Great Lakes environmental policy : the ecosystem approach and an economic perspective

Jutlah, Russell Sean

11 1900

This thesis is concerned with the conceptual foundations of environmental law and policy in the Great Lakes basin, the world's largest freshwater ecosystem. The Great Lakes regime is now widely recognized as one of the most advanced international environmental management regimes in existence. Over the past two decades, toxic contamination has emerged as a highly pressing ecological issue in the Great Lakes basin. In Canada and the United States, the ecosystem approach, a comprehensive and integrated approach to environmental management, has been adopted both bilaterally and domestically in the Great Lakes' complex environmental policy framework to guide the protection of ecological integrity. There has been extensive discussion of the ecosystem approach, particularly from scientific and managerial perspectives; however, the economic content of the concept has been largely neglected, despite the importance of considering all relevant perspectives in the development of law and policy. This thesis is divided into five chapters. After discussing in Chapter 1 the ecological and institutional contexts and methodological issues of the analysis, this thesis defends, in Chapter 2, the view that economic theory has relevance to issues of environmental law and policy. In addition to highlighting the main contours of welfare and environmental economic theory, a main conclusion, and an essential premise upon which the analysis proceeds, is that economics remains a useful analytical approach to environmental issues, despite some important criticisms. Subsequently, in Chapter 3, the analysis shifts to an examination of four bilateral and domestic Great Lakes instruments that form the core of Great Lakes toxic pollution policy: (i) the Great Lakes Water Quality Agreement; (ii) the Great Lakes Binational Toxics Strategy; (iii) the Canada-Ontario Agreement; and (iv) the Final Water Quality Guidance for the Great Lakes System. After outlining key principles underpinning each instrument, the thesis underscores common themes running through the collective policy framework. The ecosystem approach constitutes a unifying concept in this framework. The ecosystem approach is examined from an economic perspective in Chapter 4. After identifying key elements of the ecosystem approach, this chapter highlights important parallels between fundamental welfare and environmental economic notions. One main conclusion is that economic concepts and approaches, such as environmental valuation, externalities, and self-interest, form an integral part of the ecosystem approach. Finally, Chapter 5 identifies some directions for further research. Given that, as the thesis seeks to establish, economic theory constitutes an important, albeit not sole, perspective on the ecosystem approach, a key challenge will be to facilitate interdisciplinary analysis and cooperation leading to effective operationalization of the concept. / Law, Peter A. Allard School of / Graduate

The Salton sea wetlands: A guidebook of curriculum based lessons

Ligman-McCormick, Etta Margo

01 January 2003

Using Coachella Valley's Salton Sea ecosystem as a model, several multidisciplinary wetland activities for grades three to six were developed. A resource guide for educators is included.

