Management strategies for the reed Phragmites australis (CAV.) Steud. at Mai Po Marshes Nature Reserve, Hong Kong, with observations on theassociated insect Fauna

Reels, Graham Thomas.

January 1994

published_or_final_version / Zoology / Master / Master of Philosophy

Impacts of Cattle Grazing as a Tool to Control <i>Phragmites australis</i> in Wetlands on Nitrogen, Phosphorus, and Carbon

Duncan, Brittany L.

01 May 2019

Phragmites australis is a plant that is causing problems in wetlands by outcompeting native plants that provide food and shelter for millions of migratory birds. Currently, managers try to control Phragmites australis by spraying herbicide, burning, and mowing, but these methods are costly, time consuming, and have low levels of success. Adding grazing as a tool to control Phragmites australis provides a cheap and low labor alternative. However, there are many concerns regarding if grazing will cause nutrient loading in our wetlands that will decrease water quality and alter beneficial functions of wetlands. To better understand the effects of grazing in wetlands, we proposed a two-year study and received funding from many organizations including the Utah Department of Fire, Forestry, and State Lands, South Davis Sewer District, and the Utah Department of Environmental Quality and Water Quality. Also, the Utah Department of Natural Resources helped tremendously in allowing access to the sites, in the actual implementation of the project, coordinating with local ranchers who allowed for their cattle to be in the study, managed their cattle during the study, and assisted with fence installation, and many volunteers from Utah dedicated hunters helped with the fence installation. We collected water, manure, soil, and leaf samples over time to analyze nutrient changes and measured changes in the plants, water levels, soil cover, and litter cover over time. We then compiled and analyzed this information to better understand how grazing impacts our wetlands. As a result, we were able to make some recommendations for future research and how best to graze in wetlands with minimal impacts according to the information we found.

Phragmites australis

Wetlands

Grazing

Nutrients

Ecology and Evolutionary Biology

Empirical investigation of water pollution control through use of Phragmites australis

Al Akeel, Khaled

January 2013

This research study addresses a problem of water pollution caused by heavy and toxic metals Cd, Cr, Cu and Pb. The thesis proposes the use of the technique of phytoremediation using Phragmites australis (PA) plants that have the capacity to absorb and to accumulate such metals in their roots and leaves. The metal uptake and their location of accumulation in the PA plants were determined using flame atomic absorption spectroscopy (FAAS) and transmission electron microscopy (TEM) respectively. Leachates from contaminated plant biomass were mixed with silver nitrate to assess the manufacture of metal nanoparticles as an added value step in the process from remediation to biomass disposal. Silver nanoparticles were readily manufactured by the leachates without, with the exception of copper, any incorporation of the pollutant metal. The presence of copper in the manufactured silver nanoparticles may be of some commercial use. The results obtained show that PA plants will accumulate toxic metals when in hydroponic culture and that the majority of the accumulated metals are sequestered in the roots and do not enter the aerial parts of the plants in significant amounts. Silver nanoparticles were manufactured from the biomass using a low energy route with no additional chemicals, apart from silver nitrate thus reducing the environmental load that would otherwise be present if a chemical means of nanoparticle production was used.

363.7

Accumulation and transformation of DDT and PCBs by Phragmites australis and Oryza sativa L.

Chu, Wing Kei

01 January 2004

No description available.

Analysis

Biodegradation

DDT (Insecticide)

Phragmites australis

Polychlorinated biphenyls

Rice

Toxicology

Plant perception and responses to hypoxia and water stresses in wetland and dryland ecotypes of rice and reed

Shi, Lu

01 January 2013

No description available.

Adaptation

Effect of stress on

Hypoxia (Water)

Phragmites australis

Rice

An evaluation of the Phragmites australis reed use by communities neighbouring the Tembe Elephant Park, Maputaland, KwaZulu-Natal, South Africa

Tarr, Jason Alec

30 March 2007

The commercial harvesting of Phragmites australis reeds in the Tembe Elephant Park, Maputaland, KwaZulu-Natal was investigated to determine the impact of reed use on the Muzi Swamp. The reed quality in the harvesting areas within the Tembe Elephant Park has deteriorated over time, with the reeds in the harvested areas being by and large shorter and thinner than the reeds in the other areas of the reserve where harvesting is not allowed. The impact of continuous harvesting in combination with the accidental burning of certain areas in the Muzi Swamp was also found to be detrimental to reed production when compared to other treatments. Poor rural communities neighbouring the Tembe Elephant Park are dependant on the reed resource for both income supplementation and for use in the construction of dwellings. Reeds offer a cheaper alternative to the more western building materials, which is of utmost importance in an area where the mean yearly income is around ZAR 6000 per annum. The manufacture of prefabricated reed and forest timber huts by the local reed harvesters in the summer months would facilitate a winter only harvest, which is more beneficial and is integral to the improvement of the long-term reed quality in the Muzi Swamp. In addition, the cost of these proposed prefabricated reed and forest timber huts is approximately one third of the cost of a similar sized hut that is constructed from bricks and cement. Management recommendations for the controlled harvesting area in Muzi Swamp of the Tembe Elephant Park, as well as the section of the Muzi Swamp that is not afforded protection by Ezemvelo KwaZulu-Natal Wildlife, are also presented. / Dissertation (MSc (Wildlife Management))--University of Pretoria, 2007. / Centre for Wildlife Management / unrestricted

