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Journal articles on the topic 'US Acid Rain Program'

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Published: 10 January 2023
Last updated: 28 January 2023

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1

Svendsen, G. T. "The US Acid Rain Program: Design, Performance, and Assessment." Environment and Planning C: Government and Policy 16, no. 6 (December 1998): 723–34. http://dx.doi.org/10.1068/c160723.

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2

Chestnut, Lauraine G., and David M. Mills. "A fresh look at the benefits and costs of the US acid rain program." Journal of Environmental Management 77, no. 3 (November 2005): 252–66. http://dx.doi.org/10.1016/j.jenvman.2005.05.014.

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3

Fromm, O., and B. Hansjürgens. "Emission Trading in Theory and Practice: An Analysis of RECLAIM in Southern California." Environment and Planning C: Government and Policy 14, no. 3 (September 1996): 367–84. http://dx.doi.org/10.1068/c140367.

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After the national Acid Rain Program, Southern California's tradeable permit system RECLAIM is the second comprehensive attempt in US environmental policy to create a workable system of tradeable permits. In this paper analyses of the most important regulations, of the environmental, legal, and economic background, and of the first results of this program are provided. The focus is on the conditions under which this instrument of environmental policy can be effective in practice.
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4

Arseneau, Kristina M. A., Charles T. Driscoll, Lindsay M. Brager, Karen A. Ross, and Brian F. Cumming. "Recent evidence of biological recovery from acidification in the Adirondacks (New York, USA): a multiproxy paleolimnological investigation of Big Moose Lake." Canadian Journal of Fisheries and Aquatic Sciences 68, no. 4 (April 2011): 575–92. http://dx.doi.org/10.1139/f2011-003.

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This investigation provides evidence of biological recovery from acidification in an acid-impacted Adirondack (New York, USA) lake. Water chemistry measurements collected monthly since 1982 show that Big Moose Lake is undergoing chemical recovery from acid deposition. To assess possible biological recovery, changes in chrysophyte, diatom, and cladoceran assemblages are analyzed in a sediment core. Three questions are addressed: (i) is there a significant shift in species composition after the 1995 implementation of the US Acid Rain Program? (ii) Are post-1995 changes in species composition consistent with chemical recovery from acidification or, rather, other changing chemical/climatic factors? (iii) Are the species assemblages returning to their pre-acidification state? Post-1995 declines in the relative abundance of diatom and chrysophyte taxa with low pH-optima and increases in taxa with higher pH-optima indicate biological recovery from acidification. In contrast, the cladocera remain unresponsive to post-1995 increases in pH. No species group has returned to its pre-disturbance state and post-ca. 1995 increases in certain taxa (e.g., Synura echinulata ) may be related to recent climate warming in the Adirondacks.
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5

Manea, Sabina. "Defining Emissions Entitlements in the Constitution of the EU Emissions Trading System." Transnational Environmental Law 1, no. 2 (October 2012): 303–23. http://dx.doi.org/10.1017/s2047102512000131.

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AbstractThe European Union Emissions Trading System (EU ETS) is the largest mandatory programme of its kind. The entitlements in emissions allowances (emissions entitlements) combine public and private law characteristics: allowances are tradable, commercially valuable regulatory instruments. This dual nature reveals a new interdependency between public and private law mechanisms in the context of climate change policy. This article argues that achieving the requisite level of emissions reductions is contingent on the viability of the emissions market, and that both are dependent on the definition of emissions entitlements. This view is supported by a case study which identifies the practical and serious consequences of the absence of a legal concept of emissions entitlements. The United States (US) Acid Rain Program offers useful lessons on the treatment of emissions entitlements. They can be further defined by analogy with similar rights regimes. Their nature is highly relevant to the emissions market, particularly to the commercial contracts that constitute it.
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6

Roberts, Leslie. "Acid Rain Program: Mixed Review." Science 252, no. 5004 (April 19, 1991): 371. http://dx.doi.org/10.1126/science.252.5004.371.a.

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7

ROBERTS, L. "Acid Rain Program: Mixed Review." Science 252, no. 5004 (April 19, 1991): 371. http://dx.doi.org/10.1126/science.252.5004.371.

