Citation:

j.geomorph.2010.02.012

Name: (Table 3) Age-related trends of desert pavement properties in the Transantarctic Mountains
Creator: James G Bockheim
Published: 2010
License: https://creativecommons.org/licenses/by/3.0/

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Abstract:

Compared to mid-latitude deserts, the properties, formation and evolution of desert pavements and the underlying vesicular layer in Antarctica are poorly understood. This study examines the desert pavements and the vesicular layer from seven soil chronosequences in the Transantarctic Mountains that have developed on two contrasting parent materials: sandstone-dolerite and granite-gneiss. The pavement density commonly ranges from 63 to 92% with a median value of 80% and does not vary significantly with time of exposure or parent material composition. The dominant size range of clasts decreases with time of exposure, ranging from 16-64 mm on Holocene and late Quaternary surfaces to 8-16 mm on surfaces of middle Quaternary and older age. The proportion of clasts with ventifaction increases progressively through time from 20% on drifts of Holocene and late Quaternary age to 35% on Miocene-aged drifts. Desert varnish forms rapidly, especially on dolerite clasts, with nearly 100% cover on surfaces of early Quaternary and older age. Macropitting occurs only on clasts that have been exposed since the Miocene. A pavement development index, based on predominant clast-size class, pavement density, and the proportion of clasts with ventifaction, varnish, and pits, readily differentiated pavements according to relative age. From these findings we judge that desert pavements initially form from a surficial concentration of boulders during till deposition followed by a short period of deflation and a longer period of progressive chemical and physical weathering of surface clasts. The vesicular layer that underlies the desert pavement averages 4 cm in thickness and is enriched in silt, which is contributed primarily by weathering rather than eolian deposition. A comparison is made between desert pavement properties in mid-latitude deserts and Antarctic deserts.

Project(s):

International Polar Year (2007-2008) (IPY)

Coverage:

Median Latitude: -79.085000 * Median Longitude: 162.468667 * South-bound Latitude: -83.750000 * West-bound Longitude: 157.583000 * North-bound Latitude: -77.496000 * East-bound Longitude: 171.000000

Minimum Elevation: 1325.0 m * Maximum Elevation: 1325.0 m

Event(s):

Arena_valley * Latitude: -77.860000 * Longitude: 161.000000 * Location: Transantarctic Mountains

Beacon_Valley * Latitude: -77.850000 * Longitude: 160.600000 * Elevation: 1325.0 m * Location: Ross Sea Region, Antarctica * Method/Device: Sampling by hand (HAND)

Beardmore_glacier * Latitude: -83.750000 * Longitude: 171.000000 * Location: Transantarctic Mountains

Comment:

Data extracted in the frame of a joint ICSTI/PANGAEA IPY effort, see http://doi.pangaea.de/10.1594/PANGAEA.150150

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Comment
1	Event label	Event
2	Latitude of event	Latitude
3	Longitude of event	Longitude
4	Area/locality	Area		Bockheim, James G
5	Description	Description		Bockheim, James G	glaciation
6	Epoch	Epoch		Bockheim, James G
7	Crystal size	Size XX	mm	Bockheim, James G	predom. size range min
8	Crystal size	Size XX	mm	Bockheim, James G	predom. size range max
9	Boulder	Boulder	%	Bockheim, James G
10	Cobble	Cobble	%	Bockheim, James G
11	Pebble	Pebble	%	Bockheim, James G
12	Desert pavement, density	Desert pave dens	%	Bockheim, James G
13	Ventifacts	Ventifact	%	Bockheim, James G	% of clasts
14	Ratio	Ratio		Bockheim, James G	D/L, dark (dolerite, diabase):light (granitic, sandstone)
15	Varnish	Varnish	%	Bockheim, James G	% of clasts
16	Macropitting	Macropitting	%	Bockheim, James G	% of clasts
17	Index	Index		Bockheim, James G	DPDI, desert pavement development index
18	Layer thickness	Thickness	m	Bockheim, James G	of Bv layer
19	Ratio	Ratio		Bockheim, James G	D/Bv pebble
20	Parameter	Parameter		Bockheim, James G	% Si D/Bv, numbers of profiles in parenthesis
21	Depth, relative	Depth rel	m	Bockheim, James G	depth of ghosts

