Bibliografías temáticas / Atmospheric carbon dioxide

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Literatura académica sobre el tema "Atmospheric carbon dioxide"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 28 de julio de 2024

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Artículos de revistas sobre el tema "Atmospheric carbon dioxide"

1

Smith, H. Jesse. "Controlling atmospheric carbon dioxide." Science 370, no. 6522 (December 10, 2020): 1286.13–1288. http://dx.doi.org/10.1126/science.370.6522.1286-m.

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Lal, R. "Sequestering Atmospheric Carbon Dioxide." Critical Reviews in Plant Sciences 28, no. 3 (April 3, 2009): 90–96. http://dx.doi.org/10.1080/07352680902782711.

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Lockwood, John G. "Changing atmospheric carbon dioxide." Progress in Physical Geography: Earth and Environment 11, no. 4 (December 1987): 581–89. http://dx.doi.org/10.1177/030913338701100406.

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Beatty, Thomas G., Luis Welbanks, Everett Schlawin, Taylor J. Bell, Michael R. Line, Matthew Murphy, Isaac Edelman, et al. "Sulfur Dioxide and Other Molecular Species in the Atmosphere of the Sub-Neptune GJ 3470 b." Astrophysical Journal Letters 970, no. 1 (July 1, 2024): L10. http://dx.doi.org/10.3847/2041-8213/ad55e9.

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Abstract We report observations of the atmospheric transmission spectrum of the sub-Neptune exoplanet GJ 3470 b taken using the Near-Infrared Camera on JWST. Combined with two archival Hubble Space Telescope/Wide-Field Camera 3 transit observations and 15 archival Spitzer transit observations, we detect water, methane, sulfur dioxide, and carbon dioxide in the atmosphere of GJ 3470 b, each with a significance of >3σ. GJ 3470 b is the lowest-mass—and coldest—exoplanet known to show a substantial sulfur dioxide feature in its spectrum, at M p = 11.2 M ⊕ and T eq = 600 K. This indicates that d
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Radmilović-Radjenović, Marija, Martin Sabo, and Branislav Radjenović. "Transport Characteristics of the Electrification and Lightning of the Gas Mixture Representing the Atmospheres of the Solar System Planets." Atmosphere 12, no. 4 (March 29, 2021): 438. http://dx.doi.org/10.3390/atmos12040438.

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Electrification represents a fundamental process in planetary atmospheres, widespread in the Solar System. The atmospheres of the terrestrial planets (Venus, Earth, and Mars) range from thin to thick are rich in heavier gases and gaseous compounds, such as carbon dioxide, nitrogen, oxygen, argon, sodium, sulfur dioxide, and carbon monoxide. The Jovian planets (Jupiter, Saturn, Uranus, and Neptune) have thick atmospheres mainly composed of hydrogen and helium involving. The electrical discharge processes occur in the planetary atmospheres leading to potential hazards due to arcing on landers an
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Matyukha, Volodymyr, та Olena Sukhina. "МЕТОДОЛОГІЯ ВИЗНАЧЕННЯ РОЗМІРУ ЕКОЛОГІЧНОГО ПОДАТКУ ЗА ВИКИДИ В АТМОСФЕРНЕ ПОВІТРЯ ДВООКИСУ ВУГЛЕЦЮ". Economical 2, № 28 (2023): 4–14. http://dx.doi.org/10.31474/1680-0044-2023-2(28)-4-14.

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This article is devoted to current problems of environmental protection. Environmental taxes (payments) are the most effective tools that can be used to regulate relations between the state and polluters, as well as to stimulate polluting enterprises to ecologization their production. Objective. The purpose of the paper is to develop a methodological approach to determining the amount of the environmental tax for emissions of carbon dioxide into the atmosphere. Research methods. The purpose of the research is achieved with the help of general scientific methods (analysis of statistical data, s
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Tamás, András. "The effect of rising concentration of atmospheric carbone dioxide on crop production." Acta Agraria Debreceniensis, no. 67 (February 3, 2016): 81–84. http://dx.doi.org/10.34101/actaagrar/67/1758.

