Spelling suggestions: "subject:"rangel health""
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Development of health indicators for rough fescue grasslands in the southern interior of British ColumbiaLamagna, Sarah Frances 11 1900 (has links)
Grasslands throughout the world including those in British Columbia have been severely
reduced and altered by agricultural production and inappropriate livestock grazing practices.
Ongoing degradation of rangelands is a worldwide problem, currently affecting about 680
million hectares of rangelands.
Studies on development and application of criteria and indicators for forests and
grasslands are often lacking, or have been done on a limited number of sites with relatively
narrow ranges of climate and soil type. This study aims to (i) quantify the relationships among
soil/vegetation properties known to be affected by grazing to easily-assessed indicators, used in
the existing health assessment systems, that do not require laboratory analyses or time
consuming measurement, and (ii) to evaluate impacts of grazing on soil aggregate stability on the
rough fescue grasslands of the southern interior of British Columbia. During the growing
seasons of 2006 and 2007, soil and vegetation properties were measured on nine open grassland
sites with a potential natural plant community dominated by rough fescue (Festuca campestris
Rydb.) in the southern interior of British Columbia. Each site had at least one area excluded
from grazing and all units were classified into different seral stages according to the amount of
rough fescue present on the land.
Rough fescue cover was found to be a useful indicator of the presence of functioning
recovery mechanisms. Percent exposed mineral soil was found to be a sensitive indicator of the
degree of soil stability and watershed function, as well as an indicator of the integrity of nutrient
cycles and energy flows in rough fescue grasslands. Percent Junegrass cover was not as sensitive
an indicator as percent exposed mineral soil, but has general overall strength with many health
measures.. Only the 1-2 mm aggregate size class was closely related to most soil and vegetation
properties, showing that it is more sensitive than the other aggregate stability parameters to soil
and vegetation properties.
The results from this study can help rangeland managers and ranchers in determining the
rangeland health in their area as well as help researchers understand that only a certain number of
parameters need to be assessed.
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Development of health indicators for rough fescue grasslands in the southern interior of British ColumbiaLamagna, Sarah Frances 11 1900 (has links)
Grasslands throughout the world including those in British Columbia have been severely
reduced and altered by agricultural production and inappropriate livestock grazing practices.
Ongoing degradation of rangelands is a worldwide problem, currently affecting about 680
million hectares of rangelands.
Studies on development and application of criteria and indicators for forests and
grasslands are often lacking, or have been done on a limited number of sites with relatively
narrow ranges of climate and soil type. This study aims to (i) quantify the relationships among
soil/vegetation properties known to be affected by grazing to easily-assessed indicators, used in
the existing health assessment systems, that do not require laboratory analyses or time
consuming measurement, and (ii) to evaluate impacts of grazing on soil aggregate stability on the
rough fescue grasslands of the southern interior of British Columbia. During the growing
seasons of 2006 and 2007, soil and vegetation properties were measured on nine open grassland
sites with a potential natural plant community dominated by rough fescue (Festuca campestris
Rydb.) in the southern interior of British Columbia. Each site had at least one area excluded
from grazing and all units were classified into different seral stages according to the amount of
rough fescue present on the land.
Rough fescue cover was found to be a useful indicator of the presence of functioning
recovery mechanisms. Percent exposed mineral soil was found to be a sensitive indicator of the
degree of soil stability and watershed function, as well as an indicator of the integrity of nutrient
cycles and energy flows in rough fescue grasslands. Percent Junegrass cover was not as sensitive
an indicator as percent exposed mineral soil, but has general overall strength with many health
measures.. Only the 1-2 mm aggregate size class was closely related to most soil and vegetation
properties, showing that it is more sensitive than the other aggregate stability parameters to soil
and vegetation properties.
The results from this study can help rangeland managers and ranchers in determining the
rangeland health in their area as well as help researchers understand that only a certain number of
parameters need to be assessed.
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Development of health indicators for rough fescue grasslands in the southern interior of British ColumbiaLamagna, Sarah Frances 11 1900 (has links)
Grasslands throughout the world including those in British Columbia have been severely
reduced and altered by agricultural production and inappropriate livestock grazing practices.
Ongoing degradation of rangelands is a worldwide problem, currently affecting about 680
million hectares of rangelands.
Studies on development and application of criteria and indicators for forests and
grasslands are often lacking, or have been done on a limited number of sites with relatively
narrow ranges of climate and soil type. This study aims to (i) quantify the relationships among
soil/vegetation properties known to be affected by grazing to easily-assessed indicators, used in
the existing health assessment systems, that do not require laboratory analyses or time
consuming measurement, and (ii) to evaluate impacts of grazing on soil aggregate stability on the
rough fescue grasslands of the southern interior of British Columbia. During the growing
seasons of 2006 and 2007, soil and vegetation properties were measured on nine open grassland
sites with a potential natural plant community dominated by rough fescue (Festuca campestris
Rydb.) in the southern interior of British Columbia. Each site had at least one area excluded
from grazing and all units were classified into different seral stages according to the amount of
rough fescue present on the land.
