A figura de Horace Lane: lutas de representações e formação da rede de escolas americanas no Brasil (1885-1912) / The figure of Horace Lane: struggles of representations and the formation of the American schools network in Brazil (1885-1912)

Ivanilson Bezerra da Silva

10 September 2015

Este estudo da figura de Horace Manley Lane leva em consideração as lutas de representações e a formação de rede de Escolas Americanas no Brasil entre os anos de 1885 e 1912. O objetivo é lançar luz sobre essa figura, cuja atuação foi marcada por disputas de poder no campo educacional protestante, e suas práticas educacionais e missionárias. Tradicionalmente, ele é conhecido como consultor da reforma do ensino público paulista, mas como veremos, sua atuação vai além das representações construídas na historiografia e no campo educacional brasileiro. Como educador, foi defensor do modelo educacional norte-americano, fazendo circular no Brasil elementos de uma pedagogia então moderna. Além disso, o trabalho discute o fato de que uma de suas propostas para disseminar a cultura e os valores do presbiterianismo norte-americano foi a criação de uma rede de escolas americanas. Nossa hipótese é que entre suas práticas como educador estava a organização de escolas, principalmente em cidades que contavam com o apoio de maçons, presbiterianos, republicanos e de pessoas ligadas a sua rede de relacionamentos, o que configura sua relação de poder com agentes sociais ligados à Maçonaria, à educação e ao presbiterianismo. Como educador organizou o Mackenzie College, primeira instituição particular de ensino superior no Brasil. Como missionário, não estava ligado ao campo presbiteriano brasileiro e nem frequentava uma igreja. Nessa condição, não atuava como os primeiros missionários norte-americanos de confissão de fé presbiteriana, através da evangelização direta, e sim, através da educação como forma de evangelização indireta. Como missionário e educador, construiu representações acerca do Brasil, da educação, da política e da catequese indígena que nos ajudam a compreender representações e práticas pouco conhecidas e pouco trabalhadas na historiografia e na perspectiva da história da educação. Como fundamentação teórica, utilizamos o conceito de representação em Roger Chartier, a categoria de lugar social, estratégia e tática de Michel de Certeau, o conceito de campo em Bourdieu, de sociedade de ideias de Bastian, de paradigma indiciário de Ginzburg, entre outros. A pesquisa faz uso de fontes primárias, tais como: relatórios educacionais produzidos por Horace Lane, Relatórios da Igreja Presbiteriana norte-americana, prospectos educacionais, relatórios de missionários, jornais, cartas e outros. / This study about the figure of Horace Manley Lane takes into account the struggles of representations and the formation of the American Schools network in Brazil in the years 1885 to 1912. Our objective is to shed light to this person whose actions were marked by power disputes, and to his educational and missionary practices. Lane is traditionally known as a consultant for the public education in São Paulo, but as we shall see, his actions go further than that which is presented in the constructed representations in historiography and in the Brazilian educational field. As an educator, he was a defender of the American Presbyterian educational model. In Brazil, he prompted the circulation of some elements of what was then known as modern pedagogy. Moreover, this paper discusses the fact that one of his propositions to disseminate the American Presbyterianism culture and values was the creation of a American schools network. Our hypothesis is that among his practices as an educator there was the organization of schools, especially in cities where he could find the support of Masons, Presbyterians, Republicans; people who were linked to his personal network, thus configuring his power relations with social agents connected with the Masonry, the education and the Presbyterianism. As an educator organized the Mackenzie College, the first private institution of higher education in Brazil. As a missionary, he presented no connection with the Brazilian Presbyterian field, nor did he attend religious services here. Therefore, he did not work as the first American Presbyterians, through direct evangelization, but rather through education as a way of indirect evangelization. As a missionary and an educator, he built representations about Brazil, the local education, politics, and the catechism of the indigenous people. Those representations allow us to understand the representations and practices which are little known or worked on in historiography and on the perspective of history of education. To a theoretical foundation we bring representation concepts developed by Roger Chartier, the social place category, strategy and tactics in Michel de Certeau, the field concept in Bordieu, the society of ideas in Bastian, and the evidential paradigm in Ginzburg, among others. The research uses primary sources, such as, educational reports produced by Horace Lane, American Presbyterian Church reports, educational prospects, missionaries reports, newspapers and others.