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In the atmosphere, the amount of carbon dioxide and other greenhouse gases are rising in gradually increasing pace since the Industrial Revolution. The rising concentration of atmospheric carbon dioxide (CO2) contributes to global warming, and the changes affect to both the precipitation and the evaporation quantity. Moreover, the concentration of carbon dioxide directly affects the productivity and physiology of plants. The effect of temperature changes on plants is still controversial, although studies have been widely conducted. The C4-type plants react better in this respect than the C3-ty
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Sarmiento, Jorge L., Corinne Le Quéré, and Stephen W. Pacala. "Limiting future atmospheric carbon dioxide." Global Biogeochemical Cycles 9, no. 1 (March 1995): 121–37. http://dx.doi.org/10.1029/94gb01779.

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Smith, H. J. "Down with atmospheric carbon dioxide." Science 348, no. 6231 (April 9, 2015): 196–98. http://dx.doi.org/10.1126/science.348.6231.196-l.

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Joos, F. "The Atmospheric Carbon Dioxide Perturbation." Europhysics News 27, no. 6 (1996): 213–18. http://dx.doi.org/10.1051/epn/19962706213.

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Tesis sobre el tema "Atmospheric carbon dioxide"

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Barkley, Michael P. "Measuring atmospheric carbon dioxide from space." Thesis, University of Leicester, 2007. http://hdl.handle.net/2381/30591.

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Satellite measurements of atmosphere CO2 concentrations are a rapidly evolving area of scientific research which can help reduce the uncertainties in the global carbon cycle fluxes and identify regional surface sources and sinks. One of the emerging CO2 measurement techniques is a relatively new retrieval algorithm called Weighting Function Modified Differential Optical Absorption Spectroscopy (WFM-DOAS) (Buchwitz et al., 2000). This algorithm is designed to measure the total columns of CO2 (and other greenhouse gases) through the application to spectral measurements in the near infrared (NIR)
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Haworth, Matthew. "Mesozoic atmospheric carbon dioxide concentrations from fossil plant cutucles." Thesis, University of Oxford, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.442779.

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Murphy, Paulette P. "The carbonate system in seawater : laboratory and field studies /." Thesis, Connect to this title online; UW restricted, 1996. http://hdl.handle.net/1773/8509.

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Cheng, Yufu. "Effects of manipulated atmospheric carbon dioxide concentrations on carbon dioxide and water vapor fluxes in Southern California chaparral /." For electronic version search Digital dissertations database. Restricted to UC campuses. Access is free to UC campus dissertations, 2003. http://uclibs.org/PID/11984.

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Thesis (Ph. D.)--University of California, Davis and San Diego State University, 2003.<br>Includes bibliographical references (leaves 95-101). Also available via the World Wide Web. (Restricted to UC campuses).
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DeLacy, Brendan G. Bandy A. R. "The determination of carbon dioxide flux in the atmosphere using atmospheric pressure ionization mass spectrometry and isotopic dilution /." Philadelphia, Pa. : Drexel University, 2006. http://dspace.library.drexel.edu/handle/1860%20/868.

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Sindhøj, Erik. "Elevated atmospheric CO₂ in a semi-natural grassland : root dynamics, decomposition and soil C balances /." Uppsala : Swedish Univ. of Agricultural Sciences (Sveriges lantbruksuniv.), 2001. http://epsilon.slu.se/avh/2001/91-576-5797-1.pdf.

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Kessler, Toby Jonathan 1974. "Calculating the global flux of carbon dioxide into groundwater." Thesis, Massachusetts Institute of Technology, 1999. http://hdl.handle.net/1721.1/54439.

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Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences, 1999.<br>Includes bibliographical references (leaves 85-90).<br>In this research, the global annual flux of inorganic carbon into groundwater was calculated to be 4.4 GtC/y, with a lower bound of 1.4 GtC/y and an upper bound of 27.5 GtC/y. Starting with 44 soil PCO2 measurements, the dissolved inorganic carbon (DIC) of the groundwater was determined by equilibrium equations for the carbonate system. The calculated DIC was then multiplied by the groundwater recharge to determine the annual
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Kambis, Alexis Demitrios. "A numerical model of the global carbon cycle to predict atmospheric carbon dioxide concentrations." W&M ScholarWorks, 1995. https://scholarworks.wm.edu/etd/1539616709.

