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1

Fields, David M., Nils Olav Handegard, John Dalen, et al. "Airgun blasts used in marine seismic surveys have limited effects on mortality, and no sublethal effects on behaviour or gene expression, in the copepod Calanus finmarchicus." ICES Journal of Marine Science 76, no. 7 (2019): 2033–44. http://dx.doi.org/10.1093/icesjms/fsz126.

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Abstract Seismic surveys use airguns that emit low frequency high magnitude sound to detect subsea resources and to map seabed geology. The effect of seismic blasts on Calanus spp., a key food source for commercially important fish, was assessed in field experiments. Immediate mortality of copepods was significantly different from controls at distances of 5 m or less from the airguns. Mortality 1 week after the airgun blast was significantly higher—by 9% relative to controls—in the copepods placed 10 m from the airgun blast but was not significantly different from the controls at a distance of
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2

Noad, Michael, and Rebecca Dunlop. "Humpback whales increase the length of their songs during nearby airgun operations." Journal of the Acoustical Society of America 154, no. 4_supplement (2023): A88. http://dx.doi.org/10.1121/10.0022891.

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There is concern that noise from “airguns” used during oil and gas exploration may cause behavioral changes in marine mammals. One important behavior of some mysticete whales is the production of songs which are likely used as reproductive displays. Humpback whales have conspicuous songs but there are few studies on the impact of noise on their singing behavior. Here, we test the hypothesis that airgun noise causes individual humpback whales to reduce the duration of their songs. In a series of experiments off the east coast of Australia, we exposed migrating humpback whales to airguns. We tra
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3

Stone, Carolyn J., and Mark L. Tasker. "The effects of seismic airguns on cetaceans in UK waters." J. Cetacean Res. Manage. 8, no. 3 (2023): 255–63. http://dx.doi.org/10.47536/jcrm.v8i3.721.

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Observations undertaken during 201 seismic surveys in UK and adjacent waters were analysed to examine effects on cetaceans. Sighting rates, distance from the airguns and orientation were compared for periods when airguns were active and when they were silent, both for surveys with airgun arrays of large volume and surveys with smaller volume arrays. The results demonstrate that cetaceans can be disturbed by seismic exploration. Small odontocetes showed the strongest lateral spatial avoidance (extending at least as far as the limit of visual observation) in response to active airguns, while mys
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4

Kozachenko, Ihor. "Classification of airgun shot injuries." Forensic-medical examination, no. 1 (April 13, 2016): 45–50. http://dx.doi.org/10.24061/2707-8728.1.2016.9.

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Based on the analysis of airgun shot trauma by materials some Bureau of Forensic Medicine of Ukraine for 2006- 2015, using the previously proposed terminology and conceptual apparatus first developed unified classification containing 15th bases required for comprehensive response of airgun shot injuries. This classification is used for the study, description, diagnostics and statistical processing of airgun shot injuries as forensic doctors and clinicians.
 Damage caused to a person from modern airguns, currently is not well understood, particularly not classified. Analysis of airgun shot
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5

Affatati, Alice, Federica Pace, Michael Wood, et al. "Long-range propagation of airgun-array signals: Comparing numerical simulations and acoustic recordings in the Ionian sea." Journal of the Acoustical Society of America 157, no. 4 (2025): 2857–67. https://doi.org/10.1121/10.0036457.

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Marine seismic surveys contribute to acoustic pollution, and the sounds they produce may be audible by marine mammals at several hundred kilometers distance. To evaluate the potential effects of such sounds on fauna and translate them into effective policies and mitigation measures, stakeholders require quantitative estimations of acoustic fields. We compare simulations of airgun-array signals produced during the Upper LIthosphere Ship Subduction Exploration survey in the Ionian Sea with the signals recorded 650 kilometers away at the cabled seabed observatory NEMO-SN1. JASCO's Applied Science
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6

Burnie, A., and D. Kydd. "Airgun injuries." Veterinary Record 116, no. 6 (1985): 167–68. http://dx.doi.org/10.1136/vr.116.6.167.

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7

Ma, Siyu, Yuxiang Zhang, and Zhinan Xie. "Research on SNR enhancement method of underwater airgun impulse signal." Journal of Physics: Conference Series 2822, no. 1 (2024): 012136. http://dx.doi.org/10.1088/1742-6596/2822/1/012136.