Rough fescue cover was found to be a useful indicator of the presence of functioning
recovery mechanisms. Percent exposed mineral soil was found to be a sensitive indicator of the
degree of soil stability and watershed function, as well as an indicator of the integrity of nutrient
cycles and energy flows in rough fescue grasslands. Percent Junegrass cover was not as sensitive
an indicator as percent exposed mineral soil, but has general overall strength with many health
measures.. Only the 1-2 mm aggregate size class was closely related to most soil and vegetation
properties, showing that it is more sensitive than the other aggregate stability parameters to soil
and vegetation properties.
The results from this study can help rangeland managers and ranchers in determining the
rangeland health in their area as well as help researchers understand that only a certain number of
parameters need to be assessed. / Land and Food Systems, Faculty of / Graduate
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SOCIAL AND ECOLOGICAL DIMENSIONS OF PRAIRIE CONSERVATION: LINKING RANCHERS, RANGELAND HEALTH AND ABUNDANCE FOR THREE GRASSLAND SONGBIRD SPECIES AT RISK2014 January 1900 (has links)
Temperate grasslands and the biodiversity they sustain are becoming increasingly imperilled. Habitat loss and degradation are considered primary causes of grassland species declines. Since livestock production is a dominant use of remaining temperate grassland, livestock producers and the grazing management decisions they make play a vital role in the recovery of grassland species. In this thesis, I examined social and ecological factors that drive habitat management and abundance of prairie wildlife species so as to contribute to conservation planning for prairie species at risk and their habitat. I focused on grassland songbirds because, of all prairie wildlife species, grassland birds have undergone some of the most dramatic declines in recent years. I employed an interdisciplinary approach, using theory and methodology from ornithology, rangeland management and the human dimension of conservation biology to achieve three objectives: i) to determine the extent to which indices of rangeland health explained variation in grassland songbird abundance for ten grassland bird species, including three species currently listed under Canada’s Species at Risk Act: Sprague’s pipit, McCown’s longspur and Chestnut-collared longspur; ii) to describe livestock producer characteristics, summarize producer awareness of and attitudes towards species at risk and the Canadian Species at Risk Act and evaluate how characteristics, awareness and attitudes affect producer willingness to engage in voluntary stewardship actions that support species at risk conservation; and iii) to explore relationships between select social and ecological factors and bird abundance for the three aforementioned grassland bird species at risk to elucidate novel pathways for achieving their conservation. I address the first objective in Chapter 2, where I identify the rangeland health index as a poor predictor of bird abundance and vegetation structure variables, such as litter and vegetation volume, as strong predictors of bird abundance. These findings make a case for further refining the rangeland health index as a tool for biodiversity assessment. In Chapter 3 I achieve the second objective and summarize producer characteristics, awareness and attitudes towards species. I also identify awareness, attitudes and rangeland management learning approach as important to producer willingness to support species at risk recovery. I accomplish the third objective in Chapter 4, where I present results of a structural equation model that upholds bird-habitat relationships identified in Chapter 2 and distinguishes management jurisdiction, size of land holdings and attitudes as important social factors to consider in conservation planning. Chapters 2 and 3 contribute to theory and methodology related to the ecological and social dimensions of grassland bird conservation, respectively. Chapter 4 demonstrates how structural equation models can be used to integrate social and ecological factors, and thereby inform habitat conservation and management. Both social and ecological data presented in this thesis make valuable contributions to producer engagement and habitat management aspects of conservation planning efforts for species at risk in the Milk River watershed of southwestern Saskatchewan. Overall, my findings point to the importance of a joint effort by regional private and public managers to use livestock grazing to create a mosaic of vegetation structure and habitat conditions suitable for the grassland bird community as a whole. This thesis provides a methodological approach that draws on and integrates social and ecological data, methods and concepts, thereby demonstrating how to conduct interdisciplinary research for biological conservation.