Educação norte-americana

Horace Manley Lane

Lutas de representações

Mackenzie College

Presbiterianismo

American education in Brazil

Horace Manley Lane

Mackenzie College

Presbyterianism

Struggles of representations

The ecology and dynamics of ice wedge degradation in high-centre polygonal terrain in the uplands of the Mackenzie Delta region, Northwest Territories

Steedman, Audrey Elizabeth

24 December 2014

Climate warming has the potential to alter the structure and function of Arctic ecosystems in ways that are not fully understood. Polygonal terrain is a widespread permafrost feature of Arctic landscapes that is likely to be impacted by warming ground temperatures. This is of particular relevance in the uplands in the Mackenzie Delta region, where high-centre ice wedge polygon fields comprise 10% of the terrestrial landscape, and mean annual ground temperatures have increased between 1 and 2°C over the last 40 years (Burn and Kokelj 2009). I used broad-scale airphoto analysis and fine-scale field studies to investigate the impacts and possible trajectories of ice wedge degradation in the upland tundra north of Inuvik, NWT. Field investigations were undertaken to characterize biotic and abiotic conditions and feedbacks in stable and degrading high-centre polygons. Field surveys were conducted along transects which crossed three polygon micropositions (centres, edges and troughs) and targeted a degradation sequence from stable troughs to ice wedge melt ponds. I measured surface microtopography, active layer depth, water depth, plant community composition, soil gravimetric moisture, late winter snow depth, and shallow annual ground temperatures. Field data showed that ice wedge degradation drove increases in soil moisture, standing water depth, ground surface collapse, ground temperature, and active layer thaw and snow pack compared to stable troughs. These changing abiotic conditions drove the shift from mesic upland tundra plant communities to unvegetated melt ponds. Interactions between abiotic and biotic factors in degrading troughs increase ground temperature and contribute to positive feedbacks for ice wedge degradation. Analysis of broad-scale factors affecting ice wedge degradation involved the mapping of high-centre polygon distribution across the study area and the distribution of ice wedge melt ponds using high-resolution aerial photographs from 2004. Recent changes in melt pond area were also mapped using imagery dating from 1972. Thermokarst activity in polygonal terrain adjacent to anthropogenic disturbances was also assessed. Polygon fields were more abundant and larger in the northern part of the study area, where ground temperature conditions were most favourable for ice wedge formation. Spatial variation in polygonal terrain density was also related to topography, drainage, and the distribution of lacustrine sediments. Melt pond mapping and assessment of thermokarst at anthropogenic disturbances showed that ice wedges at higher latitudes are more susceptible to degradation primarily because these areas are underlain by larger and more abundant ice wedges. Melt pond mapping confirmed that the polygonal fields north of 69.4°N have shown both large increases and decreases in area, and that polygons in the south have been relatively stable in recent decades. The increased thaw sensitivity of polygonal terrain at higher latitudes has implications for soil carbon dynamics, terrestrial ecosystems, and the planning and maintenance of infrastructure as air and ground temperatures continue to increase. / Graduate / 0329 / 0372 / 0388

