diff --git a/CHANGELOG.md b/CHANGELOG.md index 8805ce56..1c151941 100644 --- a/CHANGELOG.md +++ b/CHANGELOG.md @@ -94,6 +94,8 @@ - Improve symbology for "Regional climate models/RACMO model output/Annual mean wind vectors 1958-2019 (5km)" by removing color mapping to magnitude values. This was causing conflicts with other layers' color maps. +- Renamed "Geophysics/Heat flux/Heat flow (Colgan et al.)/Flow from multiple + observations (55km)" to "Gridded heat flow (55km)" ### Removed diff --git a/qgreenland/config/cfg-lock.json b/qgreenland/config/cfg-lock.json index 9200b429..34dfe2f7 100644 --- a/qgreenland/config/cfg-lock.json +++ b/qgreenland/config/cfg-lock.json @@ -593,7 +593,7 @@ }, "id": "geothermal_heat_flow", "metadata": { - "abstract": "Database of all geothermal heat flow measurements within 500 km\nof Greenland's coastline with self-consistent machine-learning\ngeothermal heat flow map over all onshore and offshore areas.\n\nRelated publication:\n\nColgan, W., A. Wansing, K. Mankoff, M. L\u00f6sing, J. Hopper, K. Louden,\nJ. Ebbing, F. Christiansen, T. Ingeman-Nielsen, L. Claesson\nLiljedahl, J. MacGregor, \u00c1. Hjartarson, S. Bernstein, N. Karlsson,\nS. Fuchs, J. Hartikainen, J. Liakka, R. Fausto, D. Dahl-Jensen,\nA. Bj\u00f8rk, J.-O. Naslund, F. M\u00f8rk, Y. Martos, N. Balling, T. Funck,\nK. Kjeldsen, D. Petersen, U. Gregersen, G. Dam, T. Nielsen, S. Khan\nand A. L\u00f8kkegaard. Greenland Geothermal Heat Flow Database and Map\n(Version 1). 2022. Earth Systems Science Data. 14: 2209\u20132238. doi:\n10.5194/essd-14-2209-2022.", + "abstract": "Database of all geothermal heat flow measurements within 500 km of\nGreenland's coastline with self-consistent machine-learning geothermal heat\nflow map over all onshore and offshore areas.\n\nRelated publication:\n\nColgan, W., A. Wansing, K. Mankoff, M. L\u00f6sing, J. Hopper, K. Louden, J.\nEbbing, F. Christiansen, T. Ingeman-Nielsen, L. Claesson Liljedahl, J.\nMacGregor, \u00c1. Hjartarson, S. Bernstein, N. Karlsson, S. Fuchs, J.\nHartikainen, J. Liakka, R. Fausto, D. Dahl-Jensen, A. Bj\u00f8rk, J.-O. Naslund,\nF. M\u00f8rk, Y. Martos, N. Balling, T. Funck, K. Kjeldsen, D. Petersen, U.\nGregersen, G. Dam, T. Nielsen, S. Khan and A. L\u00f8kkegaard. Greenland\nGeothermal Heat Flow Database and Map (Version 1). 2022. Earth Systems\nScience Data. 14: 2209\u20132238. doi: 10.5194/essd-14-2209-2022.\n\nWe compile and analyze all available geothermal heat flow measurements\ncollected in and around Greenland into a new database of 419 sites and\ngenerate an accompanying spatial map. This database includes 290 sites\npreviously reported by the International Heat Flow Commission (IHFC), for\nwhich we now standardize measurement and metadata quality. This database\nalso includes 129 new sites, which have not been previously reported by the\nIHFC. These new sites consist of 88 offshore measurements and 41 onshore\nmeasurements, of which 24 are subglacial. We employ machine learning to\nsynthesize these in situ measurements into a gridded geothermal heat flow\nmodel that is consistent across both continental and marine areas in and\naround Greenland. This model has a native horizontal resolution of 55\u2009km. In\ncomparison to five existing Greenland geothermal heat flow models, our model\nhas the lowest mean geothermal heat flow for Greenland onshore areas. Our\nmodeled heat flow in central North Greenland is highly sensitive to whether\nthe NGRIP (North GReenland Ice core Project) elevated