Salt lake ecology

Lesson planning

Education -- Curricula

Environmental conditions

Coachella Valley

Environmental Education

Sequential Adaptation through Prediction of Structured Climate Risk

Doss-Gollin, James

January 2020

Infrastructure systems around the world face immediate crises and smoldering long-term challenges. Consequently, system owners and managers must balance the need to repair and replace the aging and deteriorating systems already in place against the need for transformative investments in deep decarbonization, climate adaptation, and transportation that will enable long-term competitiveness. Complicating these decisions are deep uncertainties, finite resources, and competing objectives. These challenges motivate the integration of “hard” investments in physical infrastructure with “soft” instruments like insurance, land use policy, and ecosystem restoration that can improve service, shrink costs, scale up or down as future needs require, and reduce vulnerability to population loss and economic contraction. A critical advantage of soft instruments is that they enable planners to adjust, expand, or reduce them at regular intervals, unlike hard instruments which are difficult to modify once in place. As a result, soft instruments can be precisely tailored to meet near-term needs and conditions, including projections of the quasi-oscillatory, regime-like climate processes that dominate seasonal to decadal hydro-climate variability, thereby reducing the need to guess the needs and hazards of the distant future. The objective of this dissertation is to demonstrate how potentially predictable modes of structured climate variability can inform the design of soft instruments and the formulation of adaptive infrastructure system plans. Using climate information for sequential adaptation requires developing credible projections of climate variables at relevant time scales. PartI considers the drivers of river floods in large river basins, which is used throughout this dissertation as an example of a high-impact hydroclimate extreme. First, chapter 2 opens by exploring the strengths and limitations of existing methodologies, and by developing a statistical-dynamical causal chain framework within which to consider flood risk on interannual to secular time scales. Next, chapter 3 describes the physical mechanisms responsible for heavy rainfall (90th percentile exceedance)and flooding in the Lower Paraguay River Basin (LPRB), focusing on a November-February(NDJF) 2015-16 flood event that displaced over 170 000 people. This chapter shows that: 1. persistent large-scale conditions over the South American continent during NDJF 2015-16 strengthened the South American Low-Level Jet (SALLJ), bringing warm air and moisture to South East South America (SESA), and steered the jet towards the LPRB, leading to repeated heavy rainfall events and large-scale flooding; 2. while the observed El Niño event contributed to a stronger SALLJ, the Madden-JulienOscillation (MJO) and Atlantic ocean steered the jet over the LPRB; and 3. while numerical sub-seasonal to seasonal (S2S) and seasonal models projected an elevated risk of flooding consistent with the observed El Niño event, they had limited skill at lead times greater than two weeks, suggesting that improved representation of MJO and Atlantic teleconnections could improve regional forecast skill. Finally, chapter 4 shows how mechanistic understanding of the physical causal chain that leads to a particular hazard of interest – in this case heavy rainfall over a large area in the Ohio River Basin (ORB) – can inform future risks. Taking the GFDL coupled model, version 3 (CM3) as a representative general circulation model (GCM), this chapter shows that 1. the GCM simulates too many regional extreme precipitation (REP) events but under-simulates the occurrence of back to back REP days; 2. REP days show consistent large-scale climate anomalies leading up to the event; 3. indices describing these large-scale anomalies are well simulated by the GCM; and 4. a statistical model describing this causal chain and exploiting simulated large-scale in-dices from the GCM can be used to inform the future occurrence of REP days. Even the best climate projections must confront epistemic uncertainties. Part II of this dissertation explores how intrinsically flawed projections should inform sequential adaptation.First, chapter5reviews approaches for planning under uncertainty, considering the role of classical decision theory, optimization, probability, and non probabilistic approaches. Next, chapter 6 considers how different physical mechanisms impart predictability at different timescales and the implications of secular, low-frequency cyclical, and high-frequency cyclical variability for selection between instruments with long and short planning periods. In particular, this chapter builds from three assertions regarding the nature of climate risk: 1. different climate risk mitigation instruments have different project lifespans; 2. climate risk varies on many scales; and 3. the processes which dominate this risk over the planning period depend on the planning period itself. Defining M as the nominal design life of a structural or financial instrument and N as the length of the observational record (a proxy for total informational uncertainty), chapter 7 presents a series of stylized computational experiments to probe the implications of these premises. Key findings are that: 1. quasi-periodic and secular climate signals, with different identifiability and predictability, control future uncertainty and risk; 2. adaptation strategies need to consider how uncertainties in risk projections influence the success of decision pathways; and 3. stylized experiments reveal how bias and variance of climate risk projections influencerisk mitigation over a finite planning period. Chapter 7 elaborates these findings through a didactic case study of levee heightening in the Netherlands. Integrating a conceptual model of low-frequency variability with credible projections of sea level rise, chapter 7 uses dynamic programming to co-optimize hard (levee increase) and soft (insurance) instruments. Key findings are that 1. large but distant and uncertain changes (e.g., sea level rise) do not necessarily motivate immediate investment in structural risk protection; 2. soft adaptation strategies are robust to different model structures and assumptions while hard instruments perform poorly under conditions for which they were not de-signed; and 3. increasing the hypothetical predictability of near-term climate extremes significantly lowers long-term adaptation costs. Finally, part III seeks to unpack the conceptual experiments of parts I and II to inform policy and future research. Chapter 8 describes how constructive narratives about climate change can discourage climate fatalism. Instead, chapter 8 emphasizes that while climate change is and will be a critical stressor of infrastructure systems, individuals, communities, and regions have agency and can mitigate its consequences. Finally, chapter9concludes by discussing the key findings of this dissertation and exploring how future work on decision under uncertainty, technology, and earth systems science can aid the design and management of effective infrastructure services.