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Abstract Seismic airgun blasting is nowadays widely employed for ocean exploration and marine geophysical study. Being powerful acoustic source showing excellent repeatability and consistency, it’s potentially applicable for long-distance underwater acoustic communication. Given the sound generating mechanism of airguns, the generated signals cannot be modulated compared with sources signals that are more commonly used for communications purposes. Thus the use of time delay shift coding system, which is both necessary and advantageous under such circumstances. The detection of the impulsive si
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8

Ruppel, Carolyn D., Thomas C. Weber, Erica R. Staaterman, Stanley J. Labak, and Patrick E. Hart. "Categorizing Active Marine Acoustic Sources Based on Their Potential to Affect Marine Animals." Journal of Marine Science and Engineering 10, no. 9 (2022): 1278. http://dx.doi.org/10.3390/jmse10091278.

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Marine acoustic sources are widely used for geophysical imaging, oceanographic sensing, and communicating with and tracking objects or robotic vehicles in the water column. Under the U.S. Marine Mammal Protection Act and similar regulations in several other countries, the impact of controlled acoustic sources is assessed based on whether the sound levels received by marine mammals meet the criteria for harassment that causes certain behavioral responses. This study describes quantitative factors beyond received sound levels that could be used to assess how marine species are affected by many c
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9

Barkaszi, Mary Jo, and Christopher J. Kelly. "Analysis of protected species observer data: Strengths, weaknesses, and application in the assessment of marine mammal responses to seismic surveys in the northern Gulf of Mexico 2002–2015." PLOS ONE 19, no. 3 (2024): e0300658. http://dx.doi.org/10.1371/journal.pone.0300658.

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Visual observation data collected by protected species observers (PSOs) is required per regulations stipulated in Notices to Lessees (NTLs) and geophysical survey Permits (Form BOEM-0328) issued to seismic operators in the Gulf of Mexico (GOM). Here, data collected by certified and trained PSOs during seismic surveys conducted between 2002–2015 were compiled and analyzed to assess utility in assessing marine mammal responses to seismic noise and effectiveness of required mitigation measures. A total of 3,886 agency-required bi-weekly PSO Effort and Sightings reports were analyzed comprising 59
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10

Girdler, N. M. "Facial Airgun Wound." Journal of Trauma: Injury, Infection, and Critical Care 38, no. 3 (1995): 390–91. http://dx.doi.org/10.1097/00005373-199503000-00018.

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11

PRICE, J., G. A. DEWAR, and PROF C. METREWELI. "Airgun Pellet Appendicitis." Australasian Radiology 32, no. 3 (1988): 368–70. http://dx.doi.org/10.1111/j.1440-1673.1988.tb02755.x.

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12

Doi, Kevin, and Dean C. Norman. "The “Harmless” airgun." Annals of Emergency Medicine 16, no. 5 (1987): 605. http://dx.doi.org/10.1016/s0196-0644(87)80721-7.

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13

Liu, Chunyu, Hongfeng Yang, Baoshan Wang, and Jun Yang. "Impacts of Reservoir Water Level Fluctuation on Measuring Seasonal Seismic Travel Time Changes in the Binchuan Basin, Yunnan, China." Remote Sensing 13, no. 12 (2021): 2421. http://dx.doi.org/10.3390/rs13122421.

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An airgun source in a water reservoir has been developed in the past decade as a green active source that had been proven effective to derive short-term subsurface structural changes. However, seasonal water level fluctuation in the reservoir affects the airgun signal, and thus whether the airgun signals can be used to derive robust seasonal variation in subsurface structure remains unclear. We use the airgun data observed in the Binchuan basin to estimate the seasonal variation of seismic travel time and compare the results with those derived from ambient noise data in the same frequency band
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14

Kozachenko, Ihor. "FATAL AIRGUN SHOT TRAUMA: STRUCTURAL ANALYSIS AND MORPHOLOGICAL FEATURES INJURIES." Forensic-medical examination, no. 2 (November 20, 2015): 89–94. http://dx.doi.org/10.24061/2707-8728.2.2015.12.

