A cost-effectiveness analysis of alternative regulatory approaches under the Endangered Species Act of 1973

Taylor, Michael A.

January 1993

The rate of extinction of plant and animal species has accelerated at an alarming rate throughout the 20th century. This depletion has resulted in greater legislative control over wildlife within the United States, and the eventual passage, in 1973, of the Endangered Species Act (ESA). The ESA establishes regulations designed to protect species which are threatened with extinction. The ESA has evolved out of past legal statutes and jurisprudence concerning the management and protection of wildlife, but the ESA has created controversy since inception. The latest criticisms concern its lack of success in meeting stated policy goals of preserving species richness and recovering listed species. As a result, a new movement has developed which seeks to change the traditional species-by-species approach of the ESA to an approach which concentrates on entire ecosystems. Ecosystem approach proponents sight various advantages, one of which is cost-effectiveness. This thesis analyzes the development of wildlife protection within the United States, and the Endangered Species Act in particular. The purpose of this analysis is to examine both the legislative powers granted for wildlife protection, and the feasibility of the ESA to encompass ecosystem protection. Modifications to the ESA are proposed. The Clinch River Valley, in Southwest Virginia and Northeast Tennessee, is used as a case study for a cost-effectiveness analysis of an ecosystem approach and species-by-species approach. Costs generated through Fish and Wildlife Service recovery plans are used in conjunction with generated ecosystem plan recovery costs. The results of the cost-effectiveness analysis show that an ecosystem approach is more cost-effective in meeting the recovery goals within the 0inch River Valley. The ESA can be modified to incorporate an ecosystem approach. Such modification can protect species richness and allow for a priority ranking system for protection. / M.S.

LD5655.V855 1993.T394

Biotic communities

Conservation ecology of Frithia humilis, an endangered succulent of sandstone outcrops in Mpumalanga, South Africa / Esmé Harris

Harris, Esmé

January 2015

Translocation involves the movement of organisms, by human intervention, from one area to other suitable (receptor) habitats. In a conservation context, translocation can be employed to support species preservation, population restoration and/or for ecological research. Despite decades of internationally published research, translocation remains a controversial endeavour. However, due to continual degradation and fragmentation of natural habitats in the face of human development, translocation is becoming a vital component of conservation efforts. Prior to the development of an Exxaro coal mine in Mpumalanga, a population of an endangered Highveld succulent species, Frithia humilis Burgoyne (Aizoaceae/Mesembryanthemaceae), was saved from extirpation by means of translocation. Three receptor habitats were identified within the distribution range of the species. The largest part of the donor population was transplanted to sandstone outcrops of the Ecca Group (Karoo Supergroup), resulting in four subpopulations residing on geological substrates typical of the species’ habitat. The remaining portion of the donor population was experimentally translocated to two habitats containing non-native geologies, namely sedimentary outcrops of the Wilge River Formation (Waterberg Group) and (igneous) felsite oucrops of the Rooiberg Group (Transvaal Supergroup). A control population was identified, occupying Ecca and Dwyka Group (Karoo Supergroup) sediments, as a measure to compare the response of translocated populations. A monitoring programme, utilising a plant age classification system, was initiated in February of 2010 to elucidate demographic trends and to gauge the response of translocated populations to novel environments. Plant survival, plant growth, flowering, fruiting (representing reproductive response) and seedling emergence were chosen as indicators to measure translocation success over the short term. Furthermore, quantitative and qualitative entomological investigations into the identity of possible F. humilis pollinators, as well as the presence of pollinator species at receptor habitats, were made. A repeatable methodology for post-translocation monitoring and scientifically sound baseline data for future comparative purposes were successfully established. Initial results showed that F. humilis subpopulations replanted on Ecca standstones had positive responses to translocation: Subpopulations survived and all but one increased in size. Individual plant growth increased, higher reproductive output was evident and seedling emergence was pervasive. Positive responses indicated that F. humilis populations translocated onto typical geologies had the potential to establish and persist over three years. Knowledge of this early success is of immense value to the conservation of the species, as a limited number of known natural populations remain. Coal mining, targeting coal seams underlying typical F. humilis habitats, is also likely to remain a threat. The viability of translocating F. humilis populations to non-typical geological substrates has shown limited efficacy. Poor survival along with inferior reproductive response confirmed Wilge River Formation outcrops as poor receptor sites for translocated F. humilis populations. Rooiberg felsite outcrops also proved to be dubious receptor sites, primarily since there was a downward trend in seedling emergence over time, suggesting inferior germination conditions. Nevertheless, translocation to non-native geological substrates did not have disastrous short-term consequences for these populations, since flowering, fruit production and seedling emergence continued, albeit at reduced (or continually declining) rates. Potential pollinator species of F. humilis were not revealed through quantitative surveys of insect diversity. Qualitative surveys proved more efficient and accurate at pinpointing insect pollinator species. This study provided the first evidence of Apidae, Megachilidae (Hymenoptera) and Bombyliidae (Diptera) insect species pollinating F. humilis. The generalist nature of the plant-pollinator relationship, as well as the presence of generalist pollinator species at some receptor habitats, probably contributed to the initial positive response of F. humilis flowering and fruiting after translocation. Results from this study, however promising, should be viewed as initial indications of translocation success. The literature review revealed a plethora of literature recommending post-translocation monitoring programmes for five years to several decades. This study confirmed that successful establishment of F. humilis can be determined after three years, but that long-term monitoring is required to evaluate persistence. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Plant translocation