heat flow anomaly is\nincluded in the training dataset. Our model's most distinctive spatial\nfeature is pronounced low geothermal heat flow (<\u200940\u2009mW\u2009m\u22122) across the\nNorth Atlantic Craton of southern Greenland. Crucially, our model does not\nshow an area of elevated heat flow that might be interpreted as remnant from\nthe Icelandic plume track. Finally, we discuss the substantial influence of\npaleoclimatic and other corrections on geothermal heat flow measurements in\nGreenland. The in situ measurement database and gridded heat flow model, as\nwell as other supporting materials, are freely available from the GEUS\nDataverse (https://doi.org/10.22008/FK2/F9P03L; Colgan and Wansing, 2021).", "citation": { "text": "Colgan, William; Wansing, Agnes, 2021, \"Greenland Geothermal\nHeat Flow Database and Map\",\nhttps://doi.org/10.22008/FK2/F9P03L, GEUS Dataverse, V2", "url": "https://doi.org/10.22008/FK2/F9P03L" @@ -13522,7 +13522,7 @@ "children": [ { "layer_cfg": { - "description": "Heat flow measurement database used in the creation of the 'Flow from\nmultiple observations (55km)' layer.", + "description": "Heat flow measurement database used in the creation of the \"Gridded heat flow\n(55km)\" layer.", "id": "geothermal_heat_flow_measurements", "in_package": true, "input": { @@ -13569,7 +13569,7 @@ }, { "layer_cfg": { - "description": "Geothermal heat flow map from machine-learning algorithm (55 km\nnative resolution).", + "description": "Geothermal heat flow map from machine-learning algorithm (55 km\nnative resolution). Gridded from measurements in \"Flow measurement locations\"\nlayer.", "id": "geothermal_heat_flow_map", "in_package": true, "input": { @@ -13641,7 +13641,7 @@ ], "style": "geothermal_heat_flow_map", "tags": [], - "title": "Flow from multiple observations (55km)" + "title": "Gridded heat flow (55km)" }, "name": "geothermal_heat_flow_map" } diff --git a/qgreenland/config/datasets/geothermal_heat_flow.py b/qgreenland/config/datasets/geothermal_heat_flow.py index c38bee9f..7cf2040b 100644 --- a/qgreenland/config/datasets/geothermal_heat_flow.py +++ b/qgreenland/config/datasets/geothermal_heat_flow.py @@ -22,21 +22,46 @@ metadata={ "title": "Greenland Geothermal Heat Flow Database and Map", "abstract": ( - """Database of all geothermal heat flow measurements within 500 km - of Greenland's coastline with self-consistent machine-learning - geothermal heat flow map over all onshore and offshore areas. + """Database of all geothermal heat flow measurements within 500 km of + Greenland's coastline with self-consistent machine-learning geothermal heat + flow map over all onshore and offshore areas. Related publication: - Colgan, W., A. Wansing, K. Mankoff, M. Lösing, J. Hopper, K. Louden, - J. Ebbing, F. Christiansen, T. Ingeman-Nielsen, L. Claesson - Liljedahl, J. MacGregor, Á. Hjartarson, S. Bernstein, N. Karlsson, - S. Fuchs, J. Hartikainen, J. Liakka, R. Fausto, D. Dahl-Jensen, - A. Bjørk, J.-O. Naslund, F. Mørk, Y. Martos, N. Balling, T. Funck, - K. Kjeldsen, D. Petersen, U. Gregersen, G. Dam, T. Nielsen, S. Khan - and A. Løkkegaard. Greenland Geothermal Heat Flow Database and Map - (Version 1). 2022. Earth Systems Science Data. 14: 2209–2238. doi: - 10.5194/essd-14-2209-2022.""" + Colgan, W., A. Wansing, K. Mankoff, M. Lösing, J. Hopper, K. Louden, J. + Ebbing, F. Christiansen, T. Ingeman-Nielsen, L. Claesson Liljedahl, J. + MacGregor, Á. Hjartarson, S. Bernstein, N. Karlsson, S. Fuchs, J. + Hartikainen, J. Liakka, R. Fausto, D. Dahl-Jensen, A. Bjørk, J.