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8

Malone, Thomas F. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1474–75. http://dx.doi.org/10.1126/science.252.5012.1474.b.

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9

Bernabo, Chris. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475.a.

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10

Irving, Patricia M. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475.b.

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11

Malone, Thomas F. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1474–75. http://dx.doi.org/10.1126/science.252.5012.1474-b.

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12

Fleagle, Robert G. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1474. http://dx.doi.org/10.1126/science.252.5012.1474.a.

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13

Barnard, Thomas E. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475.c.

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14

SHANNON, DANIEL. "Acid rain program report cites successes." Environmental Science & Technology 29, no. 10 (October 1995): 454A. http://dx.doi.org/10.1021/es00010a744.

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15

ROBERTS, L. "Learning From an Acid Rain Program." Science 251, no. 4999 (March 15, 1991): 1302–5. http://dx.doi.org/10.1126/science.251.4999.1302.

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16

FLEAGLE, R. G. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1474. http://dx.doi.org/10.1126/science.252.5012.1474.

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17

MALONE, T. F. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1474–75. http://dx.doi.org/10.1126/science.252.5012.1474-a.

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18

BERNABO, C. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475.

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19

IRVING, P. M. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475-a.

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20

BARNARD, T. E. "Learning from the Acid Rain Program." Science 252, no. 5012 (June 14, 1991): 1475. http://dx.doi.org/10.1126/science.252.5012.1475-b.

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21

Beardsley, Tim. "US acid rain: Academy finds casual connection." Nature 320, no. 6059 (March 1986): 205. http://dx.doi.org/10.1038/320205a0.

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22

Budiansky, Stephen. "Acid rain: US/Canada stand-off (contd)." Nature 314, no. 6009 (March 1985): 303. http://dx.doi.org/10.1038/314303b0.

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23

Beardsley, Tim. "US/Canada acid rain: Envoys' compromise in dispute." Nature 319, no. 6050 (January 1986): 168. http://dx.doi.org/10.1038/319168a0.

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24

Bohi, Douglas R., and Dallas Burtraw. "Avoiding Regulatory Gridlock in the Acid Rain Program." Journal of Policy Analysis and Management 10, no. 4 (1991): 676. http://dx.doi.org/10.2307/3324993.

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25

Lange, I. "Hedging in Coal Contracts under the Acid Rain Program." Land Economics 88, no. 3 (June 28, 2012): 561–70. http://dx.doi.org/10.3368/le.88.3.561.

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26

Burtraw, Dallas. "Markets for clean air: the U.S. acid rain program." Regional Science and Urban Economics 32, no. 1 (January 2002): 139–44. http://dx.doi.org/10.1016/s0166-0462(01)00085-0.

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27

Cooper, Richard N., A. Denny Ellerman, Paul L. Joskow, Richard Schmalensee, Juan-Pablo Montero, and Elizabeth Bailey. "Markets for Clean Air: The U.S. Acid Rain Program." Foreign Affairs 79, no. 6 (2000): 176. http://dx.doi.org/10.2307/20049990.

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28

Lange, Ian. "Steam versus coking coal and the acid rain program." Energy Policy 38, no. 3 (March 2010): 1251–54. http://dx.doi.org/10.1016/j.enpol.2009.11.045.

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29

Brandt, Urs Steiner, and Gert Tinggaard Svendsen. "A European acid rain programme based on the US experience?" European Environment 10, no. 5 (2000): 220–29. http://dx.doi.org/10.1002/1099-0976(200009/10)10:5<220::aid-eet233>3.0.co;2-g.

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30

Schakenbach, J. T. "Use of calibration gases in the U.S. acid rain program." Accreditation and Quality Assurance 6, no. 7 (July 1, 2001): 297–301. http://dx.doi.org/10.1007/s007690100350.

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31

Perino, Grischa, and Olena Talavera. "The Benefits of Spatially Differentiated Regulation: The Response to Acid Rain by U.S. States Prior to the Acid Rain Program." American Journal of Agricultural Economics 96, no. 1 (November 12, 2013): 108–23. http://dx.doi.org/10.1093/ajae/aat084.