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A numerical model of the global carbon cycle is presented which includes the effects of anthropogenic &CO\sb2& emissions &(CO\sb2& produced from fossil fuel combustion, biomass burning, and deforestation) on the global carbon cycle. The model is validated against measured atmospheric &CO\sb2& concentrations. Future levels of atmospheric &CO\sb2& are then predicted for the following scenarios: (1) Business as Usual (BaU) for the period 1990-2000; (2) Same as (1), but with no biomass burning; (3) Same as (1), but with no fossil fuel combustion; (4) Same as (1), but with a doubled atmospheric &CO
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Osterman, My. "Carbon dioxide in agricultural streams : Magnitude and patterns of an understudied atmospheric carbon source." Thesis, Uppsala universitet, Luft-, vatten och landskapslära, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-355402.

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The role of streams in the global carbon budget was for a long time neglected, since they were considered passive transporters of carbon from land to sea. However, studies have shown that streams are often supersaturated in carbon dioxide (CO2), making them sources of carbon to the atmosphere. The main sources of stream CO2 are in-stream mineralization of organic matter and transport of carbon from the catchment. The catchment derived CO2 could both be of biogenic (respiration) or geogenic (weathering) origin. Most studies regarding the topic rely on measurements carried out in forest-dominate
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Collins, Sinead. "Microalgal adaptation to changes in carbon dioxide." Thesis, McGill University, 2005. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=100340.

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It is generally accepted that global levels of CO2 will roughly double over the next century. Because of their large population sizes and fast generation times, microalgae may adapt to global change through novel mutations fixed by natural selection, such that future populations may be genetically different from contemporary ones. The prediction that microalgae may respond evolutionarily to rising CO2 was tested using populations of Chlamydomonas reinhardtii grown for 1000 generations at increasing CO2. Laboratory populations grown at high CO2 did not show a direct response to selection at ele
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Libros sobre el tema "Atmospheric carbon dioxide"

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R, Trabalka John, and United States. Dept. of Energy. Office of Basic Energy Sciences. Carbon Dioxide Research Division., eds. Atmospheric carbon dioxide and the global carbon cycle. Washington, D.C: U.S. Dept. of Energy, Office of Energy Research, Office of Basic Energy Sciences, Carbon Dioxide Research Division, 1985.

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United States. Department of Energy. Office of Basic Energy Sciences. Carbon Dioxide Research Division, ed. Atmospheric carbon dioxide and the global carbon cycle. Washington, D.C: U.S. Dept. of Energy, Office of Energy Research, Office of Basic Energy Sciences, Carbon Dioxide Research Division, 1986.

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Carbon Dioxide Information Analysis Center (U.S.), ed. Glossary: Carbon dioxide and climate. Oak Ridge, Tenn: Oak Ridge National Laboratory, 1990.

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W, Koch George, and Mooney Harold A, eds. Carbon dioxide and terrestrial ecosystems. San Diego: Academic Press, 1996.

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Yiqi, Luo, and Mooney Harold A, eds. Carbon dioxide and environmental stress. San Diego, CA: Academic Press, 1999.

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Christian, Körner, and Bazzaz F. A, eds. Carbon dioxide, populations, and communities. San Diego: Academic Press, 1996.

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United States. Dept. of Energy. Office of Basic Energy Sciences., ed. Atmospheric carbon dioxide and the greenhouse effect. Washington, D.C: The Department, 1989.

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Reklaw, Jesse. World health, carbon dioxide & the weather. Santa Cruz, Calif: Robin Rose Pub., 1993.

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Duarte, Pedro. Oceans and the Atmospheric Carbon Content. Dordrecht: Springer Science+Business Media B.V., 2011.

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Matsueda, Hidekazu. Kishōchō oyobi Kishō Kenkyūjo ni okeru nisanka tanso no chōki kansoku ni shiyōsareta hyōjun gasu no sukēru to sono anteisei no saihyōka ni kansuru chōsa kenkyū: Re-evaluation for scale and stability of CO₂ standard gases used as long-term observations at the Japan Meteorological Agency and the Meteorological Research Institute. Ibaraki-ken Tsukuba-shi: Kishō Kenkyūjo, 2004.

