Wednesday
Nov012017

"Developing a Conceptual Framework of Landscape and Hydrology on Tallgrass Prairie: A Critical Zone Approach"

TPOS note:

 

New interdisciplinary research published in the Vadose Zone Journal integrates ecology, climate, hydrology, and soils at Konza Prairie, a reference site for the tallgrass prairie ecosystem. While this paper may lack immediate applications, it provides a long view on grassland management.

 

Check out the abstract below or follow this link to the article (this article is not open access): https://dl.sciencesocieties.org/publications/vzj/abstracts/0/0/vzj2017.03.0069

 

Core Ideas: 
  • Konza Prairie is a reference ecosystem for evaluation of current and former grasslands.
  • Hydrologic change includes climatic and geologic factors such as karstification.
  • Future research is needed to expand vadose zone knowledge.

Abstract

Agricultural intensification and urbanization have greatly reduced the extent of tallgrass prairie across North America. To evaluate the impact of these changes, a reference ecosystem of unperturbed prairie is required. The Konza Prairie Biological Station in northeastern Kansas is a long-term research site at which a critical zone approach has been implemented. Integration of climatic, ecologic, and hydropedologic research to facilitate a comprehensive understanding of the complex environment provides the basis for predicting future aquifer and landscape evolution. We present a conceptual framework of the hydrology underpinning the area that integrates the extensive current and past research and provides a synthesis of the literature to date. The key factors in the hydrologic behavior of Konza Prairie are climate, ecology, vadose zone characteristics and management, and groundwater and bedrock. Significant interactions among these factors include bedrock dissolution driven by cool-season precipitation and hence a climatic control on the rate of karstification. Soil moisture dynamics are influenced at various timescales due to the short- and long-term effects of prescribed burning on vegetation and on soil physical characteristics. The frequency of burning regimes strongly influences the expansion of woody species in competition with native tallgrasses, with consequent effects on C and N dynamics within the vadose zone. Knowledge gaps exist pertaining to the future of Konza Prairie (a model for US tallgrass prairie)—whether continued karstification will lead to increasingly flashy and dynamic hydrology and whether compositional changes in the vegetation will affect long-term changes in water balances.

Citation:

Vero, S.E., G.L. Macpherson, P.L. Sullivan, A.E. Brookfield, J.B. Nippert, M.F. Kirk, S. Datta, and P. Kempton. 2017. Developing a Conceptual Framework of Landscape and Hydrology on Tallgrass Prairie: A Critical Zone Approach. Vadose Zone J. 0. doi:10.2136/vzj2017.03.0069

PrintView Printer Friendly Version

Reader Comments

There are no comments for this journal entry. To create a new comment, use the form below.

PostPost a New Comment

Enter your information below to add a new comment.

My response is on my own website »
Author Email (optional):
Author URL (optional):
Post:
 
Some HTML allowed: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <code> <em> <i> <strike> <strong>