Water resources development--Management

Geophysics

Civil engineering

Ecosystem management

Land use--Environmental aspects

Infrastructure (Economics)--Management

Climatic changes--Risk management

Floods--Environmental aspects

Effects of climate and land-use change on grass and tree populations and their consequences to the ecosystem multi-functionality, Limpopo, South Africa

Mokoka, Malesela Vincent

January 2022

Thesis (Ph.D. (Plant Production)) -- University of Limpopo, 2022 / Changes in climate and land-use, collectively called environmental changes, have been a source of concern globally, particularly in dryland grasslands, where people still heavily rely on services from these ecosystems. Extreme climatic conditions have been projected to increase both in intensity and frequency globally. In semi-arid regions, drought is anticipated to occur more frequently and to last longer as a consequence of climate change. Moreover, as human populations continue to grow, there is an increase in demand for natural resources that are already diminishing. Consequently, the combination of these factors has a negative effect on the functions and services of the dryland grassland ecosystems. Therefore, to counteract the degradation of these socioeconomically significant ecosystems, it is vital to understand how these systems respond to the long-term effects of drought and grazing. Limpopo province is largely dominated by drylands; comprising arid, semi-arid and dry sub-humid ecosystems. In Limpopo province, rangelands and agroforestry systems deliver important ecosystem services. Arable lands, rangeland, agroforestry, and orchards are three major land-use types contributing greatly to local livelihoods within Limpopo’s multi-use landscapes. Motivated by the above mentioned factors this study had the following objectives; (i) to review the impact of climate change on dryland grasslands, (ii) to evaluate ecosystem functioning through the assessment of climate related effects on taxonomic diversity and density demography from the grass layer, (iii) to analyse the effects of drought and grazing on the grass layer and to understand the factors affecting tree populations, particularly tree establishment patterns, (iv) to measure ecosystem service provision from the savanna ecosystem and also, to bridge the knowledge gap on the importance of biodiversity in an ecosystem. To achieve the aforementioned objectives, a comprehensive literature analysis was conducted on the effects of climate change on dryland grasslands to assess the magnitude of this impact and the existing understanding of vegetation dynamics in the face of climate change. The study also took advantage of the large-scale field experiment which evaluated, through precipitation manipulation, the impact of drought on grazed and ungrazed vegetation in the dryland grasslands of Limpopo province, South Africa, labeled drought Act experiment. In the Drought Act experiment, passive rain-out shelters and grazing ex-closure fences were set up to simulate a severe drought in combination with differing resting schemes of the rangeland. This was done in order to assess the effect of previous drought events on herbaceous vegetation. Grazing and drought treatments were implemented across four treatment plots per block, via a full factorial design. The study also took advantage of the steep gradient of climatic aridity in Limpopo province and used a space-for-time substitution to evaluate the effects of climate-induced risks and factors impacting the establishment of encroaching woody species under conditions of climate change. Two climate zones and soil types were selected; semi-arid vs. dry sub-humid zone, and Glenrosa soil vs. Hutton soil. Data analysis was executed using the R statistical software package. The examination of literature revealed that African dryland ecosystems are especially vulnerable to the effects of climate change, resulting in biodiversity loss, structural and functional changes to the ecosystem, and a diminished capacity to deliver ecosystem services. Climate change’s most susceptible species and functions have a great potential to be utilized as early warning signs. Furthermore, precipitation manipulation experiments are a great tool for investigating the impact of climate change as they allow for precipitation reduction below the natural range. There is still a general lack of information regarding the effects that extreme climatic conditions have on ecosystems and the mechanisms that determine how ecosystems respond and recover from stress and disturbances. The Drought Act experiment showed that prolonged drought had a substantial and negative impact on the biomass output of the vast majority of taxonomic groups and plant functional types (PFTs). This reduction in biomass production from the grass layer results in limited grazing for livestock, which is a primary ecosystem service provided by dryland grasslands. However, the study revealed that few species and PFTs were resistant to the effects of prolonged drought and grazing. In general, the study showed that long-term drought and grazing winners were primarily forbs and narrow-leaved perennial grasses with low leaf area (LA) and high leaf dry matter content (LDMC). Furthermore, the negative impact of drought on the taxonomic richness and species per unit area and ultimately diversity, worsened as the drought period increased. Additionally, grazing exclusion (resting) was shown to have a negative influence on species richness, abundance, and diversity, especially over long periods of time. Bottom-up mechanisms such as soil type had a greater impact on the establishment, recruitment, and survival of invading woody species than top-down mechanisms such as precipitation. In addition, the significant correlation that was established in the study between the age of trees and the circumferences of their stems, measured at breast height, provided evidence that non-destructive methods of estimating the age of trees are feasible. Further development of non-invasive approaches in the field of dendrochronology is also made possible by these findings. The findings of this thesis indicate, on the whole, that; to gain a better understanding of dryland vegetation dynamics in the face of drought, researchers need to investigate further the impact of climatic extremes on ecosystem functions and services. Moreover, winners and losers of long-term drought can be distinguished by their unique characteristics; hence, taxonomic groups and functional characteristics could be utilized as early markers of veld degradation, which would permit timely management interventions. The negative impact of long-term drought and grazing on the grass layer limits the ecosystem’s capacity to carry livestock and wildlife for extended periods, thus impacting the livelihoods of the people who rely on these ecosystems. In addition, the tendency of higher tree establishment in lower rainfall years suggests that drought could be a driving factor for woody vegetation propagation. The trait-based approach is very instructive when it comes to researching the dynamics of vegetation in dryland grasslands. This is especially true when considering the effects of changing climate and land-use. This study has contributed to a better knowledge of the ecosystem function under changing climate and land-use, which is the basis of enhancing the resilience of different land-use systems and reducing risks to ecosystem functions and services while optimizing production. / NRF, DAAD, UL, SALL net, Universitat Potsdam

