16 Result(s)
within
John L. Gallagher
Life Sciences
-
Article
Macrophyte disturbance alters aquatic surface microlayer structure, metabolism, and fate
Macrophytes drive the functioning of many salt marsh ecosystem components. We questioned how temporary clearing of the macrophyte community, during restoration, would impact processes at the scale of the aquat...
-
Article
Differential population response of allocation, phenology, and tissue chemistry in Spartina alterniflora
Phenotypic variation within species is widespread among salt marsh plants. For Spartina alterniflora, the dominant species of low intertidal wetlands across the Altantic and Gulf coasts of the US, distinct phenol...
-
Article
Salt Marsh Carbon Pool Distribution in a Mid-Atlantic Lagoon, USA: Sea Level Rise Implications
The distribution of carbon (C) within a salt marsh may vary among vegetation zones depending on production and decomposition dynamics and organic and mineral depositional history. We examined spatial and tempo...
-
Article
Root-secreted Allelochemical in the Noxious Weed Phragmites Australis Deploys a Reactive Oxygen Species Response and Microtubule Assembly Disruption to Execute Rhizotoxicity
Phragmites australis is considered the most invasive plant in marsh and wetland communities in the eastern United States. Although allelopathy has been considered as a possible displacing...
-
Article
Predicting the Effectiveness of Phragmites Control Measures using a Rhizome Growth Potential Bioassay
In the last century, Phragmites australis (common reed) has expanded from a minor component of the mid-Atlantic tidal wetlands to a dominant species in many locations. Expansion of Phragmites results in decreased...
-
Article
Blocking Phragmites australis reinvasion of restored marshes using plants selected from wild populations and tissue culture
This study tested a vegetation strategy for controlling Phragmites australis invasion into brackish marshes as an alternative to the current technique of repeated herbicide sprays followed by burning. This strate...
-
Chapter and Conference Paper
Cellular Responses To Salinity Of Two Coastal Halophytes With Different Whole Plant Tolerance: Kosteletzkya Virginica (L.) Presl. And Sporobolus Virginicus (L.) Kunth
At the whole plant level, Sporobolus virginicus is more salt-tolerant than Kosteletzkya virginica. Cellular level (callus and protoplast) responses to salinity are reported here. The callus of Kosteletzkya had hi...
-
Article
Tissue culture and plant regeneration of the salt marsh monocots Juncus roemerianus and Juncus gerardi
Tissue culture and plant regeneration protocols for the salt marsh plants Juncus roemerianus Scheele and Juncus gerardi Loisel, were developed. J. roemerianus callus was induced from mature seeds cultured on Mura...
-
Article
Seedling sulfide sensitivity among plant species colonizing Phragmites-infested wetlands
Seedling establishment is an important means of re-colonizing herbicide-treated and burned Phragmites australis marshes and of filling in newly created or naturally forming marshes. Knowing the differential sensi...
-
Article
Tissue culture and plant regeneration of Spartina alterniflora: Implications for wetland restoration
A tissue culture and plant regeneration protocol for the salt marsh grass, Spartina alterniflora, has been developed. Callus was efficiently induced on Murashige and Skoog (MS) medium supplemented with 1 mg L−1 2...
-
Article
Resistance to salinity of Alnus maritima from disjunct wetlands: Symptoms of salt injury, comparison to other shrubs, and effect of inundation
Alnus maritima (seaside alder) occurs in wet or flooded soils on the Delmarva Peninsula (southern Delaware and adjacent counties of eastern Maryland, USA) and in small niches in Georgia and Oklahoma. Although som...
-
Article
Tissue culture and plant regeneration of big cordgrass,Spartina cynosuroides: implications for wetland restoration
Big cordgrass,Spartina cynosuroides (Poaceae), grows in extensive stands in brackish marshes along the Atlantic and Gulf coasts of the United States and along the margins of tidal streams where freshwater wetland...
-
Article
Regeneration of Kosteletzkya virginica (L.) Presl. (Seashore Mallow) from callus cultures
Organogenic callus cultures of seashore mallow, Kosteletzkya virginica (L.) Presl., originated from excised mature embryos or stem sections of aseptically germinated plants initially cultured on Murashige & Skoog...
-
Article
Tissue culture and long-term regeneration of Phragmites australis (Cav.) Trin. ex Steud.
Phragmites australis tissue cultures were initiated from mature seeds on MS medium supplemented with 1 mgl-1 each of 2,4-D and IAA. Cultures displayed typical embryogenic callus that was compact and bright yello...
-
Article
Halophytic crops for cultivation at seawater salinity
Several hundred halophytes from salt marshes and salt deserts of the world have been evaluated in our laboratory at various degrees of intensity, and a few have been selected for development as crops. The deve...
-
Chapter
Halophytic crops for cultivation at seawater salinity
Several hundred halophytes from salt marshes and salt deserts of the world have been evaluated in our laboratory at various degrees of intensity, and a few have been selected for development as crops. The deve...