Endangered succulent species

Population demographics

Pollination ecology

Conservation ecology of Frithia humilis, an endangered succulent of sandstone outcrops in Mpumalanga, South Africa / Esmé Harris

Harris, Esmé

January 2015

Translocation involves the movement of organisms, by human intervention, from one area to other suitable (receptor) habitats. In a conservation context, translocation can be employed to support species preservation, population restoration and/or for ecological research. Despite decades of internationally published research, translocation remains a controversial endeavour. However, due to continual degradation and fragmentation of natural habitats in the face of human development, translocation is becoming a vital component of conservation efforts. Prior to the development of an Exxaro coal mine in Mpumalanga, a population of an endangered Highveld succulent species, Frithia humilis Burgoyne (Aizoaceae/Mesembryanthemaceae), was saved from extirpation by means of translocation. Three receptor habitats were identified within the distribution range of the species. The largest part of the donor population was transplanted to sandstone outcrops of the Ecca Group (Karoo Supergroup), resulting in four subpopulations residing on geological substrates typical of the species’ habitat. The remaining portion of the donor population was experimentally translocated to two habitats containing non-native geologies, namely sedimentary outcrops of the Wilge River Formation (Waterberg Group) and (igneous) felsite oucrops of the Rooiberg Group (Transvaal Supergroup). A control population was identified, occupying Ecca and Dwyka Group (Karoo Supergroup) sediments, as a measure to compare the response of translocated populations. A monitoring programme, utilising a plant age classification system, was initiated in February of 2010 to elucidate demographic trends and to gauge the response of translocated populations to novel environments. Plant survival, plant growth, flowering, fruiting (representing reproductive response) and seedling emergence were chosen as indicators to measure translocation success over the short term. Furthermore, quantitative and qualitative entomological investigations into the identity of possible F. humilis pollinators, as well as the presence of pollinator species at receptor habitats, were made. A repeatable methodology for post-translocation monitoring and scientifically sound baseline data for future comparative purposes were successfully established. Initial results showed that F. humilis subpopulations replanted on Ecca standstones had positive responses to translocation: Subpopulations survived and all but one increased in size. Individual plant growth increased, higher reproductive output was evident and seedling emergence was pervasive. Positive responses indicated that F. humilis populations translocated onto typical geologies had the potential to establish and persist over three years. Knowledge of this early success is of immense value to the conservation of the species, as a limited number of known natural populations remain. Coal mining, targeting coal seams underlying typical F. humilis habitats, is also likely to remain a threat. The viability of translocating F. humilis populations to non-typical geological substrates has shown limited efficacy. Poor survival along with inferior reproductive response confirmed Wilge River Formation outcrops as poor receptor sites for translocated F. humilis populations. Rooiberg felsite outcrops also proved to be dubious receptor sites, primarily since there was a downward trend in seedling emergence over time, suggesting inferior germination conditions. Nevertheless, translocation to non-native geological substrates did not have disastrous short-term consequences for these populations, since flowering, fruit production and seedling emergence continued, albeit at reduced (or continually declining) rates. Potential pollinator species of F. humilis were not revealed through quantitative surveys of insect diversity. Qualitative surveys proved more efficient and accurate at pinpointing insect pollinator species. This study provided the first evidence of Apidae, Megachilidae (Hymenoptera) and Bombyliidae (Diptera) insect species pollinating F. humilis. The generalist nature of the plant-pollinator relationship, as well as the presence of generalist pollinator species at some receptor habitats, probably contributed to the initial positive response of F. humilis flowering and fruiting after translocation. Results from this study, however promising, should be viewed as initial indications of translocation success. The literature review revealed a plethora of literature recommending post-translocation monitoring programmes for five years to several decades. This study confirmed that successful establishment of F. humilis can be determined after three years, but that long-term monitoring is required to evaluate persistence. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Plant translocation

