Airborne Temperature Survey of Harrison Bay
During 10 August 1973 while conducting an oceanographic program in deep waters off the North Slope of Alaska, an opportunity arose to make an airborne radiation thermometer (ART) flight to map the surface water temperature of Harrison Bay . Little is known about the oceanography of the Bay. Yet this...
| Published in: | ARCTIC |
|---|---|
| Main Authors: | , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
The Arctic Institute of North America
1974
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| Subjects: | |
| Online Access: | https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907 |
| id |
ftunivcalgaryojs:oai:journalhosting.ucalgary.ca:article/65907 |
|---|---|
| record_format |
openpolar |
| institution |
Open Polar |
| collection |
University of Calgary Journal Hosting |
| op_collection_id |
ftunivcalgaryojs |
| language |
English |
| topic |
Buoys Fast ice Ice forecasting Mathematical models Movement Sea ice M'Clure Strait N.W.T Parry Channel N.W.T./Nunavut Viscount Melville Sound |
| spellingShingle |
Buoys Fast ice Ice forecasting Mathematical models Movement Sea ice M'Clure Strait N.W.T Parry Channel N.W.T./Nunavut Viscount Melville Sound Hufford, Gary L. Bowman, Richard D. Airborne Temperature Survey of Harrison Bay |
| topic_facet |
Buoys Fast ice Ice forecasting Mathematical models Movement Sea ice M'Clure Strait N.W.T Parry Channel N.W.T./Nunavut Viscount Melville Sound |
| description |
During 10 August 1973 while conducting an oceanographic program in deep waters off the North Slope of Alaska, an opportunity arose to make an airborne radiation thermometer (ART) flight to map the surface water temperature of Harrison Bay . Little is known about the oceanography of the Bay. Yet this zone may well come under considerable, if not great, environmental stresses stemming from present localization of resource development and exploitation. This paper presents a summary of the results of the low-altitude ART flight. . A Barnes Engineering Company PRT-5, 9.5-11.5 µ Infrared Radiometer with a field of view of 2 degrees was used . The temperature survey was carried out using 2 helicopters . flying a grid pattern and measuring the surface temperature along the flight track. The flight was conducted at a nominal altitude of 46 metres, with a flight speed of 150 km/hr. Navigation was done by visual contact with the coast and by radar tracking from the Glacier. Clear, cloud-free conditions existed in the entire study area during the survey. Continuous winds (>3.0 m/sec) mixed the surface waters so that the radiometer measurements are representative of bulk temperature rather than the skin temperature of the water. The ART equipment was calibrated before, during, and after the flight. . Contours of the surface-water temperature distribution of Harrison Bay are presented . Two major features are exhibited: the lack of large river effluent plumes; and the penetration of relatively cold water from the west into Harrison Bay. The weak packing of isotherms (4° to 8°C) near the Colville River delta indicates that river runoff was very low in early August and freshwater influence was restricted to near the shore. This was expected. . the Colville River has a total annual discharge of 16 × 10**9 m³ of which 80 per cent occurs the first twenty days of June. During the rest of the summer, river flow is very low. In the second feature . the 3°C isotherm represented the boundary of the cold water and was accompanied by a sharp colour separation: offshore of the isotherm the water was green whereas inshore the water was brown. It is also interesting to note that the 3°C isotherm paralleled the 5.5 metre isobath in Harrison Bay. Along the North Slope coast, surface currents depend largely on local winds, are highly variable (0 to 60 cm/sec), and may even reverse direction . The wind is generally from the east during the summer and rarely exceeds 10 m/sec. However, from 6 to 11 August 1973, the wind direction was from the west-southwest at an average of 4 m/sec. This was sufficient to cause the nearshore waters to flow easterly, pushing the colder coastal waters into Harrison Bay. Assuming steady state conditions the magnitude of the wind-driven cold-water current was 12 cm/sec. The pocket of <4°C water near Cape Halkett . may represent an eddy. The surface water temperature distribution of Harrison Bay observed 10 August 1973 is probably unique in that the winds were blowing from the west causing the presence of a tongue of cold water to occur which covered a great part of the bay. However, the data should add to our sparse understanding of the area and point out the need for continued study. |
| format |
Article in Journal/Newspaper |
| author |
Hufford, Gary L. Bowman, Richard D. |
| author_facet |
Hufford, Gary L. Bowman, Richard D. |
| author_sort |
Hufford, Gary L. |
| title |
Airborne Temperature Survey of Harrison Bay |
| title_short |
Airborne Temperature Survey of Harrison Bay |
| title_full |
Airborne Temperature Survey of Harrison Bay |
| title_fullStr |
Airborne Temperature Survey of Harrison Bay |
| title_full_unstemmed |
Airborne Temperature Survey of Harrison Bay |
| title_sort |
airborne temperature survey of harrison bay |
| publisher |
The Arctic Institute of North America |
| publishDate |
1974 |
| url |
https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907 |
| long_lat |
