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Full-Text Articles in Life Sciences
Seedling Emergence Patterns Of Six Restoration Species In Soils From Two Big Sagebrush Plant Communities, Lacey E. Wilder, Kari E. Veblen, Eugene W. Schupp, Thomas A. Monaco
Seedling Emergence Patterns Of Six Restoration Species In Soils From Two Big Sagebrush Plant Communities, Lacey E. Wilder, Kari E. Veblen, Eugene W. Schupp, Thomas A. Monaco
Ecology Center Publications
Despite the critical need to improve degraded herbaceous understory conditions in many semiarid ecosystems, the influence of soil properties on seedling emergence of species seeded in shrubland plant communities is largely unexplored. We evaluated emergence patterns of 6 restoration species in soils from wyomingensis (i.e., Wyoming big sagebrush, Artemisia tridentata ssp. wyomingensis [Beetle & A. Young] S.L. Welsh) and vaseyana (i.e., mountain big sagebrush, A. t. ssp. vaseyana [Rydb.] Beetle) plant communities that differed in soil texture, soil organic matter content, and soil water-holding capacity. We conducted 2 separate experiments that regularly wetted soils to standardized soil water potentials (i.e., …
Chronosequence And Direct Observation Approaches Reveal Complementary Community Dynamics In A Novel Ecosystem, Andrew Kulmatiski, Karen H. Beard
Chronosequence And Direct Observation Approaches Reveal Complementary Community Dynamics In A Novel Ecosystem, Andrew Kulmatiski, Karen H. Beard
Ecology Center Publications
Non-native, early-successional plants have been observed to maintain dominance for decades, particularly in semi-arid systems. Here, two approaches were used to detect potentially slow successional patterns in an invaded semi-arid system: chronosequence and direct observation. Plant communities in 25 shrub-steppe sites that represented a 50-year chronosequence of agricultural abandonment were monitored for 13 years. Each site contained a field abandoned from agriculture (ex-arable) and an adjacent never-tilled field. Ex-arable fields were dominated by short-lived, non-native plants. These ‘weedy’ communities had lower species richness, diversity and ground cover, and greater annual and forb cover than communities in never-tilled fields. Never-tilled fields …