Journal ArticleDOI
Effects of submergence on the growth of Phragmites australis seedlings
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TLDR
The capacity of young reed plants to resist a 4 weeks submergence stress within a 5 months period, and their subsequent recovery, and the interactions between submergence depth and the age of the seedlings at submergence are investigated.About:
This article is published in Aquatic Botany.The article was published on 2001-04-01. It has received 127 citations till now. The article focuses on the topics: Seedling & Phragmites.read more
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Progress in Botany
TL;DR: Ant–plant interactions resulting in dispersal and distribution of plants, and moreover, in respect to speciation and to evolution of high ranked taxa within the fungi, discussed mainly in relation to the genus Pleurotus and the order Boletales.
Journal ArticleDOI
Phragmites australis management in the United States: 40 years of methods and outcomes
Eric L. G. Hazelton,Eric L. G. Hazelton,Thomas J. Mozdzer,Thomas J. Mozdzer,David M. Burdick,Karin M. Kettenring,Karin M. Kettenring,Dennis F. Whigham +7 more
TL;DR: This model of Phragmites establishment and reproduction describes the invasion as a symptom of watershed-scale land use and disturbance and advocates more holistic approaches to control and management that focus on improving water quality and minimizing human disturbance to deter future invasion and improve resilience of native plant communities.
Journal ArticleDOI
Structure, growth dynamics and biomass of reed (Phragmites australis) – A review
TL;DR: Observations on germination, growth dynamics, biomass, effects of habitat conditions such as temperature, salinity, nutrient supply and water depth, and the potential genetic determinacy behind the response of reed to environmental changes are evaluated.
Journal ArticleDOI
Plant functional group identity and diversity determine biotic resistance to invasion by an exotic grass.
TL;DR: Functional group identity and diversity of resident plant communities are good indicators of biotic resistance to invasion by introduced Phragmites australis, suggesting niche preemption (priority effect) and niche partitioning (diversity effect) as underlying mechanisms.
Journal ArticleDOI
Phragmites australis invasion and expansion in tidal wetlands: Interactions among salinity, sulfide, and hydrology
TL;DR: In this paper, the invasion sites of Phragmites in polyhaline tidal wetlands are identified as the upland fringe and some high marsh creek banks, and the zones of potential invasion tend to be larger in higher-salinity portions of estuaries and in marshes that have been altered hydrologically.
References
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Journal ArticleDOI
Interpreting phenotypic variation in plants.
TL;DR: Comparing plants as a function of plant size or developmental stage, as well as afunction of age, broadens the understanding of phenotypic variation between plants.
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Mechanisms of flood tolerance in plants
TL;DR: Introduction 307 Tolerance involving gas transport 310 Surface rooting 310 Gas-space development and diffusion 311 Root-shoot, root-rhizome and root-root junctions 315 Convective gas flows 315 Shoot and foliage submergence 319 Radial oxygen loss and the rhizosphere 322 T tolerance involving metabolic adaptation 324 Control of energy metabolism under oxygen deprivation
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Evolutionary processes in aquatic plant populations
TL;DR: A survey of electrophoretic variation in 81 aquatic taxa revealed that the distribution of genetic diversity within and among populations of emergent species, as in their terrestrial counterparts, appears to be determined primarily by their breeding systems and life histories.
Book
Plant life in aquatic and amphibious habitats
TL;DR: Part I: Aquatic plants The aquatic environment Photosynthesis under water Growth, development and dispersal in aquatic plants Part II: Amphibious plants and flooding tolerance Oxygen stress in seeds and seedlings Root physiology under oxygen stress Whole plant responses to oxygen stress