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Capítulos de libros sobre el tema "Atmospheric carbon dioxide"

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Lin, Hua. "Changes in Atmospheric Carbon Dioxide." In Global Environmental Change, 61–67. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-5784-4_48.

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Hashimoto, Koji. "Global Temperature and Atmospheric Carbon Dioxide Concentration." In Global Carbon Dioxide Recycling, 5–17. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-8584-1_3.

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Houghton, R. A. "Tropical Deforestation and Atmospheric Carbon Dioxide." In Tropical Forests and Climate, 99–118. Dordrecht: Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-017-3608-4_10.

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Ranjan, Manju Rawat, Pallavi Bhardwaj, and Ashutosh Tripathi. "Microbial Sequestration of Atmospheric Carbon Dioxide." In Soil Biology, 199–216. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-76863-8_10.

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Schulz, Kai G., and Damien T. Maher. "Atmospheric Carbon Dioxide and Changing Ocean Chemistry." In Springer Textbooks in Earth Sciences, Geography and Environment, 247–59. Cham: Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-10127-4_11.

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Abstract“They call it life, we call it pollution” is an infamous quote which ignores many facts about why carbon dioxide (CO2) poses a significant problem for the ocean. But before we get to this, let’s start at the beginning. All organisms on Earth require a particular set of elements for growth. In the case of plants, these elements are needed to synthesise organic matter in a process called primary production via photosynthesis, and in the case of animals, these elements are directly assimilated by either consuming plant material or by preying on other animals. In this respect, one of the key elements is carbon. Being the molecular backbone for a number of vital organic compounds such as sugars, proteins and nucleic acids (containing genetic information), carbon can be considered as the building block of life.
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Agrawal, M., and S. S. Deepak. "Elevated Atmospheric Carbon Dioxide and Plant Responses." In Environmental Stress: Indication, Mitigation and Eco-conservation, 89–102. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-015-9532-2_8.

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Uprety, D. C., A. P. Mitra, S. C. Garg, B. Kimball, and D. Lawlor. "Rising Atmospheric Carbon Dioxide and Crop Responses." In Plant Breeding, 749–58. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-94-007-1040-5_31.

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Shackleton, N. J., and N. G. Pisias. "Atmospheric Carbon Dioxide, Orbital Forcing, and Climate." In The Carbon Cycle and Atmospheric CO2 : Natural Variations Archean to Present, 303–17. Washington, D. C.: American Geophysical Union, 2013. http://dx.doi.org/10.1029/gm032p0303.

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Labetski, Dzmitry G., J. Hrubý, and M. E. H. van Dongen. "n-Nonane Nucleation in the Presence of Carbon Dioxide." In Nucleation and Atmospheric Aerosols, 78–82. Dordrecht: Springer Netherlands, 2007. http://dx.doi.org/10.1007/978-1-4020-6475-3_15.

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Sundquist, Eric T. "Geological Perspectives on Carbon Dioxide and the Carbon Cycle." In The Carbon Cycle and Atmospheric CO2: Natural Variations Archean to Present, 55–59. Washington, D. C.: American Geophysical Union, 2013. http://dx.doi.org/10.1029/gm032p0005.

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Actas de conferencias sobre el tema "Atmospheric carbon dioxide"

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Christensen, A. J., Greg Shirah, Helen-Nicole Kostis, Anansa B. Keaton-Ashanti, Mark Subbarao, Brenda Lopez-Silva, and Lesley Ott. "Atmospheric Carbon Dioxide Tagged by Source." In SIGGRAPH '24: ACM SIGGRAPH 2024 Electronic Theater. New York, NY, USA: ACM, 2024. http://dx.doi.org/10.1145/3641230.3653486.

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Solodov, A. A., T. M. Petrova, Yu N. Ponomarev, A. M. Solodov, I. A. Vasilenko, and V. M. Deichuli. "Investigation of interaction of carbon dioxide with aerogel's nanopores." In XXI International Symposium Atmospheric and Ocean Optics. Atmospheric Physics, edited by Oleg A. Romanovskii. SPIE, 2015. http://dx.doi.org/10.1117/12.2205561.