Endangered succulent species

Population demographics

Pollination ecology

Utilizing Variable Transplant Methods on the Endangered Pima Pineapple Cactus (Coryphantha scheeri var. robustispina)

Berthelette, Gerald, Fehmi, Jeffrey

24 February 2016

Poster exhibited at GPSC Student Showcase, February 24th, 2016, University of Arizona. / There has been little research carried out which assesses the ability or inability of the Pima pineapple cactus (Coryphantha scheeri var. robustispina) to be transplanted successfully, and what a successful transplant entails. From what little research has been done, experiments have demonstrated low-levels of survival, and determinate variables remain largely unknown. As a result, the U.S. Fish and Wildlife Service (USFWS) does not consider transplanting as a viable conservation measure. This study monitors [a population] of individual Pima pineapple cactus (PPC) transplanted in 2014 and distributed along the natural gas pipeline put in place by Kinder Morgan Inc. southwest of Tucson, Arizona, as well as other data sets from past transplant experiments. This post-transplant monitoring, in addition to a thorough analysis of varying transplant methodology and abiotic variables associated with each site, will be used to develop a framework for analyzing transplant successes for the PPC. Variables assessed during this study will include the influence of supplemental watering, using soil vs. bare root methods, and the number of times an individual is transplanted. With the information gathered from the PPC along the pipeline right-of-way, along with information gathered from historical PPC transplant locations, I will present a predictive model for transplanting success of PPC using a chi-square test with the statistical software package, STATA. Success will show a clear correlation between plant vigor after transplanting and the methodology with which each cactus was moved.

Pima pineapple cactus

coryphantha robustispina

Altar Valley

endangered

pipeline

Antelope Jackrabbit (Lepus alleni) Spatial Ecology, Habitat Characteristics, and Overlap with the Endangered Pima Pineapple Cactus (Coryphantha scheeri var. Robustispina)

Altemus, Maria Michael

January 2016

The antelope jackrabbit (Lepus alleni) inhabits the seasonal landscape of the subtropical Sonoran savanna grassland in southern Arizona. Basic ecological information on this understudied lagomorph is lacking beyond historical responses to rangeland conditions. This is the first study to utilize radio collars to assess space use of antelope jackrabbits. In the semidesert grassland of Buenos Aires National Wildlife Refuge, Arizona, we estimated antelope jackrabbit home range size, seasonal ranges, and movement patterns. Home range estimates were comparable to other Lepus species, however, seasonal range sizes did not differ. We analyzed antelope jackrabbit habitat structure, measured vegetation characteristics, and determined whether there was a spatial association between antelope jackrabbits and the endangered Pima pineapple cactus (Coryphantha scheeri var. robustispina). Antelope jackrabbits selected vegetation structure and characteristics similarly to available areas on the refuge. We did not detect a spatial association between antelope jackrabbits and Pima pineapple cacti, however given the importance of understanding endangered species relationships, further investigation is warranted. Our results add to the limited ecological information known about antelope jackrabbits and provide baseline data for future studies. Knowledge about spatial ecology and habitat selection helps managers and biologists make informed recommendations for land and wildlife management.

desert grassland

endangered species

jackrabbit

lagomorph

Natural Resources

Arizona

Conservation by Consensus: Reducing Uncertainty from Methodological Choices in Conservation-based Models

Poos, Mark S.