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The use of riparian health assessments to assess cumulative anthropogenic effects to wetlands in the Prairie Pothole Region of Saskatchewan2016 March 1900 (has links)
Wetlands are significant contributors to global biodiversity, supporting disproportionately high numbers of species relative to their area. Riparian areas associated with wetlands provide many services that are both ecologically and economically important, such as groundwater recharge, sediment capture and shoreline stabilization, flood mitigation, nutrient processing, increased water quality, carbon sequestration, and essential habitat for wildlife. Agricultural activity has resulted in the drainage or modification of between 40-70% of wetland basins within the Prairie Pothole Region of the northern Great Plains. The impacts of human activity on the remaining wetlands are difficult to estimate and there is no one optimal indicator or assessment method that is applicable to all regions or situations. Locally developed riparian health assessments, designed to evaluate wetland function under different grazing regimes, are cost-effective with the potential for broader use in wetland environmental assessment, monitoring, and management or restoration activities. In this study I investigated the hypothesis that riparian health assessments can distinguish between wetlands in five categories of land use that represent different levels of anthropogenic modification: ungrazed cultivated cropland, ungrazed native grassland, grazed native grassland, ungrazed tame perennial forage, and grazed tame perennial forage. Noting that current riparian health assessment protocols lack a community composition component other than the presence and distribution of invasive and disturbance species, I also sampled plant species frequency at each of my study sites. I found that wetlands in cultivated croplands had significantly lower riparian health scores than wetlands in both tame and native grasslands. Among tame and native sites, grazing status was more important than upland cover type in determining wetland health, with grazed wetlands receiving significantly lower scores than their ungrazed counterparts. Despite their functional similarity to wetlands within native grasslands, species composition of wetlands within ungrazed tame perennial forage more closely resembled that of wetlands in cultivated uplands. Although grazing negatively affected riparian ground cover and soil stability, it significantly reduced both the overall cover and distribution of invasive plant species along wetland reaches. These results suggest that upland revegetation and restoration of function to degraded wetlands is not necessarily followed by re-establishment of original riparian species composition. If biodiversity is a desired outcome of wetland restoration efforts, additional measures must be taken to enable the establishment and persistence of preferred plant species.
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Rangeland degradation assessment using remote sensing and vegetation species.Manssour, Khalid Manssour Yousif. January 2011 (has links)
The degradation of rangeland grass is currently one of the most serious environmental problems in South Africa. Increaser and decreaser grass species have been used as indicators to evaluate rangeland condition. Therefore, classifying these species and monitoring their relative abundance is an important step for sustainable rangelands management. Traditional methods (e.g. wheel point technique) have been used in classifying increaser and decreaser species over small geographic areas. These methods are regarded as being costly and time-consuming, because grasslands usually cover large expanses that are situated in isolated and inaccessible areas. In this regard, remote sensing techniques offer a practical and economical means for quantifying rangeland degradation over large areas. Remote sensing is capable of providing rapid, relatively inexpensive, and near-real-time data that could be used for classifying and monitoring species. This study advocates the development of techniques based on remote sensing to classify four dominant increaser species associated with rangeland degradation namely: Hyparrhenia hirta, Eragrostis curvula, Sporobolus africanus and Aristida diffusa in Okhombe communal rangeland, KwaZulu-Natal, South Africa. To our knowledge, no attempt has yet been made to discriminate and characterize the landscape using these species as indicators of the different levels of rangeland degradation using remote sensing. The first part of the thesis reviewed the problem of rangeland degradation in South Africa, the use of remote sensing (multispectral and hyperspectral) and their challenges and opportunities in mapping rangeland degradation using different indicators. The concept of decreaser and increaser species and how it can be used to map rangeland degradation was discussed. The second part of this study focused on exploring the relationship between vegetation species (increaser and decreaser species) and different levels of rangeland degradation. Results showed that, there is significant relationship between the abundance and distribution of different vegetation species and rangeland condition.
The third part of the study aimed to investigate the potential use of hyperspectral remote sensing in discriminating between four increaser species using the raw field spectroscopy data and discriminant analysis as a classifier. The results indicate that the spectroscopic approach used in this study has a strong potential to discriminate among increaser species. These positive results prompted the need to scale up the method to airborne remote sensing data characteristics for the purpose of possible mapping of rangeland species as indicators of degradation. We investigated whether canopy reflectance spectra resampled to AISA Eagle resolution and random forest as a classification algorithm could discriminate between four increaser species. Results showed that hyperspectral data assessed with the random forest algorithm has the potential to accurately discriminate species with best overall accuracy. Knowledge on reduced key wavelength regions and spectral band combinations for successful discrimination of increaser species was obtained. These wavelengths were evaluated using the new WorldView imagery containing unique and strategically positioned band settings. The study demonstrated the potential of WorldView-2 bands in classifying grass at species level with an overall accuracy of 82% which is only 5% less than an overall accuracy achieved by AISA Eagle hyperspectral data. Overall, the study has demonstrated the potential of remote sensing techniques to classify different increaser species representing levels of rangeland degradation. In this regard, we expect that the results of this study can be used to support up-to-date monitoring system for sustainable rangeland management. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2011.
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