Climate and land-use

Ecosystem

Grass and tree

Limpopo South Africa

Climatic changes

Climatic changes -- Law and Legislation

Climate change mitigation

Ecosystem management

Grass lands

Trees

Interpretation of seafloor topologies based on IKONOS satellite imagery of a shallow-marine carbonate platform: Florida Bay to the Florida Reef Tract

Unknown Date

A benthic environments classification system is devised from digital interpretations of multi-spectral IKONOS satellite imagery for 1,360 km2 of the carbonate platform and presented in a comprehensive digitized map. The classification scheme is designed as a 7th order hierarchical structure that integrates 5 Physiographic Realms, 24 Morphodynamic Zones, 11 Geoforms, 39 Landforms, 6 dominant surface sediment types, 9 dominant biological covers and 3 densities of biological covers for the description of benthic environments. Digital analysis of the high-resolution (4 m) IKONOS imagery employed ESRI's ArcMap to manually digitize 412 mapping units at a scale of 1:6,000 differentiated by spectral reflectance, color tones, and textures of seafloor topologies. The context of each morphodynamic zone is characterized by the content and areal distribution (in km2) of geomorphic forms and biological covers. Over 58% of the mapping area is occupied by sediment flats, and seagrasses are colonized in almost 80% of the topologies. / by Jacob Thomas Steinle. / Thesis (M.S.)--Florida Atlantic University, 2011. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2011. Mode of access: World Wide Web.

Submarine topography

Submarine topography--Florida

Marine sediments--Remote sensing

Marine ecosystem management

Marine ecosystem management--Florida

Ocean bottom--Sampling

Ocean bottom--Sampling

Ocean bottom--Florida Bay--Sampling

Coral reef ecology

Coral reef ecology--Florida

Keying forest stream protection to aquatic ecosystem values in multi-ownership watersheds

Pickard, Brian R.