Mackenzie Delta

ice wedge polygons

permafrost degradation

remote sensing

plant community composition

peatlands

Climate impacts on hydrometric variables in the Mackenzie River Basin

Yip, Queenie

25 January 2008

The research described in this thesis examines how the hydrologic cycle is affected by climate changes in the Mackenzie River Basin (MRB) in northern Canada. The study focuses on five hydro-meteorological variables; runoff, evapotranspiration, storage, temperature and precipitation. Two different climate input data sets were used: Environment Canada gridded observed data and the European Center for Medium range Weather Forecasting (ECMWF) Re-Analysis climate data (ERA-40). In both data sets, runoff and evapotranspiration were modelled using the WATFLOOD hydrological model for the period of 1961 to 2002 on a 20 by 20 km grid. Trends were assessed on a monthly and annual basis using the Mann-Kendall non-parametric trend test. The hydrologic cycle in the MRB appears to be strongly influenced by climate change. The results reveal a general pattern of warming temperatures, and increasing precipitation and evapotranspiration. Overall decreases in runoff and in storage were detected from the Environment Canada data set while increases in runoff and in storage were detected from the ECMWF data set. The trends in runoff and evapotranspiration reflected changes in both precipitation and temperature. The spatial pattern of changes in runoff followed the pattern of change in precipitation very closely in most of the months, with the exception of March and October. The effect of changes in temperature is much more noticeable than that of changes in precipitation in March and October. The change in spatial distribution of evapotranspiration, on the other hand, matched the pattern of changes in temperature better; yet its seasonal pattern follows more closely to that of precipitation. The sensitivity of annual runoff to changes in climate was also estimated using a nonparametric estimator. Among the most important findings are: 1) runoff was more sensitive to precipitation and less sensitive to temperature; 2) runoff was positively correlated with precipitation and evapotranspiration; 3) runoff was negatively correlated with temperature, implying any increase in melt runoff from glaciers caused by increases in temperature were offset by losses due to evapotranspiration within the basin; 4) soil moisture storage may play an important role in the runoff and evapotranspiration processes; and 5) the sensitivity of mean annual runoff to changes in precipitation and evapotranspiration is typically lower along the Rocky Mountain chain, higher in the central zone of the Interior Plain, and highly varied in the Canadian Shield region in the basin. Correlation analysis suggested that the agreement between the two data sets is very weak at the grid-cell level. However, there was broad degree of consistencies in the seasonal and spatial patterns of trends between the two data sets, suggesting that the data are more reliable for identifying hydrological changes on a regional scale than at grid-cell level.

trends

climate-change

variability

sensitivity analysis

Mackenzie River Basin

Civil Engineering

The Ten Stone Ranges Structural Complex of the central Mackenzie Mountains fold-and-thrust belt: a structural analysis with implications on the Plateau Fault and regional detachment level

MacDonald, Justin

January 2009

The Cordilleran Orogen affected majority of the western margin of ancient continental North America in the Cretaceous, which is well recorded in the Foreland Belt. The Mackenzie Mountains fold-and-thrust belt is located primarily in the westernmost Northwest Territories and easternmost Yukon Territory in northern Canada. The mountains are often described as the northern extension of the Rocky Mountains to the south which are one of the world’s best examples of a thin-skinned fold-and-thrust belt. Within the Mackenzie Mountains, Neo-Proterozoic through Cretaceous sedimentary rocks record the Laramide aged deformation, with a range of structures that vary in size and complexity. Previous mapping by the Geological Survey of Canada produced a series of reconnaissance maps that are still in use today, many of which are available in only black and white. This study is focused on a part of the 1:250 000 scale NTS 106A Mount Eduni map sheet from Geological Survey of Canada reconnaissance mapping in 1974. The study involved re-mapping a large panel at 1:50 000 scale to better understand the structural geometry, regional shortening and the depth of the underlying detachment level. Through systematic geologic mapping and structural analyses, this study presents a balanced regional cross-section, numerous serial cross-sections and a detailed geologic map of the study area, the Ten Stone Ranges Structural Complex. The serial cross-sections were used to define the geometry of the Cache Lake Fold, a large fault-bend-fold system that involves a folded thrust fault and complicated subsurface geometry. In addition to this, the sections confirmed that the TSRSC is a transfer zone whereby a series of thrust faults and décollement folds are responsible for much of the displacement and shortening in the Mount Eduni map sheet. The balanced regional cross-section was constructed across a number of key structural elements, in particular the Plateau Fault, a regional structure with a > 250 kilometer strike length and the subject of much debate as to its geometry. In addition to this structure, the cross-section transects the Cache Lake Fold and the Shattered Range Anticline, a regional box shaped anticline that was used for a “depth to detachment” calculation. By examining the regional detachment level estimated from the balanced cross-section and calculating the detachment depth using the Shattered Range Anticline the detachment depth was found to be – 11.3 kilometers below the current erosional level. This study is the first structural analyses of the Mount Eduni map sheet, particularly the Ten Stone Ranges Structural Complex, and has resulted in an estimate of the detachment depth for the area, a shortening estimate of > 7 kilometers across the 50 kilometer line of section and a displacement estimate for the Plateau Thrust of > 20 kilometers.