-O. Naslund, + F. Mørk, Y. Martos, N. Balling, T. Funck, K. Kjeldsen, D. Petersen, U. + Gregersen, G. Dam, T. Nielsen, S. Khan and A. Løkkegaard. Greenland + Geothermal Heat Flow Database and Map (Version 1). 2022. Earth Systems + Science Data. 14: 2209–2238. doi: 10.5194/essd-14-2209-2022. + + We compile and analyze all available geothermal heat flow measurements + collected in and around Greenland into a new database of 419 sites and + generate an accompanying spatial map. This database includes 290 sites + previously reported by the International Heat Flow Commission (IHFC), for + which we now standardize measurement and metadata quality. This database + also includes 129 new sites, which have not been previously reported by the + IHFC. These new sites consist of 88 offshore measurements and 41 onshore + measurements, of which 24 are subglacial. We employ machine learning to + synthesize these in situ measurements into a gridded geothermal heat flow + model that is consistent across both continental and marine areas in and + around Greenland. This model has a native horizontal resolution of 55 km. In + comparison to five existing Greenland geothermal heat flow models, our model + has the lowest mean geothermal heat flow for Greenland onshore areas. Our + modeled heat flow in central North Greenland is highly sensitive to whether + the NGRIP (North GReenland Ice core Project) elevated heat flow anomaly is + included in the training dataset. Our model's most distinctive spatial + feature is pronounced low geothermal heat flow (< 40 mW m−2) across the + North Atlantic Craton of southern Greenland. Crucially, our model does not + show an area of elevated heat flow that might be interpreted as remnant from + the Icelandic plume track. Finally, we discuss the substantial influence of + paleoclimatic and other corrections on geothermal heat flow measurements in + Greenland. The in situ measurement database and gridded heat flow model, as + well as other supporting materials, are freely available from the GEUS + Dataverse (https://doi.org/10.22008/FK2/F9P03L; Colgan and Wansing, 2021). + """ ), "citation": { "text": ( diff --git a/qgreenland/config/layers/Geophysics/Heat flux/Heat flow (Colgan et al.)/geothermal_heat_flow.py b/qgreenland/config/layers/Geophysics/Heat flux/Heat flow (Colgan et al.)/geothermal_heat_flow.py index 95ba1e42..6be1942a 100644 --- a/qgreenland/config/layers/Geophysics/Heat flux/Heat flow (Colgan et al.)/geothermal_heat_flow.py +++ b/qgreenland/config/layers/Geophysics/Heat flux/Heat flow (Colgan et al.)/geothermal_heat_flow.py @@ -13,11 +13,12 @@ # with a list comprehension as well, as long as you assign it to a variable. geothermal_heat_flow = Layer( id="geothermal_heat_flow_map", - title="Flow from multiple observations (55km)", + title="Gridded heat flow (55km)", style="geothermal_heat_flow_map", description=( """Geothermal heat flow map from machine-learning algorithm (55 km - native resolution).""" + native resolution). Gridded from measurements in "Flow measurement locations" + layer.""" ), tags=[], input=LayerInput( @@ -42,8 +43,8 @@ id="geothermal_heat_flow_measurements", title="Flow measurement locations", description=( - """Heat flow measurement database used in the creation of the 'Flow from - multiple observations (55km)' layer.""" + """Heat flow measurement database used in the creation of the "Gridded heat flow + (55km)" layer.""" ), tags=[], input=LayerInput(