15 March 2013

Forested lands of western Oregon provide aquatic habitat for many fish and riparian dependent species, including a wide variety of salmon species. Current policies set riparian protections using fixed buffers on streams for federal and private lands based on stream type or size. These buffers can create a series of disjointed riparian protections, as federal lands require buffers that are much larger than private lands. In addition, the fixed buffer approach is neither flexible nor tailored to aquatic ecosystem values. This thesis presents a framework for comprehensively assessing stream networks using site specific watershed features and then suggests riparian conservation strategies that key stream and riparian protection to aquatic ecosystem values. Seven study watersheds were used in this analysis, totaling over 2.5 million acres of forested lands in western Oregon. Employing a set of geospatial tools, called NetMap, streams in each watershed were classified into higher and lower priorities using criteria of intrinsic potential, erosion/debris flow susceptibility, and thermal loading potential. Results demonstrated the inherent variability within and among watersheds based on the geomorphic and ecological processes determined important for selected salmon species. Within each watershed, both federal and non-federal lands had many miles of higher priority fish-bearing and non-fish bearing streams, suggesting the need for comprehensive, holistic watershed conservation strategies. Based on the partitioning of streams into higher and lower priorities, an alternative riparian conservation strategy was then modeled for federal lands that allocate protection on the basis of the ecological context of a stream segment’s potential and particular location while still meeting federal aquatic conservation goals and objectives. Possible increases to the land base for long-term timber production were then identified if this strategy were applied to federal Matrix lands. Results demonstrated that 8-30 percent of the current riparian buffers could be reallocated to the land base for long-term timber production. An additional 26-45 percent of current buffers could be managed simultaneously for both timber production and aquatic ecosystem goals. Results also provided a framework for targeting of conservation and restoration efforts towards higher priority streams within each watershed. As many of the most ecologically important streams were located on non-federal lands, riparian conservation policies focused on streams classified as higher priority on those lands may be needed to protect aquatic species and their environments. / Graduation date: 2013

Riparian

Buffer

Conservation

Salmon

Watershed

Netmap

Riparian areas -- Oregon -- Management

Evaluating an ecosystem management approach for improving water quality on the Holnicote Estate, Exmoor

Glendell, Miriam

January 2013

The European Water Framework Directive 2000 established a new emphasis for the management of freshwaters by setting ecologically-based water quality targets that are to be achieved through holistic, catchment-scale, ecosystem management. However, significant knowledge gaps exist in the understanding of the cumulative effectiveness of multiple mitigation measures on a number of pollutants at a catchment scale. This research contributes to improved understanding of the effectiveness of an ecosystem management approach to deliver catchment-scale water quality improvements on the National Trust Holnicote Estate on Exmoor, UK. This research is part of a larger multi-objective project funded by the UK Department for Environment, Food and Rural Affairs (Defra), to demonstrate the benefits of land use interventions for the management of flood risk. This thesis evaluates the effects of upland ditch blocking on physico-chemical and biological parameters of water quality in an upland Horner Water catchment one year after habitat restoration, and establishes a solid baseline for the monitoring of the effects of current and future land management changes in a lowland, intensively managed, agricultural Aller catchment. The spatial variability of soil physical and chemical properties (bulk density, total carbon (TN), nitrogen (TN), C:N ratio, δ15N, total phosphorus (TP), inorganic phosphorus (IP), organic phosphorus (OP)) and water quality determinands (suspended sediment (SS), dissolved organic carbon (DOC), total particulate carbon (TPC), total oxidised nitrogen (TON) and dissolved reactive phosphorus (DRP)) in the two study catchments with contrasting land use has been characterised and linked to the prevailing land use. Agricultural land use resulted in extensive homogenisation of soil properties. The spatial dependence of all soil properties, except for bulk density and δ15N, was stronger in the agricultural than the semi-natural catchment (nugget:sill ratio 0.10-0.42 in the Aller and 0.15-0.94 in Horner Water), while bulk density, TP, inorganic phosphorus (IP), organic phosphorus (OP), C:N ratio, δ15N and carbon storage showed a longer range of spatial auto-correlation in the agricultural catchment (2,807-3,191 m in the Aller and 545-2,599 m Horner Water). The central tendency (mean, median) of all soil properties, except for IP and δ15N, also differed significantly between the two catchments (P < 0.01). The observed extensive alteration of soil physical and chemical properties in the agricultural catchment is likely to have long-term implications for the restoration of ecosystem functioning and water quality management. The intensive land use seems to have resulted in an altered ‘catchment metabolism’, manifested in a proportionally greater total fluvial carbon (dissolved and particulate) export from the agricultural than the semi-natural catchment. The agricultural catchment supported significantly higher DOC concentrations (P < 0.05) and the quality of DOC differed markedly between the two study catchments. The prevalence of more humic, higher molecular weight compounds in the agricultural catchment and simpler, lower molecular weight compounds in the semi-natural catchment, indicated enhanced microbial turnover of fluvial DOC in the agricultural catchment as well as additional allochtonous terrestrial sources. During an eight month period for which a comparable continuous turbidity record was available, the estimated SS yields from the agricultural catchment (25.5-116.2 t km2) were higher than from the semi-natural catchment (21.7-57.8 t km2). Further, the agricultural catchment exported proportionally more TPC (0.51-2.59 kg mm-1) than the semi-natural catchment (0.36-0.97 kg mm-1) and a similar amount of DOC (0.26-0.52 kg mm-1 in the Aller and 0.24-0.32 kg mm-1 in Horner Water), when normalised by catchment area and total discharge, despite the lower total soil carbon pool, thus indicating an enhanced fluvial loss of sediment and carbon from the intensively managed catchment. Whilst detection of catchment-scale effects of mitigation measures typically requires high resolution, resource-intensive, long term data sets, this research has found that simple approaches can be effective in bridging the gap between fine scale ecosystem functioning and catchment-scale processes. Here, the new macro-invertebrate index PSI (Proportion of Sediment-sensitive Invertebrates) has been shown to be more closely related to a physical measure of sedimentation (% fine bed sediment cover) (P = 0.002) than existing non-pressure specific macro-invertebrate metrics such as the Lotic Index for Flow Evaluation (LIFE) and % Ephemeroptera, Plecoptera & Trichoptera abundance (% EPT) (P = 0.014). Further testing of PSI along a pronounced environmental gradient is recommended as PSI and % fine bed sediment cover have the potential to become a sensitive tool for the setting and monitoring of twin sedimentation targets. Upland ditch management has not had any discernible effect on water quality in the semi-natural upland catchment one year after restoration, which may be due to the short-term post-restoration monitoring period but may also reflect benign effects of large-scale earth moving works on this high quality environment. The conceptual understanding of catchment processes developed in this thesis suggests that cumulatively, the recently completed mitigation works in the lowland agricultural catchment will likely result in reduced sediment and nutrient input into the aquatic environment. However, further research is needed to build on this detailed baseline characterisation and inform the understanding of the effectiveness of combined mitigation measures to reduce the flux of multiple contaminants at the catchment scale.