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Petrova, T. M., Yu N. Ponomarev, A. A. Solodov, A. M. Solodov, and V. M. Deichuli. "Line broadening of carbon dioxide confined in nanoporous aerogel." In XXII International Symposium Atmospheric and Ocean Optics. Atmospheric Physics, edited by Gennadii G. Matvienko and Oleg A. Romanovskii. SPIE, 2016. http://dx.doi.org/10.1117/12.2249464.

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Golovko, Vladimir F. "Line shape narrowing in carbon dioxide at high pressures." In Eighth Joint International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, edited by Gelii A. Zherebtsov, Gennadii G. Matvienko, Viktor A. Banakh, and Vladimir V. Koshelev. SPIE, 2002. http://dx.doi.org/10.1117/12.458445.

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Rob, Mohammad A., and Larry H. Mack. "Absorption Spectra of Propylene at Carbon Dioxide (CO2) Laser Wavelengths." In Laser Applications to Chemical Analysis. Washington, D.C.: Optica Publishing Group, 1994. http://dx.doi.org/10.1364/laca.1994.tub.7.

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Laser remote sensing techniques for detecting trace level atmospheric pollutants have made rapid advances in the past several years.1,2 Molecular CO2 lasers play an important role in atmospheric pollution monitoring, because its emission spectrum in the 9-11 μn range falls within the largest atmospheric window and which overlap with the absorption spectra of a large number of molecules of environmental concern.2 The primary pollutants that are emitted to the atmosphere by natural and anthropogenic processes are, hydrocarbons (HC), carbon oxides (CO, CO2), nitric oxides (NO, NO2), ammonia (NH3)
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Sukhanov, Alexander. "Possibility estimation of determining carbon dioxide sources by airborne lidar." In 28th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, edited by Oleg A. Romanovskii and Gennadii G. Matvienko. SPIE, 2022. http://dx.doi.org/10.1117/12.2643920.

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Kachelmyer, A. L., R. E. Knowlden, and W. E. Keicher. "Atmospheric Distortion of Wideband Carbon Dioxide Laser Waveforms." In Coherent Laser Radar. Washington, D.C.: Optica Publishing Group, 1987. http://dx.doi.org/10.1364/clr.1987.wc3.

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The performance of wideband carbon dioxide laser waveforms is severely reduced by absorption and anomalous dispersion caused by atmospheric carbon dioxide. This paper deals with modeling and analyzing these atmospheric distortion effects. The latest version of the Air Force Geophysics Laboratory (AFGL) FASCODE program is used to perform some CO2 laser line atmospheric transmittance calculations. Data from these transmittance calculations are then used to develop a two-way path model of the amplitude and phase distortion for a given transmit/receive path. The matched filter response to wideband
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Stephen, Mark, James Abshire, Jeffrey Chen, Kenji Numata, Stewart Wu, Brayler Gonzales, Michael Rodriguez, et al. "Laser-based Remote Sensing of Atmospheric Carbon Dioxide." In Optical Sensors. Washington, D.C.: OSA, 2019. http://dx.doi.org/10.1364/sensors.2019.stu4a.2.

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Predoi-Cross, Adriana, Amr Ibrahim, Alice Wismath, Philippe M. Teillet, V. Malathy Devi, D. Chris Benner, Brant Billinghurst, Adriana Predoi-Cross, and Brant E. Billinghurst. "Carbon Dioxide Line Shapes for Atmospheric Remote Sensing." In WIRMS 2009 5TH INTERNATIONAL WORKSHOP ON INFRARED MICROSCOPY AND SPECTROSCOPY WITH ACCELERATOR BASED SOURCES. AIP, 2010. http://dx.doi.org/10.1063/1.3326332.

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Sukhanov, Alexander, and Gennadii Matvienko. "Possibility estimation of determining carbon dioxide sources by the spaceborne lidar." In 28th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics, edited by Oleg A. Romanovskii and Gennadii G. Matvienko. SPIE, 2022. http://dx.doi.org/10.1117/12.2643912.