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Completed structural analysis of fatal airgun shot injuries and studied the morphological features of damage of modern powerful airguns caliber 4.5 mm. It was determined that the vast majority of the deaths were homicides and suicides. The projectiles who shot from a distance of up to 10 meters have a specific kinetic energy sufficient to cause fatal wounds penetrating mainly diametric head and chest bone fractures and injuryes a brain, heart and other internal organs or large blood vessels. Some features of the damage caused by the action of a powerful airguns are - formation of muzzle imprin
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15

Douglass, Alexander S., Warren T. Wood, Benjamin J. Phrampus, and Shima Abadi. "The effects of array design on acoustic data collected during marine seismic reflection surveys." Journal of the Acoustical Society of America 151, no. 4 (2022): A241. http://dx.doi.org/10.1121/10.0011194.

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Marine seismic reflection surveys provide an abundance of acoustic data that are potentially useful for an array of analyses within and in addition to geoacoustic studies. A single cruise typically produces thousands to tens of thousands of acoustic events, with hundreds of hydrophones recording each event over towed arrays that can span up to 15 km or more. However, the structure of the airgun source arrays and the receiver arrays is typically not obvious from the data alone and the pre-processing of the data may yield misleading results if not properly accounted for. Generally, the acoustic
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16

Xiu, Jiaqi, and Min Zhang. "Attempts to increase communication rates with explosive acoustic sources for underwater communications." Journal of Physics: Conference Series 2807, no. 1 (2024): 012027. http://dx.doi.org/10.1088/1742-6596/2807/1/012027.

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Abstract To meet the requirement of a higher speed rate for hydroacoustic communication, an innovative scheme is proposed to simulate an airgun sound source by superimposing two different frequency Ricker Wavelets to form a multi-wave Ricker Wavelet. On the receiver side, two bandpass filters are employed to recover the original information. First, the characteristics of a single Ricker Wavelet, a multi-wave Ricker Wavelet, and an airgun sound source were compared. We found that the multi-wave Ricker Wavelet has characteristics that are similar to the airgun sound source, which leads to the co
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17

WRIGHT, P. J., and R. J. MURRAY. "Penetrating craniocerebral airgun injury." Anaesthesia 44, no. 3 (1989): 219–21. http://dx.doi.org/10.1111/j.1365-2044.1989.tb11227.x.

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18

Smith, S. G. "Measurement of Airgun Waveforms." Geophysical Journal of the Royal Astronomical Society 42, no. 1 (2007): 273–80. http://dx.doi.org/10.1111/j.1365-246x.1975.tb05860.x.

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19

Munro, R., and D. Merry. "Airgun pellets in animals." Veterinary Record 158, no. 23 (2006): 808. http://dx.doi.org/10.1136/vr.158.23.808-a.

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20

Maitra, A. K., V. A. C. Reece, and D. Richardson. "Airgun injuries on Tyneside." International Journal of Clinical Practice 42, no. 3 (1988): 106–9. http://dx.doi.org/10.1111/j.1742-1241.1988.tb08525.x.

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21

Jiang, Jinzhong, Runhai Yang, Bin Wang, et al. "Assessing Short‐Term Clock Errors and Drifts of Temporary Seismic Networks Using the Active Airgun Source in Binchuan, Yunnan." Seismological Research Letters 90, no. 6 (2019): 2165–74. http://dx.doi.org/10.1785/0220190098.

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ABSTRACT We conducted a short‐term airgun experiment at the Binchuan Fixed Airgun Signal Transmission Station from 14 to 20 February 2017, and two different types of seismometers (Güralp CMG‐40T and QS05A) recorded 62 airgun shots triggered under the same conditions. However, we observed significant clock errors and drifts in seismic data recorded by four QS05A seismometers. To assess the short‐term clock errors and drifts for seismometers, we propose a new method that measures the P‐wave arrival‐time differences between airgun signals recorded at a station pair, using the matched filter metho
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22

Wu, Qi-Gang, Zuo-Cheng Wang, Bao-Yu Ni, et al. "Ice-Water-Gas Interaction during Icebreaking by an Airgun Bubble." Journal of Marine Science and Engineering 10, no. 9 (2022): 1302. http://dx.doi.org/10.3390/jmse10091302.

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When an airgun releases high-pressure gas underwater below an ice plate, it is observed that a bubble is formed rapidly while the ice plate is broken fiercely. In order to study the ice-water-gas interaction during this transient and violent phenomenon, a set of laboratory-scale devices was designed and a series of icebreaking experiments were carried out. High-speed photography was used to capture the evolution of the bubble and the ice plate. It was found that the airgun bubble had a unique ‘pear’ shape compared with the spherical bubble generated by electric sparking. The pressure induced b
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23

Douglass, Alexander S., and Shima Abadi. "Exploiting passive acoustic recordings of seismic survey datasets." Journal of the Acoustical Society of America 155, no. 3_Supplement (2024): A46. http://dx.doi.org/10.1121/10.0026747.