577.6

The impact of communal land-use on the biodiversity of a conserved grassland at Cathedral Peak, uKhahlamba-Drakensberg Park, South Africa : implications for sustainable utilization of montane grasslands.

Peden, Moraig Isobel.

January 2004

South African grasslands are under-conserved and there is a need to expand conservation efforts beyond the boundaries of protected areas. While communal grasslands have conservation potential they are generally over-utilized and the impact of communal land-use on biodiversity is poorly studied. At the same time there is pressure on protected areas to allow for the sustainable utilization of biodiversity. The aim of this study was to examine the impact of communal land-use on various components of biodiversity and to make recommendations regarding communal use of protected areas. A fence-line study was conducted to assess the impact of eight years of controlled communal land-use on biodiversity in the uKhahlamba-Drakensberg Park. The communally used land (referred to as the lease land) which was used for controlled grazing as well as plant collection was compared with land under formal conservation. Vegetation was sampled using the importance score method and veld condition assessments. Selected invertebrate taxa were sampled using sweep netting, colour pan traps and transects and were identified to morphospecies level. Multivariate statistics revealed that sites generally grouped according to landscape position rather than land-use. No significant differences were found in diversity, evenness, richness or veld condition between the lease and conservation land. However, more than twenty-five percent of vegetation and invertebrate species were found exclusively in the lease or conservation land, suggesting that different suites of species were supported by the two landuses. Four alien plant species were found exclusively in the lease land, while one vulnerable and one rare plant species were found only in the conservation land. Further research is required to assess whether biodiversity was diminished by controlled communal. While the lease concept may offer potential as a low-use buffer zone, localised damage from cattle paths and weak enforcement of grazing agreements were areas of concern. Keywords: communal grass)ands, grassland flora, grassland invertebrates, transfrontier park. / Thesis (M.Env.Dev.)-University of KwaZulu-Natal, Pietermaritzburg, 2004.

Biodiversity conservation.

Theses--Environmental Science.

