Karen McKee, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 70
Response of salt marsh and mangrove wetlands to changes in atmospheric CO2, climate, and sea-level Response of salt marsh and mangrove wetlands to changes in atmospheric CO2, climate, and sea-level
Coastal salt marsh and mangrove ecosystems are particularly vulnerable to changes in atmospheric CO2 concentrations and associated climate and climate-induced changes. We provide a review of the literature detailing theoretical predictions and observed responses of coastal wetlands to a range of climate change stressors, including CO2, temperature, rainfall, and sea-level rise. This...
Authors
Karen McKee, Kerrylee Rogers, Neil Saintilan
Soil warming alters seed-bank responses across the geographic range of freshwater Taxodium distichum (Cupressaceae) swamps Soil warming alters seed-bank responses across the geographic range of freshwater Taxodium distichum (Cupressaceae) swamps
Premise of the Study: Climate warming is predicted to have far‐reaching effects on the distribution of species, but those effects may depend on the flexibility of regenerating species in responding to climate gradients. We conducted a study to determine whether the variation in the response of seed banks to temperature varied across the latitudinal range of Taxodium distichum swamps in...
Authors
Beth Middleton, Karen McKee
Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems
Habitat stability of coastal ecosystems, such as marshes and mangroves, depends on maintenance of soil elevations relative to sea level. Many such systems are characterized by limited mineral sedimentation and/or rapid subsidence and are consequently dependent upon accumulation of organic matter to maintain elevations. However, little field information exists regarding the contribution...
Authors
Karen McKee
Can differences in phosphorus uptake kinetics explain the distribution of cattail and sawgrass in the Florida Everglades? Can differences in phosphorus uptake kinetics explain the distribution of cattail and sawgrass in the Florida Everglades?
BackgroundCattail (Typha domingensis) has been spreading in phosphorus (P) enriched areas of the oligotrophic Florida Everglades at the expense of sawgrass (Cladium mariscus spp. jamaicense). Abundant evidence in the literature explains how the opportunistic features of Typha might lead to a complete dominance in P-enriched areas. Less clear is how Typha can grow and acquire P at...
Authors
Hans Brix, Bent Lorenzen, Irving Mendelssohn, Karen McKee, ShiLi Miao
Biocomplexity in mangrove ecosystems Biocomplexity in mangrove ecosystems
Mangroves are an ecological assemblage of trees and shrubs adapted to grow in intertidal environments along tropical coasts. Despite repeated demonstration of their economic and societal value, more than 50% of the world's mangroves have been destroyed, 35% in the past two decades to aquaculture and coastal development, altered hydrology, sea-level rise, and nutrient overenrichment...
Authors
Ilka Feller, Catherine Lovelock, U. Berger, Karen McKee, Samantha Joye, M.C. Ball
Elevated CO2 stimulates marsh elevation gain, counterbalancing sea-level rise Elevated CO2 stimulates marsh elevation gain, counterbalancing sea-level rise
Tidal wetlands experiencing increased rates of sea-level rise (SLR) must increase rates of soil elevation gain to avoid permanent conversion to open water. The maximal rate of SLR that these ecosystems can tolerate depends partly on mineral sediment deposition, but the accumulation of organic matter is equally important for many wetlands. Plant productivity drives organic matter dynamics...
Authors
J.A. Langley, K.L. McKee, Donald Cahoon, J. Cherry, J.P. Megonigala
Salt marsh-mangrove interactions in Australasia and the Americas Salt marsh-mangrove interactions in Australasia and the Americas
No abstract available.
Authors
Neil Saintilan, Kerrylee Rogers, Karen McKee
Hurricane Katrina sediment slowed elevation loss in subsiding brackish marshes of the Mississippi River delta Hurricane Katrina sediment slowed elevation loss in subsiding brackish marshes of the Mississippi River delta
Although hurricanes can damage or destroy coastal wetlands, they may play a beneficial role in reinvigorating marshes by delivering sediments that raise soil elevations and stimulate organic matter production. Hurricane Katrina altered elevation dynamics of two subsiding brackish marshes in the Mississippi River deltaic plain by adding 3 to 8 cm of sediment to the soil surface in August...