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Informes sobre el tema "Atmospheric carbon dioxide"

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Trabalka, J. Atmospheric carbon dioxide and the global carbon cycle. Office of Scientific and Technical Information (OSTI), December 1985. http://dx.doi.org/10.2172/6048470.

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Firestine, M. W. Atmospheric carbon dioxide and the greenhouse effect. Office of Scientific and Technical Information (OSTI), May 1989. http://dx.doi.org/10.2172/5993221.

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Berner, Robert A. Plants, Weathering, and the Evolution of Atmospheric Carbon Dioxide and Oxygen. Office of Scientific and Technical Information (OSTI), February 2008. http://dx.doi.org/10.2172/923048.

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Oechel, W. C., and N. E. Grulke. Response of tundra ecosystems to elevated atmospheric carbon dioxide. [Annual report]. Office of Scientific and Technical Information (OSTI), December 1988. http://dx.doi.org/10.2172/230285.

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Cooley, S. R., D. J. P. Moore, S. R. Alin, D. Butman, D. W. Clow, N. H. F. French, R. A. Feely, et al. Chapter 17: Biogeochemical Effects of Rising Atmospheric Carbon Dioxide. Second State of the Carbon Cycle Report. Edited by N. Cavallaro, G. Shrestha, R. Birdsey, M. A. Mayes, R. Najjar, S. Reed, P. Romero-Lankao, and Z. Zhu. U.S. Global Change Research Program, 2018. http://dx.doi.org/10.7930/soccr2.2018.ch17.

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Jacobson, A. R., J. B. Miller, A. Ballantyne, S. Basu, L. Bruhwiler, A. Chatterjee, S. Denning, and L. Ott. Chapter 8: Observations of Atmospheric Carbon Dioxide and Methane. Second State of the Carbon Cycle Report. Edited by N. Cavallaro, G. Shrestha, R. Birdsey, M. A. Mayes, R. Najjar, S. Reed, P. Romero-Lankao, and Z. Zhu. U.S. Global Change Research Program, 2018. http://dx.doi.org/10.7930/soccr2.2018.ch8.

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Felix, Meier, Wilfried Rickels, Christian Traeger, and Martin Quaas. Working paper published on NETs in strategically interacting regions based on simulation and analysis in an extended ACE model. OceanNets, 2022. http://dx.doi.org/10.3289/oceannets_d1.5.

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Net-zero climate policies foresee deployment of atmospheric carbon dioxide removal wit geological, terrestrial, or marine carbon storage. While terrestrial and geological storage would be governed under the framework of national property rights, marine storage implies that carbon is transferred from one global common, the atmosphere, to another global common, the ocean, in particular if storage exceeds beyond coastal applications. This paper investigates the option of carbon dioxide removal (CDR) and storage in different (marine) reservoir types in an analytic climate-economy model, and derive
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8

Meier, Felix, Wilfried Rickels, Christian Traeger, and Martin Quaas. Working paper published on NETs in strategically interacting regions based on simulation and analysis in an extended ACE model. OceanNets, September 2023. http://dx.doi.org/10.3289/oceannets_d1.5_v2.

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Net-zero climate policies foresee deployment of atmospheric carbon dioxide removal wit geological, terrestrial, or marine carbon storage. While terrestrial and geological storage would be governed under the framework of national property rights, marine storage implies that carbon is transferred from one global common, the atmosphere, to another global common, the ocean, in particular if storage exceeds beyond coastal applications. This paper investigates the option of carbon dioxide removal (CDR) and storage in different (marine) reservoir types in an analytic climate-economy model, and derive
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9

William Goddard. Low Cost Open-Path Instrument for Monitoring Atmospheric Carbon Dioxide at Sequestration Sites. Office of Scientific and Technical Information (OSTI), September 2008. http://dx.doi.org/10.2172/968337.

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Brady D. Lee, William A. Apel, and Michelle R. Walton. Whitings as a Potential Mechanism for Controlling Atmospheric Carbon Dioxide Concentrations ? Final Project Report. Office of Scientific and Technical Information (OSTI), March 2006. http://dx.doi.org/10.2172/911640.

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