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32

Wang, Kai, Meng Cheng Chen, and Li Xie. "Acid Rain Attack on Portland Cementitious Materials in China: Deterioration Process and Corrosion Products." Advanced Materials Research 168-170 (December 2010): 82–85. http://dx.doi.org/10.4028/www.scientific.net/amr.168-170.82.

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A research program was undertaken to discover the corrosion mechanism of portland cementitious materials to acid rain attack in China. The deterioration process and corrosion products of hardened ordinary portland cement pastes in pH 2 simulated acid rain solution were analyzed by XRD and BSE. The results indicate that the destruction of hardened portland cementitious materials by acid rain attack in China is predominantly due to the coordinated effect of H+ and SO42- of acid rain solution, and gradually occurs from the surface to the interior of materials. The corrosion products are mainly a white mushy mixture consisting of silica gel (SiO2•nH2O), alumina gel (Al2O3•nH2O) and dihydrate gypsum (CaSO4•2H2O) crystal. During the process of acid rain attack, the deteriorated specimen can be divided into corrosion layer, affected layer and unaffected layer.
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33

Zehr, Stephen. "Comparative boundary work: US acid rain and global climate change policy deliberations." Science and Public Policy 32, no. 6 (December 1, 2005): 445–56. http://dx.doi.org/10.3152/147154305781779227.

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34

Barreca, Alan I., Matthew Neidell, and Nicholas J. Sanders. "Long-run pollution exposure and mortality: Evidence from the Acid Rain Program." Journal of Public Economics 200 (August 2021): 104440. http://dx.doi.org/10.1016/j.jpubeco.2021.104440.

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35

Solomon, Barry D. "Global CO2 emissions trading: Early lessons from the U.S. acid rain program." Climatic Change 30, no. 1 (May 1995): 75–96. http://dx.doi.org/10.1007/bf01093226.

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36

De-Ping, Zhou, Wang Yan, Xie Yan-Bin, Wang Xiao-Ying, Wang Yang-Feng, and Hong Ye. "Analysis on Change of Precipitation pH and Chemical Characteristics of Acid Rain in Liaoning Province (2007�2018)." Revista de Chimie 71, no. 5 (May 29, 2020): 491–505. http://dx.doi.org/10.37358/rc.20.5.8161.

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Acid rain, as one of the outputs of toxic and harmful chemicals from factories, is a serious environmental problem, especially in China, which has harmful ecological consequences and has a direct impact on vegetation and human health. Based on the data of acid rain observation station of Liaoning Meteorological Bureau from 2007 to 2018, the variation of precipitation pH and the distribution of acid rain in Liaoning Province in the past 12 years were analyzed. The result shows: First, the average pH value of annual precipitation in Liaoning Province is 5.55, which belongs to weak acid rain area. The frequency of acid rain is 12.56%, and the ratio of acid rain to total precipitation is 15.48%. More than 1/5 of the stations are located in the acid rain prone area, among which Dalian and Dandong are seriously polluted, being close to the grade of acid rain frequent area. Second, from 2007 to 2018, the precipitation pH in Liaoning Province fluctuated and increased year by year, with an average annual increase of 0.077 pH, and the pollution of acid rain decreased year by year; especially after 2014, Liaoning Province has exited from weak acid rain area, with its precipitation pH tending to be neutral year by year. Third, acid rain pollution in Liaoning Province is most serious in winter, followed by autumn and summer; in the first six years (2007-2012), the pollution in February was the most serious, and in the last six years (2013-2018), the pollution in December was the most serious, which was significantly worse than the previous six years. Fourth, more efforts have been made to control air pollution in all parts of the country, and the annual decrease in acid precursor emissions is the fundamental reason for the variation of precipitation pH and the improvement of acid rain pollution in Liaoning Province, while the precipitation pH and acid rain distribution in Liaoning Province are sensitive to the relevant environmental control measures taken by the state in recent years. However, the change of acid rain pollution reminds us to attach great importance to new pollution components and causes.
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37

Ellerbrock, Michael J., and Ann M. Regn. "Toward Integrating Environmental and Economic Education: Lessons from the U.S. Acid Rain Program." Applied Environmental Education & Communication 3, no. 2 (April 2004): 79–87. http://dx.doi.org/10.1080/15330150490444223.