Authors
K.L. McKee, J. Cherry
Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise
1. Sea-level rise, one indirect consequence of increasing atmospheric CO2, poses a major challenge to long-term stability of coastal wetlands. An important question is whether direct effects of elevated CO 2 on the capacity of marsh plants to accrete organic material and to maintain surface elevations outweigh indirect negative effects of stressors associated with sea-level rise...
Authors
J. Cherry, K.L. McKee, J.B. Grace
Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise
1. Sea-level rise, one indirect consequence of increasing atmospheric CO2, poses a major challenge to long-term stability of coastal wetlands. An important question is whether direct effects of elevated CO 2 on the capacity of marsh plants to accrete organic material and to maintain surface elevations outweigh indirect negative effects of stressors associated with sea-level rise...
Authors
J. Cherry, K.L. McKee, J.B. Grace
Environmental drivers in mangrove establishment and early development: A review Environmental drivers in mangrove establishment and early development: A review
Mangroves have a global distribution within coastal tropical and subtropical climates, and have even expanded to some temperate locales. Where they do occur, mangroves provide a plethora of goods and services, ranging from coastal protection from storms and erosion to direct income for human societies. The mangrove literature has become rather voluminous, prompting many subdisciplines...
Authors
K. W. Krauss, Catherine Lovelock, Karen McKee, Laura Lopez Hoffman, M. Ewe, Wayne Sousa
Where temperate meets tropical: Multi-factorial effects of elevated CO2, nitrogen enrichment, and competition on a mangrove-salt marsh community Where temperate meets tropical: Multi-factorial effects of elevated CO2, nitrogen enrichment, and competition on a mangrove-salt marsh community
Our understanding of how elevated CO2 and interactions with other factors will affect coastal plant communities is limited. Such information is particularly needed for transitional communities where major vegetation types converge. Tropical mangroves (Avicennia germinans) intergrade with temperate salt marshes (Spartina alterniflora) in the northern Gulf of Mexico, and this transitional...
Authors
K.L. McKee, J.E. Rooth
Science and Products
Filter Total Items: 70
Response of salt marsh and mangrove wetlands to changes in atmospheric CO2, climate, and sea-level Response of salt marsh and mangrove wetlands to changes in atmospheric CO2, climate, and sea-level
Coastal salt marsh and mangrove ecosystems are particularly vulnerable to changes in atmospheric CO2 concentrations and associated climate and climate-induced changes. We provide a review of the literature detailing theoretical predictions and observed responses of coastal wetlands to a range of climate change stressors, including CO2, temperature, rainfall, and sea-level rise. This...
Authors
Karen McKee, Kerrylee Rogers, Neil Saintilan
Soil warming alters seed-bank responses across the geographic range of freshwater Taxodium distichum (Cupressaceae) swamps Soil warming alters seed-bank responses across the geographic range of freshwater Taxodium distichum (Cupressaceae) swamps
Premise of the Study: Climate warming is predicted to have far‐reaching effects on the distribution of species, but those effects may depend on the flexibility of regenerating species in responding to climate gradients. We conducted a study to determine whether the variation in the response of seed banks to temperature varied across the latitudinal range of Taxodium distichum swamps in...
Authors
Beth Middleton, Karen McKee
Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems Biophysical controls on accretion and elevation change in Caribbean mangrove ecosystems
Habitat stability of coastal ecosystems, such as marshes and mangroves, depends on maintenance of soil elevations relative to sea level. Many such systems are characterized by limited mineral sedimentation and/or rapid subsidence and are consequently dependent upon accumulation of organic matter to maintain elevations. However, little field information exists regarding the contribution...
Authors
Karen McKee
Can differences in phosphorus uptake kinetics explain the distribution of cattail and sawgrass in the Florida Everglades? Can differences in phosphorus uptake kinetics explain the distribution of cattail and sawgrass in the Florida Everglades?
BackgroundCattail (Typha domingensis) has been spreading in phosphorus (P) enriched areas of the oligotrophic Florida Everglades at the expense of sawgrass (Cladium mariscus spp. jamaicense). Abundant evidence in the literature explains how the opportunistic features of Typha might lead to a complete dominance in P-enriched areas. Less clear is how Typha can grow and acquire P at...