Plant-bee interactions and pollen flux in restored areas of Atlantic Forest / Interações planta-abelha e o fluxo de pólen em áreas restauradas de Mata Atlântica

Pfeiffer, Paula Maria Montoya

14 December 2018

The conservation and restoration of pollinators is essential for sustaining viable plant populations in fragmented landscapes because they promote genetic diversity among isolated individuals. As it is expected that populations in remnant and restored forests perpetuate with the passing of the years, restoration programs on highly fragmented agricultural landscapes should be planned with consideration for achieving this purpose. In this work, we evaluated plant-pollinator interactions in restored tropical forests, aiming to establish first, the pollination requirements of plant species in these communities, and secondly, if the pollinator requirements are being fulfilled and the interactions between plants and pollinators are being recovered throughout restoration practices. This work comprises two chapters: On the first one (\"Are the assemblages of tree pollination modes being recovered by tropical forest restoration?\") we did an extensive literature review about the pollination biology of tree species in primary forests, restoration plantings and naturally regenerated forests, to compare and identify patterns on the functional diversity and the assemblages of plant pollination modes. On the second chapter (\"Functional responses and effects from bee communities in restored tropical forests\") we sampled bees (i.e. the most important pollinators) and identified the pollen grains attached to their bodies in primary forests, restoration plantings, disturbed herbaceous areas and sugar cane fields; afterwards we analyzed and compared the functional diversity of bee communities and their floral resources, and the structure of plant-bee interactions, as well as in response to habitat isolation. We found that different restoration practices leaded to changes on patterns of abundance and species proportions of several plant pollination modes, which were stronger in locations under active restoration activities than in naturally regenerated forests. Specifically in the case of bees, we found that the demand for their function as pollinators in restoration plantings was even higher than that in primary forests, since many bee pollinated tree species were being widely and preferably used due to their great colonizing ability, or because of the many other ecosystem functions and services that they provide. We observed that bee communities were getting benefited by such over-representation of bee floral resources, since many species visited more frequently the tree species in restoration plantings than any other habitat. In spite of such preference, the bee abundance and functional diversity of bee communities was not fully recovered in restoration areas, maybe because of other habitat requirements that still remained undersupplied (e.g. nesting resources). Although the functional diversity on bee communities was high in general, only a small part, which was also the most vulnerable (i.e. larger bees that nest above-ground, have different levels of sociality and are polylectics), was the principal in charge of the pollination of the most important plant species in primary and restored forests (i.e. native woody plants, from initial successional stages and with different pollination modes). Throughout this work we analyzed and discussed the implications of these results for the recovery of plant-pollinator interactions and on future decisions in restoration and conservation planning / A conservação e restauração dos polinizadores são essenciais para a manutenção das populações vegetais nas paisagens fragmentadas, pois eles proporcionam diversidade genética entre os indivíduos espacialmente isolados. Dado que se espera que as populações nas florestas remanescentes e restauradas se perpetuem com o passar dos anos, os programas de restauração devem ser planejados também considerando alcançar este objetivo. Neste trabalho avaliamos as interações planta-polinizador em florestas tropicais em restauração, objetivando estabelecer primeiro, os requerimentos de polinização nestas comunidades e segundo, se os requerimentos de habitat dos polinizadores estão sendo satisfeitos e as interações entre plantas e polinizadores estão se recuperando através das práticas de restauração. O trabalho compreende dois capítulos: No primeiro (\"Os sistemas de polinização de espécies arbóreas estão se recuperando por meio da restauração de florestas tropicais?\") realizamos uma revisão exaustiva na literatura sobre a biologia da polinização das espécies de árvores em florestas primárias, plantios de restauração e florestas naturalmente regeneradas, para depois comparar e identificar os padrões na diversidade funcional e nas assembléias de modos de polinização. No segundo capítulo (\"Respostas e efeitos funcionais das comunidades de abelhas em florestas tropicais restauradas\") coletamos abelhas (i.e. os principais polinizadores) e identificamos os grãos de pólen aderidos no seu corpo, em florestas primárias, plantios de restauração, áreas herbáceas degradadas e cultivos de cana-de-açúcar; depois analisamos e comparamos a diversidade funcional das comunidades de abelhas e seus recursos florais, a estrutura das redes de interação e também em resposta ao isolamento do habitat. Encontramos que diferentes práticas de restauração geraram maiores mudanças nas proporções de vários modos de polinização, em lugares submetidos a atividades de restauração ativa do que nas florestas regeneradas naturalmente. Especificamente no caso das abelhas, encontramos que a demanda pela sua função como polinizadores nos plantios de restauração era ainda maior do que nas florestas primárias, pois muitas espécies de árvores polinizadas por abelhas estavam sendo preferivelmente plantadas graças a sua maior habilidade como colonizadoras, ou devido à outras funções e serviços ecossistêmicos que elas provem. Observamos que as abelhas estavam se beneficiando dessa super-representação de recursos florais, dado que várias espécies visitaram mais freqüentemente as árvores presentes nos plantios de restauração do que em outras áreas. Apesar dessa preferência, a abundância de indivíduos e a diversidade funcional nas comunidades de abelhas ainda não estavam totalmente recuperadas nas áreas em restauração, provavelmente porque alguns dos seus requerimentos de habitat estão ainda pouco fornecidos (e.g. recursos de nidificação). Mesmo que a diversidade funcional nas comunidades de abelhas tenha sido alta de maneira geral, somente uma pequena parte dela, que também foi a mais vulnerável (i.e. abelhas de maior porte que nidificam por cima do solo, tem diferentes níveis de sociabilidade e são polilécticas), foi a principal encarregada do transporte de pólen das plantas mais importantes das florestas primárias e restauradas (i.e. plantas lenhosas, nativas, de successão inicial e com diferentes modos de polinização). Ao longo deste trabalho analisamos e discutimos as implicações destes resultados para a recuperação das interações planta-polinizador e nas futuras decisões no planejamento da restauração e conservação ecológica

