Great Basin semi-arid woodland dynamics during the late quaternary
- Univ. and Community College System of Nevada, Reno, NV (United States); and others
Semi-arid woodlands have dominated the middle elevations of Great Basin mountain ranges during the Holocene where subalpine woodlands prevailed during the Pleistocene. Ancient woodrat middens, and in a few cases pollen records indicate in the late Pleistocene and early Holocene woodland history lowered elevation of subalpine woodland species. After a middle Holocene retrenchment at elevations in excess of 500 meters above today, Juniper-dominated semi-arid woodland reached its late Holocene maximum areal extent during the Neoglacial (2 to 4 ka). These records, along with others indicate contracting semi-arid woodland after the Neoglacial about 1.9 ka. Desert shrub community expansion coupled with increased precariousness of wetland areas in the southern Great Basin between 1.9 and 1.5 ka coincide with shrinking wet-lands in the west-central and northern Great Basin. Coincident greater grass abundance in northern Great Basin sagebrush steppe, reaching its maximum between 1.5 and 1.2 ka, corresponds to dramatic increases in bison remains in the archaeological sites of the northern Intermontane West. Pollen and woodrat midden records indicate that this drought ended about 1.5 ka. Succeeding ameliorating conditions resulted in the sudden northward and downward expansion of pinon into areas that had been dominated by juniper during the Neoglacial. Maximum areal extent of pinon dominated semi-arid woodland in west-central Nevada was centered at 1.2 ka. This followed by 100 years the shift in dominance from juniper to pinon in southern Nevada semi-arid woodlands. Great Basin woodlands suffered from renewed severe droughts between .5 to .6 ka. Effectively wetter conditions during the {open_quotes}Little Ice Age{close_quotes} resulted in re-expansion of semi-arid woodland. Activities related to European settlement in the Great Basin have modified prehistoric factors or imposed new ones that are affecting woodland response to climate.
- Research Organization:
- Rust Geotech, Inc., Grand Junction, CO (United States)
- OSTI ID:
- 198215
- Report Number(s):
- CONF-9409325-; ON: DE96003275; TRN: 96:001174-0006
- Resource Relation:
- Conference: Workshop on climate change in the four corners and adjacent regions: implications for environmental restoration and land-use planning, Grand Junction, CO (United States), 12-14 Sep 1994; Other Information: PBD: Sep 1995; Related Information: Is Part Of Climate change in the four corners and adjacent regions: Implications for environmental restoration and land-use planning; Waugh, W.J. [ed.]; PB: 199 p.
- Country of Publication:
- United States
- Language:
- English
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