01 September 2010

Modeling species of conservation concern, such as those that are rare, declining, or have a conservation designation (e.g. endangered or threatened), remains an activity filled with uncertainty. Species that are of conservation concern often are found infrequently, in small sample sizes and spatially fragmented distributions, thereby making accurate enumeration difficult and traditional statistical approaches often invalid. For example, there are numerous debates in the ecological literature regarding methodological choices in conservation-based models, such as how to measure functional traits to account for ecosystem function, the impact of including rare species in biological assessments and whether species-specific dispersal can be measured using distance based functions. This thesis attempts to address issues in methodological choices in conservation-based models in two ways. In the first section of the thesis, the impacts of methodological choices on conservation-based models are examined across a broad selection of available approaches, from: measuring functional diversity; to conducting bio-assessments in community ecology; to assessing dispersal in metapopulation analyses. It is the goal of this section to establish the potential for methodological choices to impact conservation-based models, regardless of the scale, study-system or species involved. In the second section of this thesis, the use of consensus methods is developed as a potential tool for reducing uncertainty with methodological choices in conservation-based models. Two separate applications of consensus methods are highlighted, including how consensus methods can reduce uncertainty from choosing a modeling type or to identify when methodological choices may be a problem.

statistical methods

conservation biology

endangered species

ensemble models

0329

Seasonal movement and activity patterns of the endangered geometric tortoise, Psammobates geometricus.

Van Bloemestein, Ulric Patrick

January 2005

Due to the critical status of Psammobates geometricus and the vulnerability of their habitat, there is a need to allocate areas for their protection. The aim of this study was to provide information on the space requirements and activity level of geometric tortoises to facilitate future conservation efforts.

Testudinidae. Ecology

Testudinidae. Habitat

The Big Bad EU? Species Protection and European Federalism : A Case Study of Wolf Conservation and Contestation in Sweden

Epstein, Yaffa

January 2017

This dissertation examines how eco-knowledge intersects with the changes to EU legal cultures and practices known as eurolegalism. This conjunction has created a mechanism for the extension of EU law in the Member States even in the face of a weakened EU. Through a portfolio of six articles, controversies over the protection of wolves in Sweden are used to illustrate and explicate the changing roles and responsibilities of various actors in protecting species, and the centralization of competence for environmental protection in Europe at the EU level. In doing so, some substantive requirements of the Habitats Directive are also analyzed. The first article maps the movement of competence to determine conservation policy towards the EU level and away from international and Member State actors. The second article examines what the EU requires of its Member States by analyzing the Habitats Directive’s key concept, favourable conservation status. It also makes normative arguments for how contested aspects of this concept should be interpreted to best achieve the Directive’s conservation goals. The third article deepens this analysis by applying these arguments to the Swedish wolf population. The fourth article is a case commentary illustrating the enforcement of the Habitats Directive through public interest litigation to stop the hunting of Swedish wolves. The fifth argues that the greater availability of public interest standing in the US than in the EU has led to the greater implementation of federal law. The sixth argues that greater availability of public interest litigation in Sweden than previously is also leading to the greater enforcement of “federal” EU law. Each of these articles demonstrates or explains factors that lead to the hollowing out of state power in favor of the EU and interest groups. / <p>Cover photo by Guillaume Chapron</p>

Habitats Directive

species protection

subsidiarity

Endangered Species Act

Law

Juridik

In vitro conservation of selected endangered plant species indigenous to the Cape Floristic Region, South Africa

