Origins of formation waters in the <scp>L</scp>lanos foreland basin of <scp>C</scp>olombia: geochemical variation and fluid flow history

Gonzalez-Penagos, Felipe; Moretti, Isabelle; France‐Lanord, Christian; Guichet, Xavier

doi:10.1111/gfl.12086

Cited by 14 publications

(10 citation statements)

References 20 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The same Californian sequence also shows a whole-rock δD enrichment that would correspond to a decrease in the water δD consistent with our measurements, although obscured by a strong scatter. Gonzalez-Penagos et al 36 also observed an increase of pore water δ 18 O with depth in the Colombian shales they studied undergoing S/I conversion.…”

Section: Resultsmentioning

confidence: 84%

“…There, very low TDS water was present and initially attributed to an influx of meteoric water but later determined to be S/I conversion. Gonzalez-Penagos et al relied on water isotopes (relatively heavier δ 18 O) and basic geochemistry (increase in dissolved silica) to show that what was believed to be massive topographically driven (Andes) meteoric water invasion in a deep onshore basin in Colombia was better explained by additional water release from S/I conversion. Studies in offshore Japan showed water freshening at a depth of 1 km (and temperature of 100 °C) in a Miocene-to-recent volcano-clastic sequence. , …”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Salinity Reversal and Water Freshening in the Eagle Ford Shale, Texas, USA

Nicot

Gherabati

Darvari

et al. 2018

ACS Earth Space Chem.

View full text Add to dashboard Cite

Effective, considerate shale play water management supports operations and protects the environment. A parameter often overlooked is total dissolved solids (TDS) of produced water from the formation. Knowledge of TDS is important to meet these dual goals. Subsurface TDS typically increases with depth. However, produced-water samples from the Eagle Ford Shale show a strong TDS decrease by a factor of ∼10 with increasing well depth (∼200 000 ppm at ∼2.5 km to 18 000 ppm at ∼3.6 km). Water stable isotopes strongly suggest that the low TDS is not due to dilution by meteoric water. Rather, we attribute the change to smectite-to-illite conversion, in which the smectite interlayer water is released into the pore space. Depth, temperature, and other related indicators (source for K, excess silica) support such a mechanism. In addition, water-isotope patterns and 87 Sr/ 86 Sr ratios suggest a conversion operating with limited contributions external to the shale. Order-of-magnitude calculations show that the 8% of mixed-layer clay present on average in the Lower Eagle Ford Shale is sufficient to bring formation water TDS to observed levels when some of the resident water is expelled. Understanding that the low salinity is an intrinsic property of the formation water rather than due to short-term mixing allows stakeholders to have a more optimistic outlook on water recycling and on using produced water for other uses (irrigation, municipal).

show abstract

Section: Resultsmentioning

confidence: 84%

Section: Discussionmentioning

confidence: 99%

Salinity Reversal and Water Freshening in the Eagle Ford Shale, Texas, USA

Nicot

Gherabati

Darvari

et al. 2018

ACS Earth Space Chem.

View full text Add to dashboard Cite

show abstract

“…For example, it has been argued that basal reservoirs in the Llanos basin are underpressured with flow back into the basin . It has also been argued that the Llanos basin was a tight, low-permeability system with very little fluid flow (and thus no water washing) . However, the explanation in reference is consistent with a substantial tilt to the OWC in the Rubiales reservoir.…”

Section: Introductionmentioning

confidence: 94%

Combined Petroleum System Modeling and Comprehensive Two-Dimensional Gas Chromatography To Improve Understanding of the Crude Oil Chemistry in the Llanos Basin, Colombia

Bartha¹,

Nicolais²,

Sharma³

et al. 2015

Energy Fuels

View full text Add to dashboard Cite

show abstract

“…Consequently, rivers draining this relief have metamorphic rocks in their riverbeds and lower values of electric conductivity and lower concentrations of ions, such as in Guiana Shield streams. Raised ridges, on the other hand, shaped strong lateral influences that have driven the distribution of salinity concentrations at the basin lowlands (Gonzalez‐Penagos et al., 2014).…”

Section: Methodsmentioning

confidence: 99%

“…Stream water pH captures the geochemical signal of waters flowing through a basin, and its variability reflects the cumulated effect of past historical events. In the Orinoco basin, pH values vary with the geological age of ecoregions (Gonzalez-Penagos et al, 2014;Goosen, 1971;Stallard, 1985). Consequently, lower pH values usually occur in the oldest ecoregions as they have experienced the highest number of weathering cycles (e.g., Guiana shield, Goosen, 1971).…”

Section: Historical Imprints On Taxon Distribution: the Significancmentioning

confidence: 99%

Historical legacies and contemporary processes shape beta diversity in Neotropical montane streams

González‐Trujillo

Saito

Petsch

et al. 2020

Journal of Biogeography

View full text Add to dashboard Cite

AimContemporary dispersal constraints and environmental conditions are broadly recognized as significant drivers of beta diversity patterns. However, beta diversity patterns may also reflect the legacy of past climatic and geological events. In this study, we investigated the relative importance of historical and contemporary factors as drivers of taxonomic, functional and phylogenetic beta diversity in Neotropical stream communities.LocationThe Colombian Orinoco basin.TaxonDiatoms and insects.MethodsWe estimated taxonomic, phylogenetic and functional beta diversity using Baselga's (BAS) and Podani's (POD) frameworks. Following both frameworks, we further partitioned every biodiversity facet into turnover and nestedness or richness difference components. Then, we used generalized linear models (GLM) to relate each biodiversity facet with environmental, spatial and historical factors.ResultsWe found that both historical and contemporary factors affected current patterns of beta diversity. Historical factors and water pH and temperature had the strongest effect on beta diversity patterns, particularly for taxonomic and phylogenetic facets. GLM models performed better for insects than for diatoms in all three facets. Within communities, our analysis also revealed a partial congruence between BAS‐ and POD‐based results.Main conclusionsDue to their past geological history and contemporary environmental gradients, tropical montane streams are natural laboratories for disentangling the joint effects of ecological and biogeographical factors on biodiversity patterns. Our study reveals that present‐day distribution patterns cannot be fully explained without accounting for the effects of past geological and climatic events on mountain landscapes. In the Neotropics, montane geology sets the stage for speciation and landscape formation, with which ecological (e.g., dispersal limitation) and environmental factors interact to generate spatial variation in species turnover.

show abstract

Origins of formation waters in the Llanos foreland basin of Colombia: geochemical variation and fluid flow history

Cited by 14 publications

References 20 publications

Salinity Reversal and Water Freshening in the Eagle Ford Shale, Texas, USA

Salinity Reversal and Water Freshening in the Eagle Ford Shale, Texas, USA

Combined Petroleum System Modeling and Comprehensive Two-Dimensional Gas Chromatography To Improve Understanding of the Crude Oil Chemistry in the Llanos Basin, Colombia

Historical legacies and contemporary processes shape beta diversity in Neotropical montane streams

Contact Info

Product

Resources

About