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Marine seismic reflection surveys provide a dense and abundant dataset covering a large region of geological interest in the ocean. These data provide an opportunity for acoustic analysis with varying environmental characteristics, both in the water column and the seabed. In a typical survey, an airgun array is fired tens to hundreds of thousands of times, and hundreds of receiver channels record the acoustic signal reflected from the seabed after each shot. Additionally, the high amplitude signal broadcast from airgun arrays used in these surveys may be measured passively by hydrophones locat
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24

Eftekhar, Behzad, Mohammad Ghodsi, Ebrahim Ketabchi, and Babak Esmaeeli. "Transorbital cerebellar airgun pellet injury." Neurology India 54, no. 1 (2006): 104. http://dx.doi.org/10.4103/0028-3886.25141.

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25

Dalton, Rex. "Airgun ban halts seismic tests." Nature 451, no. 7174 (2008): 3. http://dx.doi.org/10.1038/451003a.

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26

Carr, T., and C. G. Marks. "CONSERVATIVE MANAGEMENT OF AIRGUN INJURY." Lancet 325, no. 8436 (1985): 1039. http://dx.doi.org/10.1016/s0140-6736(85)91635-6.

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27

Frank, Matthias, Holger Schönekeß, Jörg Herbst, et al. "Subcaliber discarding sabot airgun projectiles." International Journal of Legal Medicine 128, no. 2 (2013): 303–8. http://dx.doi.org/10.1007/s00414-013-0944-2.

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28

LANGHAMMER, JAN, and MARTIN LANDRO. "TEMPERATURE EFFECTS ON AIRGUN SIGNATURES1." Geophysical Prospecting 41, no. 6 (1993): 737–50. http://dx.doi.org/10.1111/j.1365-2478.1993.tb00881.x.

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29

Jamjoom, Abdulhakim B., J. Nigel Rawlinson, and Peter M. Clarke. "Airgun injuries of the brain." Injury 20, no. 6 (1989): 344–46. http://dx.doi.org/10.1016/0020-1383(89)90009-0.

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30

Prior, Mark K., Alexander J. Duncan, H. Ozkan Sertlek, and Michael A. Ainslie. "Modeling Acoustical Pressure and Particle Acceleration Close to Marine Seismic Airguns and Airgun Arrays." IEEE Journal of Oceanic Engineering 44, no. 3 (2019): 611–20. http://dx.doi.org/10.1109/joe.2019.2891873.

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31

Li, Guofa, Mingqiang Cao, Haolin Chen, and Chengzhou Ni. "Modelling the signature of clustered airguns and analysis on the directivity of an airgun array." Journal of Geophysics and Engineering 8, no. 1 (2011): 92–98. http://dx.doi.org/10.1088/1742-2132/8/1/011.

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32

Merdad, Adnan, Mohamed Rawas, and Mohamed Al-Garni. "Airgun Injuries: A National Health Hazard." Annals of Saudi Medicine 12, no. 1 (1992): 43–46. http://dx.doi.org/10.5144/0256-4947.1992.43.

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33

Krishna Murthy Raju, Iderapalli, and Mithal Abdulnabi. "Perineal Sonography to Localize Airgun Pellet." Journal of Diagnostic Medical Sonography 23, no. 4 (2007): 215–17. http://dx.doi.org/10.1177/8756479307304583.

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34

Hildebrand, John, and Bruce D. Cornuelle. "Environmental characterization using airgun seismic sources." Journal of the Acoustical Society of America 146, no. 4 (2019): 3068. http://dx.doi.org/10.1121/1.5137644.

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35

Diebold, John B. "A new airgun array for Conrad." Eos, Transactions American Geophysical Union 68, no. 11 (1987): 155. http://dx.doi.org/10.1029/eo068i011p00155-01.

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36

Pahor, Ahmes L. "Ocular Airgun Injury–an ENT Perspective." Journal of the Royal Society of Medicine 94, no. 11 (2001): 609–10. http://dx.doi.org/10.1177/014107680109401129.