Mosime, Bonolo

January 2016

Thesis (MTech (Horticulture))--Cape Peninsula University of Technology, 2016. / This study focused on optimising four types of in-vitro conservation methods, namely: 1), micropropagation, 2) in-vitro slow growth, 3) seed germination and 4) cryopreservation for selected endangered plant species indigenous to the Cape Floristic Region. It is one of the targets set by United Nations millennium development goals, to integrate different conservation measures in order to preserve plant diversity and mitigate losses of genetic diversity. Therefore this study uses Phalaenopsis hybrids as a trial species that can be studied for the conservation of endangered Disa and Eulophia species through micropropagation and in vitro slow growth. Also conservation attempts on Leucadendron and Mimetes species that occur in the Cape Floristic Region were attemted to increase population densities by increasing germination percentages using smoke. Furthermore, the study attempted to store seeds by assessing different cooling rates for optimising cryopreservation measures for effective conservation. The use of tissue culture to increase propagules especially critically endangered species in South African has proven to be feasible. For the trial hybrids, shoot and protocorm explants of Phalaenopsis Psychosis Pink X P. No. 1; P. Large white X P. Large pink; P. No. 1 X P. Large pink; P. Mini pink X Brighton belle; and the P. aphrodite formed clusters of protocorms and shoots when cultured on ½ strength MS media supplemented with 10, 20 and 30gL-1 banana extract or ½ strength Murashige and Skoog, (1962) (MS) media supplemented with peptone. Continuous protocorms formation could therefore be obtained by culturing endangered Disa and Eulophia shoots and protocorms on banana containing media. Plantlet conversion from somatic embryos produced on 10gL-1 banana extract enriched media was successfully achieved on ½ strength MS supplemented with 20gL-1 sucrose and no plant growth regulators in the medium. However, optimum rooting was achieved on ½ strength MS supplemented with 30gL-1 of banana extract and this medium yielded the highest survival percentages for plantlet acclimatisation. Furthermore, ½ strength MS supplemented with 1gL-1 of peptone served as a stimulant for shoot development and protocorm formation. When coupled with banana extract at all stages of development, regeneration and rooting were enhanced.

Phalaenopsis

Plant conservation

Endangered plants

Protea Atlas Project

The fox, the fence and the flux : human-animal relations and environmental knowledge in rural and protected areas in south-central Chile

Benavides Medina, Sebastián Pelayo

January 2017

This thesis focuses on the relationship of various actors with wild animals, specifically wild predators protected by law, in rural and protected areas of south-central Chile (IX Araucanía Region). It is based on a 12 month period of ethnographic fieldwork, distributed in the Huerquehue National Park, a private protected area ('Cañi Sanctuary') and a small farm close to the Villarrica National Park. Participant observation was developed with park rangers, conservation researchers and small-scale farmers. Most of these were also interviewed through in-depth, semi structured approaches, as other key informants, mainly neighbouring local farmers and government officials. My aim is to understand anthropologically how humans and animals interact, considering various contexts, and contributing to Chilean academia in better understanding the situation of endangered species in the country. The main theoretical points I argue are that human-animal relations are inscribed in a broader environmental approach, regarding classifications about the natural world, humanity's place in it, and their separation. Thus, the study analyses participants' environmental engagements and their relations with wild protected predators and other animals, showing how practical engagements help to 'piece together' the surroundings and other creatures. Considering uncertainty and fuzzy boundaries regarding implied classifications and fleeting experiences with animals, the analysis then focuses on the interpretation of animal tracks and traces and tracking, as flexible and open ended engagements with the environment and its clues, connected to the semiotic concept of 'abduction'. Finally, I return to reflections concerning a fluctuating world, crossed by uncertainties and categories' limitations. Using the concept of 'the uncanny', I explore alternative interpretations of relations with animals and the environment, connected with strangeness and unpredictability, where regular knowledge and ontological assumptions are challenged. I finish by stressing the fertility of being open to complex knowledge, related with a fluctuating and uncanny world that resists well-defined categorisations.

301