributed to microbial decomposition of organic matter. This finding supports previous findings that RWA nests are hot-spots of microbial CH4. Additionally, the −37% δ13C-CH4 signature is the first evidence that RWA nests also serve as traps for fault-related emissions of CH4. The −37‰ δ13C-CH4 signature can be attributed either to thermogenic/fault-related or to abiotic/fault-related CH4 formation originating from e.g. low-temperature gas-water-rock reactions in a continental setting at shallow depths (microseepage). Sources of these micro-seeps could be Devonian schists (“Sphaerosiderith Schiefer”) with iron concretions (“Eisengallen”), sandstones, or the iron-bearing “Klerf Schichten”. We cannot exclude overlapping micro-seepage of magmatic CH4 from the Eifel plume. Given the abundance of RWA nests on the landscape, their role as sources of microbial CH4 and traps for abiotically-derived CH4 should be included in estimation of methane emissions that are contributing to climatic change.

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Spatial Visualization of Geochemical Data: Application to the Chichinautzin Volcanic Field, Mexico

10.5772/intechopen.93798 ◽

2020 ◽

Author(s):

Philippe Robidoux ◽

Julie Roberge ◽

César Adams

Keyword(s):

Spatial Visualization ◽

Volcanic Field ◽

Geological Mapping ◽

Geochemical Data ◽

Geochemical Mapping ◽

Mapping Model ◽

Data Application ◽

Spatial Analyst ◽

Geochemical Markers ◽

Nevado De Toluca

The presence of spatial magma heterogeneities in volcanic monogenetic fields is a major observation discussed as well synthesized for worldwide volcanic fields. Magma heterogeneities still have not been visualized in the form of detailed spatial analyst tools, which could further help structuring works of geological mapping, volcanic hazard, and geoheritage evaluations. Here we synthetized 32 published datasets with a novel geochemical mapping model inspired by sub-disciplines of geomatic in one of the most documented monogenetic fields on earth: the Chichinautzin Volcanic Field (CVF) in Mexico. The volcanic units from CVF are covering the 2500 km2 area, and its neighbor stratovolcanoes are bordering the limit of most volcanic centers (Popocatepetl, Iztaccihuatl, and Nevado de Toluca). The results illustrate polygons and point map symbols from geochemical markers such as Alkalis vs SiO2, Sr/Y, and Ba/Nb. The geochemical heterogeneity of the CVF monogenetic bodies decreases as it approaches the Popocatepetl-Iztaccihuatl stratovolcanoes. This alignment is not observed in the occidental CVF portion near the flank of Nevado de Toluca, but geochemical anomalies associated to markers of continental crust interaction such as Sr/Y follow elongated patterns that are not strictly following structural lines and faults mapped on surface.

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Geochemical data for mineralized rocks in the Lake City area, San Juan Volcanic Field, southwest Colorado

Open-File Report ◽

10.3133/ofr8754 ◽

1987 ◽

Cited By ~ 1

Author(s):

R.F. Sanford ◽

S.L. Korzeb ◽

J.L. Seeley ◽

J.A. Zamudio

Keyword(s):

Volcanic Field ◽

Geochemical Data ◽

San Juan ◽

City Area ◽

Lake City

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Sr, Nd and Pb isotope and geochemical data from the Quaternary Nevado de Toluca volcano, a source of recent adakitic magmatism, and the Tenango Volcanic Field, Mexico

Journal of Volcanology and Geothermal Research ◽

10.1016/j.jvolgeores.2004.06.007 ◽

2004 ◽

Vol 138 (1-2) ◽

pp. 77-110 ◽

Cited By ~ 38

Author(s):

Raymundo G. Martínez-Serrano ◽

Peter Schaaf ◽

Gabriela Solís-Pichardo ◽

Ma. del Sol Hernández-Bernal ◽

Teodoro Hernández-Treviño ◽

...