Phragmites australis harvesting

UCTD

Phragmites Australis Patch Characteristics in Relation to Watershed Landcover Patterns on the Eastern Shore of Virginia

Fennell, Jeremy Daniel

01 January 2007

Phragmites australis is a perennial grass presently invading many intertidal and freshwater wetlands throughout much of the Atlantic Coast of North America. The spread of Phragmites into coastal wetlands is in part determined by available freshwater and nutrients, especially nitrogen, within the watershed where Phragmites populations occur. The Eastern Shore of Virginia is an intensive agricultural area, and watershed landcover may play a major role in Phragmites invasion. Forty-five Phragmites patches were sampled in eight VA Eastern Shore mainland watersheds and on a barrier island. Regardless of watershed landcover characteristics, there was little variation in Phragmites australis patch characteristics along the oceanside of the entire Eastern Shore of Virginia. Phragmites is a generalist with broad environmental tolerances. Thus, successful management and eradication plans may have broad scale application for this invasive grass.

landcover

Atlantic Coast

estuary

Phragmites australis

invasive grass

landscape

watershed

coastal wetlands

Biology

Life Sciences

Control of Large Stands of Phragmites australis in Great Salt Lake, Utah Wetlands

Cranney, Chad R.

01 May 2016

Phragmites australis (hereafter Phragmites) often forms dense monocultures, which displace native plant communities and alter ecosystem functions and services. Managers tasked with controlling this plant need science-backed guidance on how to control Phragmites and restore native plant communities. This study took a large-scale approach - to better match the scale of actual restoration efforts - to compare two herbicides (glyphosate vs. imazapyr) and application timings (summer vs. fall). Five treatments were applied to 1.2 ha plots for three consecutive years: 1) summer glyphosate; 2) summer imazapyr; 3) fall glyphosate; 4) fall imazapyr; and 5) untreated control. Dead Phragmites following herbicide treatments was mowed in the first two years. Efficacy of treatments and the response of native plant communities were monitored for three years. We report that fall herbicide applications were superior to summer applications. No difference was found between the two herbicides in their ability to reduce Phragmites cover. Plant communities switched from emergent to open water communities and were limited by Phragmites litter and water depth. Although, some plant communities showed a slow trajectory towards one of the reference sites, cover of important native emergent plants did not increase until year three and remained below 10%. These results suggest that fall is the best time to apply herbicides for effective large-scale control of Phragmites. Active restoration (e.g. seeding) may be needed to gain back important native plant communities. Methods to reduce Phragmites litter after herbicide applications should be considered.

Phragmites

Phragmites australis

restoration

large-scale

glyphosate

imazapyr

Ecology and Evolutionary Biology

Life Sciences

Distribution and Drivers of a Widespread, Invasive Wetland Grass, Phragmites australis, in Great Salt Lake Wetlands

Long, Arin Lexine

01 May 2014

Non-native invasive plant species can often have negative effects on native ecosystems, such as altered nutrient cycling, decreased habitat for wildlife, and outcompeting native plants. Around the Great Salt Lake (GSL), Utah, the invasive wetland grass Phragmites australis has become abundant in wetlands around the lake. Phragmites is replacing many native wetland plants provide important waterfowl habitat around the GSL. For successful management of Phragmites in GSL wetlands, it is important to know the current distribution of Phragmites, as well as areas that might be vulnerable to future invasion by Phragmites. To do this, we used multispectral aerial imagery to map the current distribution of Phragmites. We then created a model that statistically related the Phragmites distribution data to a suite of environmental predictor variables such as salinity, proximity to nutrient sources, or proximity to roads. Results from our model suggest that Phragmites is more likely to be found in wetland areas close to point sources of pollution, with lower elevations with prolonged inundation, and with moderate salinities. We used these results to identify areas around GSL that might be vulnerable to future invasion. Results from our study will assist wetlands managers in prioritizing areas for Phragmites monitoring and control by closely monitoring areas of prime Phragmites habitat.

Invasive Wetland Grass

Phragmites australis

Great Salt Lake Wetlands

Terrestrial and Aquatic Ecology

The landscape ecology of the invasive species Phragmites australis in anthropogenic linear wetlands /

Maheu-Giroux, Mathieu, 1981-

January 2005

The recent and rapid expansion of Phragmites australis in North America provides an opportunity to relate dispersal patterns to landscape structure. Linear wetlands, such as roadside or agricultural ditches, may serve as corridors that facilitate dispersal at the landscape scale, but there is little quantitative information on patterns of invasion in these habitats. Remote sensing data, GIS, and field observations were used (1) to assess the feasibility of mapping populations of P. australis in linear wetlands and (2) to quantify and explain recent invasion patterns of P. australis in two periurban areas of southern Quebec. An accuracy assessment demonstrated the reliability of aerial photographs to map populations in linear habitats. The intrinsic growth rate observed is high compared to those reported in natural wetlands. Spatial analysis revealed that colonization events are not constrained by the network's configuration. Logistic regressions confirmed the effect of road corridors on the spread of P. australis.