Authors
Hans Brix, Bent Lorenzen, Irving Mendelssohn, Karen McKee, ShiLi Miao
Biocomplexity in mangrove ecosystems Biocomplexity in mangrove ecosystems
Mangroves are an ecological assemblage of trees and shrubs adapted to grow in intertidal environments along tropical coasts. Despite repeated demonstration of their economic and societal value, more than 50% of the world's mangroves have been destroyed, 35% in the past two decades to aquaculture and coastal development, altered hydrology, sea-level rise, and nutrient overenrichment...
Authors
Ilka Feller, Catherine Lovelock, U. Berger, Karen McKee, Samantha Joye, M.C. Ball
Elevated CO2 stimulates marsh elevation gain, counterbalancing sea-level rise Elevated CO2 stimulates marsh elevation gain, counterbalancing sea-level rise
Tidal wetlands experiencing increased rates of sea-level rise (SLR) must increase rates of soil elevation gain to avoid permanent conversion to open water. The maximal rate of SLR that these ecosystems can tolerate depends partly on mineral sediment deposition, but the accumulation of organic matter is equally important for many wetlands. Plant productivity drives organic matter dynamics...
Authors
J.A. Langley, K.L. McKee, Donald Cahoon, J. Cherry, J.P. Megonigala
Salt marsh-mangrove interactions in Australasia and the Americas Salt marsh-mangrove interactions in Australasia and the Americas
No abstract available.
Authors
Neil Saintilan, Kerrylee Rogers, Karen McKee
Hurricane Katrina sediment slowed elevation loss in subsiding brackish marshes of the Mississippi River delta Hurricane Katrina sediment slowed elevation loss in subsiding brackish marshes of the Mississippi River delta
Although hurricanes can damage or destroy coastal wetlands, they may play a beneficial role in reinvigorating marshes by delivering sediments that raise soil elevations and stimulate organic matter production. Hurricane Katrina altered elevation dynamics of two subsiding brackish marshes in the Mississippi River deltaic plain by adding 3 to 8 cm of sediment to the soil surface in August...
Authors
K.L. McKee, J. Cherry
Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise
1. Sea-level rise, one indirect consequence of increasing atmospheric CO2, poses a major challenge to long-term stability of coastal wetlands. An important question is whether direct effects of elevated CO 2 on the capacity of marsh plants to accrete organic material and to maintain surface elevations outweigh indirect negative effects of stressors associated with sea-level rise...
Authors
J. Cherry, K.L. McKee, J.B. Grace
Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise Elevated CO2 enhances biological contributions to elevation change in coastal wetlands by offsetting stressors associated with sea-level rise
1. Sea-level rise, one indirect consequence of increasing atmospheric CO2, poses a major challenge to long-term stability of coastal wetlands. An important question is whether direct effects of elevated CO 2 on the capacity of marsh plants to accrete organic material and to maintain surface elevations outweigh indirect negative effects of stressors associated with sea-level rise...
Authors
J. Cherry, K.L. McKee, J.B. Grace
Environmental drivers in mangrove establishment and early development: A review Environmental drivers in mangrove establishment and early development: A review
Mangroves have a global distribution within coastal tropical and subtropical climates, and have even expanded to some temperate locales. Where they do occur, mangroves provide a plethora of goods and services, ranging from coastal protection from storms and erosion to direct income for human societies. The mangrove literature has become rather voluminous, prompting many subdisciplines...
Authors
K. W. Krauss, Catherine Lovelock, Karen McKee, Laura Lopez Hoffman, M. Ewe, Wayne Sousa
Where temperate meets tropical: Multi-factorial effects of elevated CO2, nitrogen enrichment, and competition on a mangrove-salt marsh community Where temperate meets tropical: Multi-factorial effects of elevated CO2, nitrogen enrichment, and competition on a mangrove-salt marsh community
Our understanding of how elevated CO2 and interactions with other factors will affect coastal plant communities is limited. Such information is particularly needed for transitional communities where major vegetation types converge. Tropical mangroves (Avicennia germinans) intergrade with temperate salt marshes (Spartina alterniflora) in the northern Gulf of Mexico, and this transitional...
Authors
K.L. McKee, J.E. Rooth