Earth Sciences

Climate impacts on hydrometric variables in the Mackenzie River Basin

Yip, Queenie

25 January 2008

The research described in this thesis examines how the hydrologic cycle is affected by climate changes in the Mackenzie River Basin (MRB) in northern Canada. The study focuses on five hydro-meteorological variables; runoff, evapotranspiration, storage, temperature and precipitation. Two different climate input data sets were used: Environment Canada gridded observed data and the European Center for Medium range Weather Forecasting (ECMWF) Re-Analysis climate data (ERA-40). In both data sets, runoff and evapotranspiration were modelled using the WATFLOOD hydrological model for the period of 1961 to 2002 on a 20 by 20 km grid. Trends were assessed on a monthly and annual basis using the Mann-Kendall non-parametric trend test. The hydrologic cycle in the MRB appears to be strongly influenced by climate change. The results reveal a general pattern of warming temperatures, and increasing precipitation and evapotranspiration. Overall decreases in runoff and in storage were detected from the Environment Canada data set while increases in runoff and in storage were detected from the ECMWF data set. The trends in runoff and evapotranspiration reflected changes in both precipitation and temperature. The spatial pattern of changes in runoff followed the pattern of change in precipitation very closely in most of the months, with the exception of March and October. The effect of changes in temperature is much more noticeable than that of changes in precipitation in March and October. The change in spatial distribution of evapotranspiration, on the other hand, matched the pattern of changes in temperature better; yet its seasonal pattern follows more closely to that of precipitation. The sensitivity of annual runoff to changes in climate was also estimated using a nonparametric estimator. Among the most important findings are: 1) runoff was more sensitive to precipitation and less sensitive to temperature; 2) runoff was positively correlated with precipitation and evapotranspiration; 3) runoff was negatively correlated with temperature, implying any increase in melt runoff from glaciers caused by increases in temperature were offset by losses due to evapotranspiration within the basin; 4) soil moisture storage may play an important role in the runoff and evapotranspiration processes; and 5) the sensitivity of mean annual runoff to changes in precipitation and evapotranspiration is typically lower along the Rocky Mountain chain, higher in the central zone of the Interior Plain, and highly varied in the Canadian Shield region in the basin. Correlation analysis suggested that the agreement between the two data sets is very weak at the grid-cell level. However, there was broad degree of consistencies in the seasonal and spatial patterns of trends between the two data sets, suggesting that the data are more reliable for identifying hydrological changes on a regional scale than at grid-cell level.

trends

climate-change

variability

sensitivity analysis

Mackenzie River Basin

Civil Engineering

The Ten Stone Ranges Structural Complex of the central Mackenzie Mountains fold-and-thrust belt: a structural analysis with implications on the Plateau Fault and regional detachment level

MacDonald, Justin

January 2009

The Cordilleran Orogen affected majority of the western margin of ancient continental North America in the Cretaceous, which is well recorded in the Foreland Belt. The Mackenzie Mountains fold-and-thrust belt is located primarily in the westernmost Northwest Territories and easternmost Yukon Territory in northern Canada. The mountains are often described as the northern extension of the Rocky Mountains to the south which are one of the world’s best examples of a thin-skinned fold-and-thrust belt. Within the Mackenzie Mountains, Neo-Proterozoic through Cretaceous sedimentary rocks record the Laramide aged deformation, with a range of structures that vary in size and complexity. Previous mapping by the Geological Survey of Canada produced a series of reconnaissance maps that are still in use today, many of which are available in only black and white. This study is focused on a part of the 1:250 000 scale NTS 106A Mount Eduni map sheet from Geological Survey of Canada reconnaissance mapping in 1974. The study involved re-mapping a large panel at 1:50 000 scale to better understand the structural geometry, regional shortening and the depth of the underlying detachment level. Through systematic geologic mapping and structural analyses, this study presents a balanced regional cross-section, numerous serial cross-sections and a detailed geologic map of the study area, the Ten Stone Ranges Structural Complex. The serial cross-sections were used to define the geometry of the Cache Lake Fold, a large fault-bend-fold system that involves a folded thrust fault and complicated subsurface geometry. In addition to this, the sections confirmed that the TSRSC is a transfer zone whereby a series of thrust faults and décollement folds are responsible for much of the displacement and shortening in the Mount Eduni map sheet. The balanced regional cross-section was constructed across a number of key structural elements, in particular the Plateau Fault, a regional structure with a > 250 kilometer strike length and the subject of much debate as to its geometry. In addition to this structure, the cross-section transects the Cache Lake Fold and the Shattered Range Anticline, a regional box shaped anticline that was used for a “depth to detachment” calculation. By examining the regional detachment level estimated from the balanced cross-section and calculating the detachment depth using the Shattered Range Anticline the detachment depth was found to be – 11.3 kilometers below the current erosional level. This study is the first structural analyses of the Mount Eduni map sheet, particularly the Ten Stone Ranges Structural Complex, and has resulted in an estimate of the detachment depth for the area, a shortening estimate of > 7 kilometers across the 50 kilometer line of section and a displacement estimate for the Plateau Thrust of > 20 kilometers.

