Long-term variability and source signature of gases emitted from oil & natural gas and cattle feedlot operations in the Colorado Front range

2021 ◽  
pp. 118663
Author(s):  
I. Ortega ◽  
J.W. Hannigan ◽  
R.R. Buchholz ◽  
G. Pfister
Keyword(s):  
Natural Gas ◽  
Colorado Front Range ◽  
Front Range ◽  
Cattle Feedlot

scholarly journals Long-Term Seedfall, Establishment, Survival, and Growth of Natural and Planted Ponderosa Pine in the Colorado Front Range

2006 ◽  
Vol 21 (1) ◽  
pp. 19-26 ◽  
Author(s):  
Wayne D. Shepperd ◽  
Carleton B. Edminster ◽  
Stephen A. Mata
Keyword(s):  
Ponderosa Pine ◽  
Basal Area ◽  
Colorado Front Range ◽  
Initial Growth ◽  
Front Range ◽  
Natural Seedling ◽  
Survival And Growth ◽  
Seed Crops ◽  
Better Than

Abstract Seedfall, natural regeneration establishment, and growth of planted seedlings was observed from 1981 to 2001 under shelterwood and seedtree overstories in a replicated study in ponderosa pine in the Manitou Experimental Forest in the Colorado Front Range. Good seed crops were produced only every 4 to 6 years, with almost no viable seed produced in intervening years. With seed predation, only 14% of total seedfall was available for germination. Shelterwood overstories containing between 6 and 14 m2 ha−1 stem basal area over scarified seedbeds provided optimal conditions for natural seedling establishment. Survival and growth of planted seedlings was much better than that of natural seedlings. However, poor survival and slow initial growth may require many years to establish a fully stocked forest of natural seedlings.

Spatial and temporal variations in meteoric 10Be inventories and long-term deposition rates, Colorado Front Range

2015 ◽  
Vol 109 ◽  
pp. 1-12 ◽  
Author(s):  
William Ouimet ◽  
David Dethier ◽  
Paul Bierman ◽  
Cianna Wyshnytzky ◽  
Neil Shea ◽  
...  
Keyword(s):  
Temporal Variations ◽  
Colorado Front Range ◽  
Spatial And Temporal Variations ◽  
Front Range ◽  
Deposition Rates

Acyl Peroxy Nitrates Link Oil and Natural Gas Emissions to High Ozone Abundances in the Colorado Front Range During Summer 2015

2019 ◽  
Vol 124 (4) ◽  
pp. 2336-2350 ◽  
Author(s):  
Jakob Lindaas ◽  
Delphine K. Farmer ◽  
Ilana B. Pollack ◽  
Andrew Abeleira ◽  
Frank Flocke ◽  
...  
Keyword(s):  
Natural Gas ◽  
Colorado Front Range ◽  
Front Range ◽  
Gas Emissions ◽  
Peroxy Nitrates ◽  
Oil And Natural Gas ◽  
Natural Gas Emissions

Contrasting long-term alpine and subalpine precipitation trends in a mid-latitude North American mountain system, Colorado Front Range, USA

2015 ◽  
Vol 8 (5-6) ◽  
pp. 607-624 ◽  
Author(s):  
Timothy G.F. Kittel ◽  
Mark W. Williams ◽  
Kurt Chowanski ◽  
Michael Hartman ◽  
Todd Ackerman ◽  
...  
Keyword(s):  
North American ◽  
Colorado Front Range ◽  
Front Range ◽  
Mountain System ◽  
Precipitation Trends

scholarly journals Atmospheric oil and natural gas hydrocarbon trends in the Northern Colorado Front Range are notably smaller than inventory emissions reductions

Elem Sci Anth ◽  
2021 ◽  
Vol 9 (1) ◽  
Author(s):  
Samuel J. Oltmans ◽  
Lucy C. Cheadle ◽  
Detlev Helmig ◽  
Hélène Angot ◽  
Gabrielle Pétron ◽  
...  
Keyword(s):  
Natural Gas ◽  
Mole Fraction ◽  
Fold Increase ◽  
Gas Production ◽  
Rate Of Change ◽  
Colorado Front Range ◽  
Front Range ◽  
The South ◽  
Emissions Inventory ◽  
Oil And Natural Gas

