Add to ORKGA hydrogeomorphic classification scheme for Great Lakes coastal wetlands is presented. The classification is hierarchical and first divides the wetlands into three broad hydrogeomorphic systems, lacustrine, riverine, and barrier-protected, each with unique hydrologic flow characteristics and residence time. These systems are further subdivided into finer geomorphic types based on physical features and shoreline processes. Each hydrogeomorphic wetland type has associated plant and animal communities and specific physical attributes related to sediment type, wave energy, water quality, and hydrology
A long history of human-induced degradation of Great Lakes wetlands has made restoration a necessity...
More than fifteen years since its inception, the hydrogeomorphic (HGM) approach has yet to be widely...
This classification, to be used in a new inventory of wetlands and deepwater habitats of the United ...
Great Lakes coastal wetlands can be separated into three specific systems based on their dominant hy...
Gauging the impact of manipulative activities, such as rehabilitation or management, on wetlands req...
Most wetland-by-wetland classification and assessment methods currently available fail to provide re...
Most wetland-by-wetland classification and assessment methods currently available fail to provide re...
The wetlands that border Lake Michigan are an extremely important component of the lake ecosystem. W...
A outline of wetland classifications based on the wetland hydrogeomorphic properties of geomorphic s...
Since European settlement, over 50 % of coastal wetlands have been lost in the Laurentian Great Lake...
The Hydrogeomorphic (HGM) Method for wetland functional analysis relies on rapid assessment techniqu...
This publication summarizes the current state of knowledge about Great Lakes coastal wetlands based ...
Managing the world\u27s largest and most complex freshwater ecosystem, the Laurentian Great Lakes, r...
ABSTRACT. Plant taxa identified in 90 U.S. Great Lakes coastal emergent wetlands were evaluated as i...
Since European settlement, over 50% of coastal wetlands have been lost in the Laurentian Great Lakes...
A long history of human-induced degradation of Great Lakes wetlands has made restoration a necessity...
More than fifteen years since its inception, the hydrogeomorphic (HGM) approach has yet to be widely...
This classification, to be used in a new inventory of wetlands and deepwater habitats of the United ...
Great Lakes coastal wetlands can be separated into three specific systems based on their dominant hy...
Gauging the impact of manipulative activities, such as rehabilitation or management, on wetlands req...
Most wetland-by-wetland classification and assessment methods currently available fail to provide re...
Most wetland-by-wetland classification and assessment methods currently available fail to provide re...
The wetlands that border Lake Michigan are an extremely important component of the lake ecosystem. W...
A outline of wetland classifications based on the wetland hydrogeomorphic properties of geomorphic s...
Since European settlement, over 50 % of coastal wetlands have been lost in the Laurentian Great Lake...
The Hydrogeomorphic (HGM) Method for wetland functional analysis relies on rapid assessment techniqu...
This publication summarizes the current state of knowledge about Great Lakes coastal wetlands based ...
Managing the world\u27s largest and most complex freshwater ecosystem, the Laurentian Great Lakes, r...
ABSTRACT. Plant taxa identified in 90 U.S. Great Lakes coastal emergent wetlands were evaluated as i...
Since European settlement, over 50% of coastal wetlands have been lost in the Laurentian Great Lakes...
A long history of human-induced degradation of Great Lakes wetlands has made restoration a necessity...
More than fifteen years since its inception, the hydrogeomorphic (HGM) approach has yet to be widely...
This classification, to be used in a new inventory of wetlands and deepwater habitats of the United ...