Your search keyword '"John M. McArthur"' showing total 9 results

1. Identifying multiple deep aquifers in the Bengal Basin: Implications for resource management

Author

Peter Ravenscroft, John M. McArthur, and Muhammad Saifur Rahman

Subjects

geography, geography.geographical_feature_category, 0208 environmental biotechnology, BENGAL, Resource management, Aquifer, 02 engineering and technology, Structural basin, Water resource management, Geology, 020801 environmental engineering, Water Science and Technology

Published

2018

2. Arsenic and other water-quality issues affecting groundwater, Indus alluvial plain, Pakistan

Author

John M. McArthur and Sadaf Naseem

Subjects

Hydrology, Irrigation, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Aquifer, Groundwater recharge, 010501 environmental sciences, 01 natural sciences, Anoxic waters, Alluvial plain, Evapotranspiration, Environmental science, Water quality, Groundwater, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Groundwater beneath the alluvial plain of the Indus River, Pakistan, is reported to be widely polluted by arsenic (As) and to adversely affect human health. In 79 groundwaters reported here from the lower Indus River plain, in southern Sindh Province, concentrations of As exceeded the WHO guideline value of 10 g/L in 38%, with 22% exceeding 50 g/L, Pakistan’s guideline value. The As pollution is caused by microbially-mediated reductive dissolution of sedimentary iron-oxyhydroxides in anoxic groundwaters; oxic groundwaters contain < 10 g/L of As. In the upper Indus River plain, in Punjab Province, localised As pollution of groundwater occurs by alkali desorption as a consequence of ion-exchange in groundwater, possibly supplemented by the use for irrigation of groundwater that has suffered ion-exchange in the aquifer and so has values > 0 for residual sodium carbonate. In the field area in southern Sindh, concentrations of Mn in groundwater exceed 0.4 mg/L in 11% of groundwaters, with a maximum of 0.7 mg/L, as a result of reduction of sedimentary manganese oxides. Other trace elements pose little or no threat to human health. Salinities in groundwaters range from fresh to saline (EC up to 6 mS/cm). High salinities result from local inputs of waste-water from unsewered sanitation, but mainly from evaporation/evapotranspiration of canal water and groundwater used for irrigation. The process does not concentrate As in the groundwater owing to sorption of As to soils. Ion-exchange exerts a control on concentrations of Na, Ca, and B, but not on As. High values of Cl/Br mass ratios (most » 288, the marine value) reflect the pervasive influence on groundwater of sewage-contaminated water from irrigation canals through seepage loss and deep percolation of irrigation water, with additional, well-specific, contributions from unsewered sanitation.

Published

2018

3. STRONTIUM ISOTOPE DATING OF SPICULITIC PERMIAN STRATA FROM SPITSBERGEN OUTCROPS AND BARENTS SEA WELL-CORES

Author

John M. McArthur, Stephen N. Ehrenberg, and Matthew F. Thirlwall

Subjects

Paleontology, Fuel Technology, Permian, Stratigraphy, Outcrop, Range (biology), Earth and Planetary Sciences (miscellaneous), Energy Engineering and Power Technology, Petroleum exploration, Geology, Isotopes of strontium, Chronology

Abstract

Eight samples of brachiopod shell material have been analyzed for their strontium isotope composition in order to more accurately date Lower to Upper Permian siliceous biogenic strata of Spitsbergen (Kapp Starostin Formation) and the southern Barents Sea (Roye Formation). The results are interpreted as showing a mid-Artinskian age for the basal Voringen Member of the Kapp Starostin Formation and a range of late Artinskian to Roadian for the overlying part of this unit. The upper part of the Roye Formation yields ages in the range Roadian to Wuchiapingian. These results are consistent with available biostratigraphic data and confirm the potential of strontium isotope stratigraphy for developing a more accurate chronology of the widespread spiculite deposits that characterize the northern margin of Pangea in late-Early Permian to Late Permian time and which constitute a potential target for petroleum exploration.

Published

2010

4. STRONTIUM ISOTOPE STRATIGRAPHY OF THE ASMARI FORMATION (OLIGOCENE - LOWER MIOCENE), SW IRAN

Author

Matthew F. Thirlwall, Adnan A.M. Aqrawi, John M. McArthur, S. Monibi, N. A. H. Pickard, T. A. Svånå, Stephen N. Ehrenberg, Z. K. Mossadegh, and G. V. Laursen

Subjects

Anhydrite, Outcrop, Anticline, Energy Engineering and Power Technology, Geology, Sedimentary depositional environment, Paleontology, chemistry.chemical_compound, Fuel Technology, chemistry, Facies, Marl, Earth and Planetary Sciences (miscellaneous), Dolomitization, Progradation