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38

Joskow, Paul L., and Richard Schmalensee. "The Political Economy of Market‐Based Environmental Policy: the U.S. Acid Rain Program." Journal of Law and Economics 41, no. 1 (April 1998): 37–84. http://dx.doi.org/10.1086/467384.

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39

Casado, H., A. Ezcurra, N. Durana, J. L. Albala, C. Garcia, I. Ureta, J. P. Lacaux, and Pham Van Dinh. "Chemical composition of acid rain in the North of Spain: The EPOCA program." Atmospheric Research 22, no. 4 (January 1989): 297–306. http://dx.doi.org/10.1016/0169-8095(89)90010-0.

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40

Mazroui, Alya Al, and Sufian Farrah. "The UAE Seeks Leading Position in Global Rain Enhancement Research." Journal of Weather Modification 49, no. 1 (October 1, 2017): 54–55. http://dx.doi.org/10.54782/jwm.v49i1.562.

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Rain enhancement offers an unrealised potential for arid and semi-arid countries and beyond, to ensure sustainable water supplies for countries suffering from shortages. Cloud seeding operations have been conducted in the UAE since the 1990s and continue today with 6 Beechcraft King Air C90 aircrafts.The UAE Research Program for Rain Enhancement Science is an initiative of the UAE Ministry of Presidential Affairs, overseen by the National Center of Meteorology and Seismology (NCMS), that offers a grant of US$ 5 million over a three-year period, to be shared by up to five winning research proposals, selected by a two-stage merit review decision process.The aim is to enhance and further develop capacity in the field both locally and globally by developing research and operational capacities while spurring global research collaborations in the region. Due to the success of the Program, ground-breaking work is already being carried out on precipitation enhancement through the use of nanotechnology, land cover modification, innovative algorithms, ice production processes, aerosols optimization and observation of the electrical aspects of rain generation.
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41

Mangun, William R. "Crossing Borders, Crossing Boundaries: The Role of Scientists in the U.S. Acid Rain Debate. By Leslie R. Alm. Westport, CT: Praeger. 2000. 160p. $58.00." American Political Science Review 96, no. 1 (March 2002): 201–2. http://dx.doi.org/10.1017/s000305540221432x.

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Leslie Alm presents what may be the best study yet produced on the acid rain policy debate, at least with regard to its scientific underpinnings. The book describes the evolution of the current U.S.-Canadian acid rain policy agreement and focuses on the role of scientists in the formulation and implementation of acid rain policy. Alm found that most natural scientists believe they have little influence on the policy process. He suggests they are not trained to understand policymakers, and policymakers are not trained to understand science. Both have a narrow focus that causes them to perceive selectively what the other is saying. As does Lynton K. Caldwell (Between Two Worlds: Science, the Environmental Movement, and Policy Choice, 1990), Alm informs us that scientists and policymakers operate in two totally different worlds using two different languages and two different time scales; this complicates the policy process.
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42

Sanders, Nicholas J., and Alan I. Barreca. "Adaptation to Environmental Change: Agriculture and the Unexpected Incidence of the Acid Rain Program." American Economic Journal: Economic Policy 14, no. 1 (February 1, 2022): 373–401. http://dx.doi.org/10.1257/pol.20190060.

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The Acid Rain Program (ARP) cut sulfur dioxide (SO2) emissions from power plants in the United States, with considerable benefits. We show this also reduced ambient sulfate levels, which lowered agriculture productivity through decreased soil sulfur. Using plant-level SO2 emissions and an atmospheric transport model, we estimate the relationship between airborne sulfate levels and yields for corn and soybeans. We estimate crop revenue losses for these two crops at around $1–$1.5 billion per year, with accompanying decreases in land value. Back-of-the-envelope calculations of the costs to replace lost sulfur suggest producer responses were limited and suboptimal. (JEL Q15, Q24, Q53, Q58)
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43

Zipper, Carl E., and Leonard Gilroy. "Sulfur Dioxide Emissions and Market Effects under the Clean Air Act Acid Rain Program." Journal of the Air & Waste Management Association 48, no. 9 (September 1998): 829–37. http://dx.doi.org/10.1080/10473289.1998.10463731.