License:

Creative Commons Attribution 3.0 Unported (CC-BY-3.0)

Size:

639 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Event	2 Latitude	3 Longitude	4 Area	5 Description (glaciation)	6 Epoch	7 Size XX [mm] (predom. size range min)	8 Size XX [mm] (predom. size range max)	9 Boulder [%]	10 Cobble [%]	11 Pebble [%]	12 Desert pave dens [%]	13 Ventifact [%] (% of clasts)	14 Ratio (D/L, dark (dolerite, diabase)...)	15 Varnish [%] (% of clasts)	16 Macropitting [%] (% of clasts)	17 Index (DPDI, desert pavement develop...)	18 Thickness [m] (of Bv layer)	19 Ratio (D/Bv pebble)	20 Parameter (% Si D/Bv, numbers of profile...)	21 Depth rel [m] (depth of ghosts)
Arena_valley	-77.860	161.000	Arena Valley	Taylor 2	Late Quaternary	16	32	27	27	30	67	9	18.0	60	0.0	17	0.048	2.80	1/6 (5)	0.130
Arena_valley	-77.860	161.000	Arena Valley	Taylor 3	Late Quaternary	32	64	38	32	18	85	5	35.0	91	0.4	21	0.035	1.60	3/5 (4)	0.180
Arena_valley	-77.860	161.000	Arena Valley	Taylor 4a	Early Quaternary	32	64	41	28	21	83	19	18.0	95	0.7	23	0.068	5.10	2/9 (3)	0.290
Arena_valley	-77.860	161.000	Arena Valley	Taylor 4b	Early Quaternary	32	64	14	34	43	84	20	23.0	99	1.0	25	0.039	2.90	1/6 (2)	0.290
Arena_valley	-77.860	161.000	Arena Valley	Miocene	Miocene	32	64	9	24	51	73	37	4.6	90	1.7	25	0.063	6.50	2/8 (2)	0.210
Beacon_Valley	-77.850	160.600	Beacon Valley	Taylor 2	Late Quaternary	32	64	21	34	31	87	21	61.0	70	0.0	21	0.010	1.10		0.012
Beacon_Valley	-77.850	160.600	Beacon Valley	Taylor 3	Late Quaternary	32	64	26	17	37	86	30	5.8	85	2.0	26	0.072	2.30		0.180
Beacon_Valley	-77.850	160.600	Beacon Valley	Taylor 4	Early Quaternary	16	32	26	12	29	83	28	9.4	95	2.0	26	0.095	6.20		0.340
Beacon_Valley	-77.850	160.600	Beacon Valley	Altar	Miocene	16	32	28	8	23	83	36	24.0	95	2.0	27	0.085	6.60		0.320
Taylor_valley	-77.637	162.842	Taylor Valley	Taylor 2	Late Quaternary	16	32	14	20	46	78	17	2.0	35	0.0	17	0.053	1.80	3/7 (1)	0.084
Taylor_valley	-77.637	162.842	Taylor Valley	Taylor 3	Late Quaternary	16	32	11	23	45	79	15	1.6	28	0.0	17	0.045	2.10	3/16 (2)	0.092
Taylor_valley	-77.637	162.842	Taylor Valley	Taylor 4a	Early Quaternary	16	32	9	15	60	81	25	1.8	48	1.0	22	0.065	2.50		0.160
Taylor_valley	-77.637	162.842	Taylor Valley	Taylor 4b	Early Quaternary	16	32	2	17	68	85	30	1.2	50	0.0	21	0.050	2.10	1/10 (6)	0.110
WrightValley	-77.496	161.787	Wright Valley	Alpine 1	Holocene	16	32	20	10	20	76	11	2.7	19	0.0	16	0.022	0.75		0.000
WrightValley	-77.496	161.787	Wright Valley	Alpine 2	Late Quaternary	16	32	16	19	51	83	20	0.8	32	0.0	18	0.022	1.50	2/9 (1)	0.037
WrightValley	-77.496	161.787	Wright Valley	Alpine 3	Pliocene	16	32	3	14	74	83	36	6.2	69	0.0	23	0.073	4.30	8/10(1)	0.170