Earth Sciences

KINSHIP AND SOCIAL ORGANIZATION AMONG THE GREAT BEAR LAKE INDIANS: A CULTURAL DECISION-MAKING MODEL

Rushforth, Everett Scott, 1950-

January 1977

No description available.

Tinne Indians.

Kinship -- Terminology.

Social structure.

Population genetic structure of North American broad whitefish, Coregonus nasus (Pallas), with emphasis on the Mackenzie River system

Harris, Les N.

11 1900

Broad whitefish, Coregonus nasus, is an important subsistence fish species in Arctic North America, yet virtually nothing is known regarding the genetic population structure of Nearctic populations of this species. In this thesis, microsatellite DNA variation was assayed among 1213 broad whitefish from 47 localities throughout North America, with emphasis on the Mackenzie River system, Northwest Territories. Specifically, I examined geographic variation in allele frequencies to assess how historical factors (Pleistocene glaciations) have shaped the current structuring of genetic variability and population differentiation. Microsatellite data was also used to resolve the relative contributions of broad whitefish populations to subsistence fisheries in the Mackenzie River system. Overall, broad whitefish exhibit relatively high intrapopulation microsatellite variation (average 12.29 alleles/locus, average HE = 0.58) and there were declines in these measures of genetic diversity with distance from putative refugia suggesting historical factors, namely post-glacial dispersal, have influenced current microsatellite variation. Interpopulation divergence was low (overall FST = 0.07), but the main regions assayed in this study (Russia, Alaska, Mackenzie River and Travaillant Lake systems) are genetically differentiated. Strong isolation-by-distance among samples was resolved when including only those populations occupying former Beringia, but not when assaying those at the periphery of the range in the Mackenzie River system, suggesting that broad whitefish in the Mackenzie system have not occupied the region long enough since their invasion post-glacially to have approached equilibrium between gene flow and drift. Mixture analysis indicated that most fish from the lower Mackenzie River subsistence fishery originated from the Peel River, highlighting the importance of this tributary. Additionally the mixture analysis provides evidence for a putative riverine life history form in the Mackenzie River. My results indicate that glaciation and post-glacial colonization have been important in shaping the current genetic population structure of North American broad whitefish. They also illustrate the utility of microsatellite DNA to delineate population structure and patterns of genetic diversity in recently founded populations in addition to resolving contributions to fisheries. My data also support the hypothesis that there are several designatable units of conservation among broad whitefish populations and that management strategies should be implemented accordingly.

Broad whitefish

Microsatellite DNA

Population structure

Mackenzie River

Genetic variation

Phylogeography

On the road to sustainable community forestry: a case study of three British Columbia forestry-dependent towns

Code, Kathleen Lynne

17 March 2011

Extensive mill closures by industrial forestry companies in forestry-dependent towns in British Columbia, have, in many cases, resulted in effectively eliminating the local primary industry. Communities have lost the economic and social base that sustains families, the municipal tax base and the local retail market, and the local forest expertise has been forced to look elsewhere for work. Many communities around the world have developed viable community forestry frameworks and successful operations as a means of addressing sustainability, social and economic issues. While a number of community forestry supports are available in B.C., many communities continue to experience difficulties establishing viable forestry operations. This research will examine the broad-spectrum and site-specific challenges faced by three designated B.C. communities at different stages along the continuum toward successful operations, and will propose strategies aimed at overcoming the barriers to their success.

Community forestry

Sustainable forestry

Youbou (B.C.)

Mackenzie (B.C.)

Revelstoke (B.C.)

British Columbia

Case studies (Research methodology)

Observations of Flow Distributions and River Breakup in the Mackenzie Delta, NWT

Morley, Janelle KA

Unknown Date

No description available.

Mackenzie Delta

Modelling

Breakup

Flow Distributions

River Channels

HEC-RAS

Channel Geometry