Abstract

The Asmari Formation has been studied in the subsurface at the Bibi Hakimeh, Marun and Ahwaz oilfields and in an outcrop section from the Khaviz anticline. It consists of approximately 400 m of cyclic platform limestones and dolostones with subordinate intervals of sandstone and shale. The method of Sr-isotope stratigraphy is well suited for dating these strata because of the rapid rate of change of marine Sr-87/Sr-86 during Asmari deposition (roughly 32-18 Ma) and the common presence of well-preserved macrofossils.Profiles of age against depth in the four areas show a decrease from higher stratigraphic accumulation rates in the lower Asmari to lower rates in the middle to upper part of the formation. There is also a trend towards less open-marine depositional conditions and increasing early dolomitization and anhydrite abundance above the lower part of the formation. These changes reflect the dynamics of platform progradation across the areas studied, from early deposition along relatively high accommodation margin to slope settings to later conditions of lower accommodation on the shelf top.Ages of sequence boundaries are estimated from the age-depth profiles at each locality, providing a framework for stratigraphic correlation. Asmari deposition began in early Rupelian time (34-33 Ma) in the Bibi Hakimeh area, when the studied areas to the NW were accumulating basinal marl facies. Progradation of the platform across the Marun and Ahwaz areas took place in mid-Chattian time (27-26 Ma) and somewhat later (26-25 Ma) in the more basinward Khaviz area. Depositional sequences have durations of 1-3 Ma, whereas component cycles represent average time intervals of 100-300 Ky.Sr analyses of most dolomite, anhydrite and celestite samples plot close to or below the macrofossil age-depth trend for each locality, indicating formation from waters preserving seawater Sr-87/Sr-86 approximately contemporaneous with or slightly younger than the time of sediment deposition. Local deviations from this trend are interpreted as indicating episodes of seepage-reflux and also a contribution of Sr from non-marine sources during formation of the Gachsaran cap rock anhydrite.

Published

2007

5. Jellyfish Lake, Palau: Regeneration of C, N, Si, and P in anoxic marine lake sediments

Author

William M. Landing, William C. Burnett, William H. Orem, Philip A. Chin, John M. McArthur, Robert M. Lent, and W. Berry Lyons

Subjects

Terrigenous sediment, Alkalinity, Sediment, Mineralogy, Authigenic, Aquatic Science, Oceanography, Anoxic waters, Pore water pressure, chemistry.chemical_compound, chemistry, Environmental chemistry, Carbonate, Seawater, Geology

Abstract

Sediment cores from Jellyfish Lake were processed under an inert atmos phcre and the pore waters extracted and analyzed for the following parameters: pH, titration alkalinity (TA), Cl-, H4Si04, POd3-, NH4+, Ca2+, Mg2+, SOd2-, and H2S. Additionally, in one set of pore-water samples (core lo), the 613C of the X0, was also determined. The TA, H4Si04, POd3-, NH;+, and H,S increased with depth in the pore waters above anoxic bottom-water values. H,S values increased to 3.8 PM. In one case, both H,SiO, and POd3- concentrations increased to a maximum value and then decreased with depth, suggesting removal into solid phases. The H,SiO, concentrations are equal to or greater than pore-water values observed in sediments underlying upwelling areas. Pod3 - concentrations are, in general, lower than pore-water values from terrigenous nearshore areas but higher than nearshore carbonate pore-water values from Florida Bay or Bermuda. The Ca2+, Cl-, and Mg2+ : Cl- ratios show slight decreases in the top 15-20 cm, suggesting that authigenic carbonate may be forming. This suggestion is supported by the fact that the pore waters are saturated with respect to CaCO, due to the very high TAs. The 613C measurements of the pore-water X0, are from a shorter core. These measurements reach their most negative concentration at 72 cm and tilen become slightly heavier. This change is accompanied by a decrease in TA, suggesting the onset of methanogenesis at this location in this core.

Published

1996

6. Definition and global correlation of the Santonian-Campanian boundary

Author

Jake M. Hancock, J. A. Burnett, P. Montgomery, Andrew S. Gale, William James Kennedy, and John M. McArthur

Subjects

Ammonite, Series (stratigraphy), Extinction, biology, Uintacrinus, Excursion, Geology, biology.organism_classification, Crinoid, language.human_language, Paleontology, language, Marsupites, Placenticeras

Abstract

Review of biostratigraphical evidence from different regions shows that criteria used by workers on various marine fossil groups to define the Santonian-Campanian boundary differ considerably in relative age and position. Probably the most widely recognizable of these criteria is the extinction of the distinctive crinoid Marsupites testudinarius (North America, Europe, Asia, north Africa, Australia), which, coincides exactly with two separate definitions of the boundary - appearances of the ammonite Placenticeras bidorsatum and the belemnite Gonioteuthis granulataquadrata - and may also coincide with a third - entry of the planktic foraminiferan Globotruncana elevata. A comparison of evidence from upper Santonian and lower Campanian successions in widely separated regions allows us to place a series of important biostratigraphical markers in correct order. Defining the boundary at the extinction of M. testudinarius corresponds to a 87Sr/86Sr of 0.707479, and a small positive excursion in δ13C. The base of magnetochron 33R, generally considered to coincide with, or fall just above the base of the Campanian, is shown to lie within the upper Santonian Uintacrinus socialis Zone.