From 2008 to mid-2016, there was more than a 7-fold increase in oil production and nearly a tripling of natural gas production in the Colorado Denver–Julesburg Basin (DJB). This study utilized air samples collected at the Boulder Atmospheric Observatory (BAO) tower in southwestern Weld County in the DJB to investigate atmospheric mole fraction trends of methane and volatile organic compounds (VOCs). Elevated methane and propane mole fractions and low values (<1) in the ratio of i-pentane to n-pentane at BAO were found to be associated with flow patterns that transport air from the northeast (NE) to east (E) sector to the site, the direction where the primary locations of oil and natural gas (O&NG) extraction and processing activities are located. Median mole fractions of the O&NG tracer propane at BAO were 10 times higher than background values when winds came from the NE quadrant. This contrasts with lower mole fractions of O&NG-related constituents in air parcels arriving at BAO from the south, the direction of the major urban area of Denver. None of O&NG tracers, for example, methane and propane, show statistically significant trends in mole fraction (relative to the background) over the study period in air transported from the DJB. Also, longer term acetylene mole fraction changes were not seen in NE quadrant or south sector samples. A significant decline in the mole fraction ratio of i-pentane to n-pentane in the NE sector data provides evidence of an increasing influence of O&NG on the overall composition of VOCs measured at BAO, a change not seen in measurements from the south (urban) sector. These results suggest that O&NG emissions and resulting atmospheric mole fractions have remained relatively constant over 2008–2016. The behavior in the observations is in contrast to the most recent VOC emissions inventory. While the inventory projects O&NG total VOC emission reductions between 2011 and 2020, of –6.5% per year despite the large production increases, the best estimate of the propane emission rate of change for the DJB-filtered data during 2008–2016 is much smaller, that is, –1.5% per year.

Separation of Methane Emissions From Agricultural and Natural Gas Sources in the Colorado Front Range

2019 ◽  
Vol 46 (7) ◽  
pp. 3990-3998 ◽  
Author(s):  
Natalie Kille ◽  
Randall Chiu ◽  
Matthias Frey ◽  
Frank Hase ◽  
Mahesh K. Sha ◽  
...  
Keyword(s):  
Natural Gas ◽  
Methane Emissions ◽  
Colorado Front Range ◽  
Front Range

Frost Creep and Gelifluction Features: A Review

1976 ◽  
Vol 6 (1) ◽  
pp. 55-76 ◽  
Author(s):  
James B. Benedict
Keyword(s):  
Yukon Territory ◽  
Cold Climate ◽  
Colorado Front Range ◽  
Front Range ◽  
Mass Wasting ◽  
Soil Movement ◽  
Plant Remains ◽  
Close Interval ◽  
Humus Horizons

Frost creep and gelifluction are the cold-climate representatives of mass-wasting processes that occur in a broad range of environments. Neither process requires permafrost, and frost creep can be inhibited by its presence at shallow depth. Acting in various combinations, frost creep and gelifluction produce distinctive lobate and terrace-like landforms, which are easy to recognize while fresh and active, but difficult to distinguish from mudflow lobes, earthslides, and similar deposits after they have been modified by other processes. Large frost creep and gelifluction features are currently active in many tundra environments that experience only deep seasonal freezing; thus they are not generally considered to be indicators of permafrost. Most radio-carbon-dated lobes and terraces, however, seem to have originated at times when permafrost was more widespread than it is today. This is true in the Colorado Front Range, where the formation of lobes and terraces appears to have been initiated by rapid melting of ice-enriched permafrost during the warming phases of frost-heave cycles that were centuries or millennia in duration. There is growing evidence that lobes and terraces developed in many parts of the world between about 3000 and 2500 BP; the climatic significance of their formation during this interval is open to several interpretations. Long-term average rates of frontal advance, calculated for deposits in Colorado, Australia, Greenland, Yukon Territory, Alaska, Scotland, and Norway, range from 0.6 to 3.5 mm per calendar year, significantly slower than maximum rates of movement measured on the surfaces of active lobes and terraces in comparable environments; the features are clearly not as effective at transporting debris as was previously supposed. Variations in past rates of downslope soil movement, estimated from close-interval dating of buried humus horizons or plant remains overrun by the advancing fronts of lobes and terraces, provide a sensitive record of climatic change. The dated humus layers are also suitable for detailed pollen analyses and soil chronosequence studies.

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