ENVELOPE(-100.253,-100.253,76.752,76.752) ENVELOPE(-115.999,-115.999,74.498,74.498) ENVELOPE(-107.002,-107.002,68.168,68.168) ENVELOPE(-62.417,-62.417,-64.283,-64.283) ENVELOPE(-109.836,-109.836,74.046,74.046) |
| geographic |
Cape Halkett M'Clure Strait Melville Sound Nunavut Parry Viscount Melville Sound |
| geographic_facet |
Cape Halkett M'Clure Strait Melville Sound Nunavut Parry Viscount Melville Sound |
| genre |
Arctic glacier M'Clure Strait north slope Nunavut Parry Channel Sea ice Viscount Melville Sound Alaska |
| genre_facet |
Arctic glacier M'Clure Strait north slope Nunavut Parry Channel Sea ice Viscount Melville Sound Alaska |
| op_source |
ARCTIC; Vol. 27 No. 1 (1974): March: 1–88; 69-70 1923-1245 0004-0843 |
| op_relation |
https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907/49821 https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907 |
| container_title |
ARCTIC |
| container_volume |
27 |
| container_issue |
1 |
| _version_ |
1766290991391703040 |
| spelling |
ftunivcalgaryojs:oai:journalhosting.ucalgary.ca:article/65907 2023-05-15T14:19:19+02:00 Airborne Temperature Survey of Harrison Bay Hufford, Gary L. Bowman, Richard D. 1974-01-01 application/pdf https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907 eng eng The Arctic Institute of North America https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907/49821 https://journalhosting.ucalgary.ca/index.php/arctic/article/view/65907 ARCTIC; Vol. 27 No. 1 (1974): March: 1–88; 69-70 1923-1245 0004-0843 Buoys Fast ice Ice forecasting Mathematical models Movement Sea ice M'Clure Strait N.W.T Parry Channel N.W.T./Nunavut Viscount Melville Sound info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion research-article 1974 ftunivcalgaryojs 2022-03-22T21:22:54Z During 10 August 1973 while conducting an oceanographic program in deep waters off the North Slope of Alaska, an opportunity arose to make an airborne radiation thermometer (ART) flight to map the surface water temperature of Harrison Bay . Little is known about the oceanography of the Bay. Yet this zone may well come under considerable, if not great, environmental stresses stemming from present localization of resource development and exploitation. This paper presents a summary of the results of the low-altitude ART flight. . A Barnes Engineering Company PRT-5, 9.5-11.5 µ Infrared Radiometer with a field of view of 2 degrees was used . The temperature survey was carried out using 2 helicopters . flying a grid pattern and measuring the surface temperature along the flight track. The flight was conducted at a nominal altitude of 46 metres, with a flight speed of 150 km/hr. Navigation was done by visual contact with the coast and by radar tracking from the Glacier. Clear, cloud-free conditions existed in the entire study area during the survey. Continuous winds (>3.0 m/sec) mixed the surface waters so that the radiometer measurements are representative of bulk temperature rather than the skin temperature of the water. The ART equipment was calibrated before, during, and after the flight. . Contours of the surface-water temperature distribution of Harrison Bay are presented . Two major features are exhibited: the lack of large river effluent plumes; and the penetration of relatively cold water from the west into Harrison Bay. The weak packing of isotherms (4° to 8°C) near the Colville River delta indicates that river runoff was very low in early August and freshwater influence was restricted to near the shore. This was expected. . the Colville River has a total annual discharge of 16 × 10**9 m³ of which 80 per cent occurs the first twenty days of June. During the rest of the summer, river flow is very low. In the second feature . the 3°C isotherm represented the boundary of the cold water and was accompanied by a sharp colour separation: offshore of the isotherm the water was green whereas inshore the water was brown. It is also interesting to note that the 3°C isotherm paralleled the 5.5 metre isobath in Harrison Bay. Along the North Slope coast, surface currents depend largely on local winds, are highly variable (0 to 60 cm/sec), and may even reverse direction . The wind is generally from the east during the summer and rarely exceeds 10 m/sec. However, from 6 to 11 August 1973, the wind direction was from the west-southwest at an average of 4 m/sec. This was sufficient to cause the nearshore waters to flow easterly, pushing the colder coastal waters into Harrison Bay. Assuming steady state conditions the magnitude of the wind-driven cold-water current was 12 cm/sec. The pocket of <4°C water near Cape Halkett . may represent an eddy. The surface water temperature distribution of Harrison Bay observed 10 August 1973 is probably unique in that the winds were blowing from the west causing the presence of a tongue of cold water to occur which covered a great part of the bay. However, the data should add to our sparse understanding of the area and point out the need for continued study. Article in Journal/Newspaper Arctic glacier M'Clure Strait north slope Nunavut Parry Channel Sea ice Viscount Melville Sound Alaska University of Calgary Journal Hosting Cape Halkett ENVELOPE(-100.253,-100.253,76.752,76.752) M'Clure Strait ENVELOPE(-115.999,-115.999,74.498,74.498) Melville Sound ENVELOPE(-107.002,-107.002,68.168,68.168) Nunavut Parry ENVELOPE(-62.417,-62.417,-64.283,-64.283) Viscount Melville Sound ENVELOPE(-109.836,-109.836,74.046,74.046) ARCTIC 27 1 |