WrightValley	-77.496	161.787	Wright Valley	Alpine 4	Pliocene	16	32	4	10	74	83	38	4.1	72	0.0	24	0.068	3.00		0.170
WrightValley	-77.496	161.787	Wright Valley	Hummocky 1	Late Quaternary	16	32	3	10	64	80	26	2.0	37	0.0	19	0.014	2.40	0/1 (4)	0.016
WrightValley	-77.496	161.787	Wright Valley	Loke	Middle Quaternary	16	32				86	41	5.3	61	0.0	23
WrightValley	-77.496	161.787	Wright Valley	Hummocky 2	Middle Quaternary	16	32	4	8	58	75	31	2.5	42	0.0	20	0.038	1.70		0.110
WrightValley	-77.496	161.787	Wright Valley	Trilogy	Middle Quaternary	16	32				85	39	2.0	51	0.0	22
WrightValley	-77.496	161.787	Wright Valley	Onyx	Pliocene	16	32	14	13	59	80	35	2.2	50	0.0	21	0.042	1.60	1/3 (2)	0.094
WrightValley	-77.496	161.787	Wright Valley	Wright	Pliocene	16	32	10	16	66	82	23	2.1	32	0.0	19	0.039	1.30	1/3 (3)	0.100
WrightValley	-77.496	161.787	Wright Valley	Valkyrie	Pliocene	16	32				73	33	1.7	36	0.0	19
WrightValley	-77.496	161.787	Wright Valley	Loop	Pliocene	16	32	7	7	78	82	43	2.7	55	0.0	22	0.070	3.10		0.073
WrightValley	-77.496	161.787	Wright Valley	Peleus	Pliocene	16	32	4	12	73	81	37	26.0	40	0.0	20	0.065	3.20	2/11 (2)	0.095
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Plunket	Holocene	32	64	10	20	50	74	14	2.5	24	0.0	15	0.015	0.80		0.000
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Beardmore	Late Quaternary	16	32	22	25	35	91	25	3.3	38	0.0	19	0.016	1.20		0.006
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Meyer	Late Quaternary	16	32	22	23	38	94	26	8.4	48	0.0	21	0.028	1.20		0.068
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Pre-Meyer	Middle Quaternary	32	64	19	30	43	92	24	7.2	60	1.0	22	0.056	1.80		0.110
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Dominion	Pliocene	16	32	8	10	67	91	30	84.0	57	0.0	22	0.077	3.00		0.130
Beardmore_glacier	-83.750	171.000	Beardmore Glacier	Sirius	Miocene	16	32	8	9	71	94	50	23.0	84	2.0	28	0.051	3.50		0.120
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Hatherton	Holocene	16	256	75	15	4	84	36	2.3	55	0.0	20
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Britannia 1	Late Quaternary	16	32	32	24	38	84	24	15.0	46	0.0	20	0.020	0.84		0.021
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Britannia 2	Late Quaternary	16	32	26	24	42	91	25	6.2	48	0.0	18	0.022	0.98		0.110
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Danum	Late Quaternary	16	32	21	24	47	85	35	4.0	59	1.0	23	0.040	1.50		0.140
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Isca	Middle Quaternary	16	32	17	26	46	87	39	6.0	64	2.0	25	0.031	1.40		0.210
Hatherton_glacier	-79.917	157.583	Hatherton Glacier	Pre-Isca	Pliocene	16	32	5	14	70	76	41	44.0	82	4.0	29	0.033	2.00		0.240