Keyword(s):

Volcanic Field ◽

Geochemical Data ◽

Pb Isotope ◽

Nevado De Toluca

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Development of a Rapid Survey Method of Sampling and Analysis for Asbestos in Ambient Air

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100096400 ◽

1972 ◽

Vol 30 ◽

pp. 630-631 ◽

Cited By ~ 2

Author(s):

R. E. Heffelfinger ◽

C. W. Melton ◽

D. L. Kiefer ◽

W. M. Henry ◽

R. J. Thompson

Keyword(s):

Neutron Activation ◽

Ambient Air ◽

Survey Method ◽

Potential Hazard ◽

Transmission Microscopy ◽

Comparative Analyses ◽

Asbestos Fibers ◽

Controlled Conditions ◽

Unequivocal Identification ◽

Identification And Quantification

A methodology has been developed and demonstrated which is capable of determining total amounts of asbestos fibers and fibrils in air ranging from as low as fractional nanograms per cubic meter (ng/m3) of air to several micrograms/m3. The method involves the collection of samples on an absolute filter and provides an unequivocal identification and quantification of the total asbestos contents including fibrils in the collected samples.The developed method depends on the trituration under controlled conditions to reduce the fibers to fibrils, separation of the asbestos fibrils from other collected air particulates (beneficiation), and the use of transmission microscopy for identification and quantification. Its validity has been tested by comparative analyses by neutron activation techniques. It can supply the data needed to set emissions criteria and to serve as a basis for assessing the potential hazard for asbestos pollution to the populace.

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Application of Electron Optics to Characterization of Particulate Pollutants

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010009508x ◽

1972 ◽

Vol 30 ◽

pp. 364-365

Author(s):

J. B. Moran ◽

J. L. Miller

Keyword(s):

Air Quality ◽

Quality Standards ◽

Ambient Air ◽

Hazardous Substances ◽

Fuel Additives ◽

Ambient Air Quality ◽

Air Quality Standards ◽

Emission Standards ◽

Stationary Sources ◽

Ambient Air Quality Standards

The Clean Air Act Amendments of 1970 provide the basis for a dramatic change in Federal air quality programs. The Act establishes new standards for motor vehicles and requires EPA to establish national ambient air quality standards, standards of performance for new stationary sources of pollution, and standards for stationary sources emitting hazardous substances. Further, it establishes procedures which allow states to set emission standards for existing sources in order to achieve national ambient air quality standards. The Act also permits the Administrator of EPA to register fuels and fuel additives and to regulate the use of motor vehicle fuels or fuel additives which pose a hazard to public health or welfare.National air quality standards for particulate matter have been established. Asbestos, mercury, and beryllium have been designated as hazardous air pollutants for which Federal emission standards have been proposed.

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Electron Microscopic Characterization and Quantitation of Air Borne Particulate Matter with Special Emphasis on Asbestos

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100095042 ◽

1972 ◽

Vol 30 ◽

pp. 356-357

Author(s):

Peter K. Mueller ◽

Glenn R. Smith ◽

Leslie M Carpenter ◽

Ronald L. Stanley

Keyword(s):

Electron Microscopy ◽

Light And Electron Microscopy ◽

Ambient Air ◽

Quality Standard ◽

Primary Objective ◽

Cellulose Ester ◽

Main Concept ◽

Electron Microscopic ◽

Air Samples ◽

Diffraction Patterns

At the present time the primary objective of the electron microscopy group of the Air and Industrial Hygiene Laboratory is the development of a method suitable for use in establishing an air quality standard for asbestos in ambient air and for use in its surveillance. The main concept and thrust of our approach for the development of this method is to obtain a true picture of fiber occurrence as a function of particle size and asbestos type utilizing light and electron microscopy.We have now available an electron micrographic atlas of all asbestos types including selected area diffraction patterns and examples of fibers isolated from air samples. Several alternative approaches for measuring asbestos in ambient air have been developed and/or evaluated. Our experiences in this regard will be described. The most promising method involves: 1) taking air samples on cellulose ester membrane filters with a nominal pore size of 0.8 micron; 2) ashing in a low temperature oxygen plasma for several hours;

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