Published

1995

7. Sr isotope evolution of Maastrichtian seawater, determined from the chalk of Hemmoor, NW Germany

Author

Richard J. Howarth, J. Burnett, A.S. Gale, John M. McArthur, Matthew F. Thirlwall, Ó.M. McLaughlin, and William James Kennedy

Subjects

High rate, geography, Plateau, geography.geographical_feature_category, Isotope, biology, Geology, biology.organism_classification, Diagenesis, Paleontology, Marl, Baltica, Seawater, Belemnella

Abstract

In 140 metres of Maastrichtian White Chalk (nannofossil chalk) exposed near Hemmoor, NW Germany, values of 87Sr/86Sr increase from 0.707760 in the Belemnella sumensis Zone (Lower Maastrichtian) at the base of the section (-54.5 m; referred to 0 m at a prominent marl, M900) to 0.707821 in the Belemnella baltica/danica Zone (Upper Maastrichtian) at the top of the section (+84.5 m). A plateau in 87Sr/86Sr occurs between -5m and +50m in the section, probably as a result of a very high rate of sedimentation in this interval. A belemnite and associated nannofossil chalk have similar 87Sr/86Sr values, suggesting that there has been little diagenetic alteration of the 87Sr/86Sr ratios in the chalk, which therefore preserves its original 87Sr/86Sr. Comparison of 87Sr/86Sr and nannofossil zonations for sequences at Bidart, France, and DSDP Sites reveals discordance and so possible diachronism of the basal boundaries of nannofossil Zones CC25B and CC25C.

Published

1995

8. Recent trends in strontium isotope stratigraphy

Author

John M. McArthur

Subjects

Geology, Stratigraphy (archaeology), Data science

Abstract

An introduction to Sr-isotope stratigraphy can be obtained from several recent reviews (Elderfield, 1986; Veizer, 1989; McArthur, 1991, 1992a). The purpose of this article is not to repeat these reviews but to give to those not expert in the field, but who may be prospective users, a summary of aspects of the method not covered elsewhere, and some examples of recent applications of the technique and the problems that affect it. Highlighting problems inevitably means highlighting the publications in which they occur; I hope the authors will forgive me for spotlighting their work. Neither is this article intended to be a review of all that has been written on the use of Sr isotopes in low-temperature geochemistry; it concentrates on their use in stratigraphy and dating, rather than how they may be used to elucidate geochemical processes. Many excellent papers are thereby excluded from consideration. Implicit in this article is the view that the successful application of strontium isotope stratigraphy requires an application of good methodology in both geochemistry and stratigraphy.

Published

1994

9. Strontium isotope stratigraphy in the Late Cretaceous: intercontinentaI correlation of the Campanian/ Maastrichtian boundary

Author

A. S. Gale, J. Burnett, Matthew F. Thirlwall, J. M. Hancock, M. Chen, William James Kennedy, and John M. McArthur

Subjects

Paleontology, Boreal, biology, Stratigraphy, Stage (stratigraphy), Geology, Baculites, Biostratigraphy, biology.organism_classification, Cretaceous, Isotopes of strontium, Belemnella

Abstract

In the Boreal Chalk of northwestern Europe the base of the Maastrichtian Stage is defined by entry of the belemnite Belemnella. In the Kronsmoor section, in northwestern Germany, which is a standard section for the European Chalk, 87Sr/86Sr at the Campanian/ Maastrichtian (C/M) boundary is 0.707723±9 (10). An isotopic correlation of this boundary to the US Western Interior, for which a highly refined cephalopod biostratigraphy exists, suggests that this boundary, as defined at Kronsmoor, occurs within the Baculites jenseni zone. This correlationagrees with the latest placement based on biostratigraphic criteria. On87Sr/86Srcriteria the boundary at Kronsmoor correlates to the English Chalk at Trunch, Norfolk, UK, at a level 3.5 m lower than its position based on biostratigraphic criteria. At Kronsmoor, 87Sr/86Sr increases in a quasi-linear manner through much of the section, suggesting that, averaged over intervals of 1 Myr, the gross sedimentation rate and temporal rate of change of 87Sr/86Sr were approximately constant through the section. For US samples, zonally-plotted values of 87Sr/86Sr define a quasi-linear trend, which suggests a moderate uniformity of zonal duration from the Baculites compressus zone (73.2±0.7 Ma, 10) to the Baculites grandis zone (70.1±0.7 Ma, 10).

Published

1992