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37

Cook, J. A., and R. S. Dawkins. "Airgun pellet injuries of the neck." Journal of Laryngology & Otology 103, no. 4 (1989): 432–34. http://dx.doi.org/10.1017/s0022215100109181.

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AbstractPenetrating injuries of the neck are a cause of retropharyngeal abscess. Should a foreign body become lodged in the retropharyngeal tissues its removal may avoid this complication, but surgery can in itself be hazardous. Between 10 and 15 per cent of cases of retropharyngeal cellulitis resulting from whatever cause do not progress to abscess formation if treated conservatively. Consequently, it is important to have evidence of abscess formation before surgery is undertaken, as illustrated by this paper in the form of a case report and a review of the current literature.
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38

Iqbal, S., M. M. K. Muqit, B. J. O. Mathews, and F. Bishop. "Trans-oculofacial injury from airgun pellet." Emergency Medicine Journal 24, no. 5 (2007): 370. http://dx.doi.org/10.1136/emj.2006.037408.

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39

de Graaf, K. L., P. A. Brandner, and I. Penesis. "Bubble dynamics of a seismic airgun." Experimental Thermal and Fluid Science 55 (May 2014): 228–38. http://dx.doi.org/10.1016/j.expthermflusci.2014.02.018.

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40

SUYEHIRO, Kiyoshi, Yasuto KUWAHARA, Tadayasu SAIJO, Hideki SHIMAMURA, and Yoshinobu MOTOYA. "Large airgun experiment at Lake Kussharo, Hokkaido." Journal of Physics of the Earth 34, no. 4 (1986): 357–64. http://dx.doi.org/10.4294/jpe1952.34.357.

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41

Jeng, Yih. "Ghost Interference and the Airgun Depth Determination." Terrestrial, Atmospheric and Oceanic Sciences 2, no. 1 (1991): 001. http://dx.doi.org/10.3319/tao.1991.2.1.1(t).

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42

McPherson, Craig, Alexander O. MacGillivray, and Edward Hagar. "Validation of airgun array modelled source signatures." Journal of the Acoustical Society of America 144, no. 3 (2018): 1846. http://dx.doi.org/10.1121/1.5068132.

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43

Bromirski, P. D., L. N. Frazer, and F. K. Duennebier. "Sediment shear Q from airgun OBS data." Geophysical Journal International 110, no. 3 (1992): 465–85. http://dx.doi.org/10.1111/j.1365-246x.1992.tb02086.x.

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44

Langley, J. D., R. N. Norton, J. C. Alsop, and S. W. Marshall. "Airgun injuries in New Zealand, 1979-92." Injury Prevention 2, no. 2 (1996): 114–17. http://dx.doi.org/10.1136/ip.2.2.114.

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45

Cudmore, R. E., and Anne Boothroyd. "WHEN ARE AIRGUN PELLETS BETTER LEFT ALONE?" Lancet 325, no. 8431 (1985): 765–66. http://dx.doi.org/10.1016/s0140-6736(85)91316-9.

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46

Jenkins, RamonB. "WHEN ARE AIRGUN PELLETS BETTER LEFT ALONE?" Lancet 325, no. 8439 (1985): 1213–14. http://dx.doi.org/10.1016/s0140-6736(85)92888-0.

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47

VAAGE, S., and B. URSIN. "COMPUTATION OF SIGNATURES OF LINEAR AIRGUN ARRAYS*." Geophysical Prospecting 35, no. 3 (1987): 281–87. http://dx.doi.org/10.1111/j.1365-2478.1987.tb00818.x.

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48

Hindle, K. S., H. Patel, and A. Huang. "A puzzle: Where was the Airgun Pellet?" Journal of the Royal Society of Medicine 93, no. 11 (2000): 608. http://dx.doi.org/10.1177/014107680009301121.

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49

Chen, Yong, BaoShan Wang, and HuaJian Yao. "Seismic airgun exploration of continental crust structures." Science China Earth Sciences 60, no. 10 (2017): 1739–51. http://dx.doi.org/10.1007/s11430-016-9096-6.

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50

Halvorsen, Michele B., Michael A. Ainslie, and Rene P. A. Dekeling. "Guest Editorial: The International Airgun Modeling Workshop." IEEE Journal of Oceanic Engineering 44, no. 3 (2019): 560–64. http://dx.doi.org/10.1109/joe.2019.2913607.

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