Biodiversity conservation

Community assemblage

Conservação da biodiversidade

Diversidade funcional

Ecosystem management

Estrutura de comunidades

Floresta semidecidual

Forest fragmentation

Fragmentação florestal

Functional diversity

Manutenção de ecossistemas

Pollination syndromes

Semi-deciduous forest

Síndromes de polinização

The Oregon Nearshore Research Inventory Project : the importance of science and the scientific research community in marine spatial planning

Sherman, Kate (Katherine Joanna Hav)

31 May 2012

The purpose of Oregon's Nearshore Research Inventory (NRI) project was to inventory and map the current and future use of Oregon's nearshore environment by the scientific research community for use in Oregon's marine spatial planning process. Spatial and qualitative data on the use of Oregon's ocean and coast by the scientific research community was collected using ethnographic research methods, including the geographic distribution of research, the people who are conducting scientific research, timeline for scientific research, and more. Through the NRI project, Oregon's Territorial Sea amendment process became the first marine spatial planning process in the world, other than through ocean zoning (e.g. Australia's Great Barrier Reef and China), to comprehensively recognize the scientific community as a stakeholder. This thesis contains the methods used to create the NRI database, interview the scientific community, and includes future recommendations for managers and the scientific community based on the results of the NRI. As new uses, such as wave energy extraction, get proposed along coastlines and in the ocean, marine spatial planning (MSP) can be a tool to reduce conflict and find compatible uses of ocean and coastal space. Sound science needs to be used to understand social, ecological, and economic components to ocean and coastal resources and make tradeoff decisions about ocean and coastal space use in the MSP process. The results of the NRI project demonstrate the need to recognize that the scientific research community as a stakeholder in the MSP process. Their use of ocean and coastal space helps provide the sound scientific information that is needed to make ecosystem-based management decisions. Interruptions in long-term scientific research and monitoring could limit the availability of scientific information for use in future management decisions. There are also other values to comprehensively inventorying use of the ocean and coast by the scientific community. Spatial data about where people conduct scientific research provides information for potential collaboration amongst the scientific community and between scientists and non-scientists. It also identifies data gaps, which can then be filled to help have a more comprehensive understanding of ocean and coastal issues. The NRI can act as a template for other states to include the scientific community as a stakeholder in a MSP process, and as a template for a regional inventory of scientific research which can be useful for ecosystem based approaches to management. Overall, there should be value placed on sound scientific information for management decisions and the scientific community as a stakeholder in the marine spatial planning process, as demonstrated through the NRI. / Graduation date: 2013

marine spatial planning

wave energy

science in management decisions

stakeholders

territorial sea plan

Marine resources -- Oregon

Marine resources -- Oregon -- Management

Coastal zone management -- Oregon

Marine sciences -- Research -- Oregon

Marine ecosystem management -- Oregon