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44

Cascio, Thomas Bell. "Fuel Type as a Factor Influencing Compliance by Utilities under The Acid Rain Program." Journal of the Air & Waste Management Association 49, no. 5 (May 1999): 562–68. http://dx.doi.org/10.1080/10473289.1999.10463822.

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45

Chan, H. Ron, B. Andrew Chupp, Maureen L. Cropper, and Nicholas Z. Muller. "The impact of trading on the costs and benefits of the Acid Rain Program." Journal of Environmental Economics and Management 88 (March 2018): 180–209. http://dx.doi.org/10.1016/j.jeem.2017.11.004.

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46

Stavins, Robert N. "What Can We Learn from the Grand Policy Experiment? Lessons from SO2 Allowance Trading." Journal of Economic Perspectives 12, no. 3 (August 1, 1998): 69–88. http://dx.doi.org/10.1257/jep.12.3.69.

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The most ambitious application ever attempted of a market-based approach to environmental protection has been for the control of acid rain under the Clean Air Act amendments of 1990, which established a sulfur dioxide allowance trading program. This essay identifies lessons that can be learned from this grand experiment in economically oriented environmental policy. The author examines positive political economy lessons, asking why this system was adopted from acid-rain control in 1990, and he considers normative lessons that can be learned from the program's structure and performance, focusing on lessons for the design and implementation of future systems.
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47

Napolitano, Sam, Jeremy Schreifels, Gabrielle Stevens, Maggie Witt, Melanie LaCount, Reynaldo Forte, and Kenon Smith. "The U.S. Acid Rain Program: Key Insights from the Design, Operation, and Assessment of a Cap-and-Trade Program." Electricity Journal 20, no. 7 (August 2007): 47–58. http://dx.doi.org/10.1016/j.tej.2007.07.001.

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48

Liu, Ting-Wu, Li Niu, Bin Fu, Juan Chen, Fei-Hua Wu, Juan Chen, Wen-Hua Wang, Wen-Jun Hu, Jun-Xian He, and Hai-Lei Zheng. "A transcriptomic study reveals differentially expressed genes and pathways respond to simulated acid rain in Arabidopsis thaliana." Genome 56, no. 1 (January 2013): 49–60. http://dx.doi.org/10.1139/gen-2012-0090.

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Acid rain, as a worldwide environmental issue, can cause serious damage to plants. In this study, we provided the first case study on the systematic responses of arabidopsis (Arabidopsis thaliana (L.) Heynh.) to simulated acid rain (SiAR) by transcriptome approach. Transcriptomic analysis revealed that the expression of a set of genes related to primary metabolisms, including nitrogen, sulfur, amino acid, photosynthesis, and reactive oxygen species metabolism, were altered under SiAR. In addition, transport and signal transduction related pathways, especially calcium-related signaling pathways, were found to play important roles in the response of arabidopsis to SiAR stress. Further, we compared our data set with previously published data sets on arabidopsis transcriptome subjected to various stresses, including wound, salt, light, heavy metal, karrikin, temperature, osmosis, etc. The results showed that many genes were overlapped in several stresses, suggesting that plant response to SiAR is a complex process, which may require the participation of multiple defense-signaling pathways. The results of this study will help us gain further insights into the response mechanisms of plants to acid rain stress.
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49

Mattson, Mark D., Marie-Françoise Walk, Peter A. Kerr, Anne M. Slepski, O. Thomas Zajicek, and Paul J. Godfrey. "Quality Assurance Testing for a Large Scale Volunteer Monitoring Program: The Acid Rain Monitoring Project." Lake and Reservoir Management 9, no. 1 (October 1994): 10–13. http://dx.doi.org/10.1080/07438149409354715.

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50

Montero, Juan‐Pablo. "Voluntary Compliance with Market‐Based Environmental Policy: Evidence from the U. S. Acid Rain Program." Journal of Political Economy 107, no. 5 (October 1999): 998–1033. http://dx.doi.org/10.1086/250088.

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