The Role of High-Elevation Headwater Runoff in Streamflow Generation and Water Supply in the Northern Andes, Colombia

Lotero Lozano, Laura

02 November 2017

Water security requires that sufficient quantities of water be available at critical times. This is particularly challenging for high-intensity urban and agricultural settings. In underdeveloped nations, streamflow is commonly the preferred water source, as it is readily available and delivered cost-free to users. Yet, the sources of these critical streamflows are often unknown. This issue is salient in the Northern Andes, where basic knowledge of controlling factors for the quantity, quality, and timing of runoff is lacking. High-elevation headwaters are the primary catchment areas in the Northern Andes, but the extent of water providing to municipalities in the Northern Andes is unknown. In this study, the contribution of water derived from the upper watershed to the streamflow in the Tulúa River which supplies water to 200,000 people in the city of Tulúa was quantified. The river runs 72 km through urban, agricultural, and industrial land use in the Central Cordillera of the Colombian Andes. We collected 32 and 34 water samples in August and November, respectively. The water samples were representative of high-elevation headwaters runoff, shallow groundwater discharge, and streamflow throughout the watershed. Samples were analyzed for dissolved constituents and stable isotopes. The dissolved constituents were used in mass-balance mixing models to identify the source of streamflow in the lower watershed of the Tulúa River, where it the river supports a large municipality. Results indicate that approximately 50% surface runoff largely originates as high-elevation headwater runoff, including high-elevation settings where páramos dominate the land cover. These findings underscore the need for source-water protection efforts in the upper watershed, including the páramos. This project serves as a model for other páramo derived watersheds, where source-water protection is a critical challenge.

High-elevation headwaters

runoff

streamflow

stable isotopes

mass-balance mixing models

Northern Andes

Environmental Sciences

Geochemistry

Water Resource Management

Reconstitution sédimentologique des extrêmes hydrologiques au cours du dernier millénaire dans les Alpes françaises : Relations avec les changements climatiques / Sedimentological reconstruction of hydrological extremes over the last millenium in the French Alps : Relation to climatic changes

Wilhelm, Bruno

19 June 2012

Aujourd'hui une augmentation de l'intensité des extrêmes hydrologiques est attendue avec le réchauffement global. Cependant le manque d'observations des phénomènes torrentiels et de mesures directes des précipitations en altitude sur le temps long ne permet pas d'étayer cette théorie. Les archives naturelles lacustres, par leur capacité à enregistrer l'évolution passée de l'activité torrentielle, offrent l'opportunité de combler ce manque. L'objectif de la thèse est de reconstituer l'évolution de la fréquence et de l'intensité des crues passées, à partir de l'étude de séquences sédimentaires de lacs d'altitude des Alpes Françaises. Afin d'être en mesure d'évaluer le rôle de la température sur l'activité torrentielle, notre étude se focalise sur le dernier millénaire qui a connu des périodes climatiques contrastées ; période chaude de l'Optimum Médiéval (OM), période froide du Petit Age Glaciaire (PAG) et réchauffement global actuel. Les sites d'étude ont été sélectionnés selon un transect nord-sud pour évaluer la variabilité régionale de l'activité torrentielle en réponse aux changements climatiques. Ce travail repose sur des analyses sédimentologiques et géochimiques à haute résolution qui ont permis i) de identifier les dépôts de crue, ii) de les distinguer de dépôts similaires issus de remaniements gravitaires et iii) de déterminer un marqueur fiable de l'intensité des événements. D'autre part plusieurs méthodes de datation ont été combinées dans l'objectif de diminuer les incertitudes des modèles d'âge. La fréquence de crue à l'échelle pluri-séculaire apparaît en augmentation sur l'ensemble des Alpes Françaises au cours de la période froide du PAG. Cependant à l'échelle pluri-décennale la fréquence de crue évolue différemment entre le Nord et le Sud des Alpes. Les maxima de fréquence apparaissent au cours de périodes chaudes dans les Alpes du Nord, alors que les maxima dans les Alpes du Sud semblent correspondre à des phases négatives de l'Oscillation Nord-Atlantique. De plus les événements de crue extrême se produisent au cours des périodes les plus chaudes dans les Alpes du Nord alors qu'ils apparaissent au cours du PAG dans les Alpes du Sud. Ces résultats suggèrent donc une régionalisation des effets du réchauffement global sur les crues extrêmes et les précipitations intenses. / An increase of the intensity of hydrological extremes is expected in the current context of the global warming. However, the lack of observations of torrential events and measurements of precipitation at high elevation areas does not allow supporting this theory. Past flood evolutions can be recorded in lake sediments and allow to explore the evolution of such events and the relationships to past climatic changes. This work aims at reconstructing the past evolution of flood frequency and intensity based on the study of sediment sequences of high elevation lakes of the French Alps. To assess the role of the temperature on this evolution, our study focused over the last millennium which includes thermal-contrasted periods such as the warm Medieval Climate Anomaly and the cold Little Ice Age. Studied sites were selected along a north-south transect to investigate the regional variability of flood evolution in response to the same context of past climatic changes. High-resolution sedimentological and geochemical analyses allowed to identify a large number of flood deposits, distinguish deposits resulting from floods from gravity processes and to assess a reliable flood intensity proxy. Some distinct dating methods were finally used to reduce age uncertainties on the age-depth relationships. An increase of the flood frequency at a multi-secular time-scale appeared over the entire French Alps during the Little Ice Age. However at a multi-decennial time-scale flood frequencies evolved differently between the north and the south of the French Alps. Maxima of flood frequency appear during the warmer periods in the northern Alps while maxima of flood frequency appear during negative phases of the North Atlantic Oscillations. Finally the most extreme events occurred during the warmer periods in the northern Alps while they occur during the Little Ice Age in the southern ones. Those results suggest thus distinct regional effects of the global warming on extreme flood events and intense precipitations and, especially, an increase of flood hazard in the northern French Alps owing to an increase of flood intensity with the warming context.

Sédimentologie

Lacs

Millénaires

Haute altitude

Crues extrêmes

Changement climatique

Sedimentology

Lakes

Millenium

High elevation

Extreme floods

Climatic changes

Classification of high-elevation, non-forested plant communities in coastal British Columbia

Klinka, Karel, Chourmouzis, Christine, Brett, Bob, Qian, H.

January 2001

Non-forested ecosystems dominate high elevation sites in coastal British Columbia, yet there has never been a comprehensive classification or mapping of all high-elevation community types. The objective of this study is to collate and expand upon previous classifications, and thereby to increase our understanding of the habitats and composition of these plant communities.

Alpine tundra

Biodiversity

Classification

Coastal British Columbia

Diversity

Ecosystem classification

High-elevation

Mountain ecology

Mountain hemlock

Non-forested plant communities

Parkland

Plant communities

Slope position

Snow

Steep gradient

Classification of high-elevation, non-forested plant communities in coastal British Columbia. Full report.

Brett, Bob, Klinka, Karel, Qian, H., Chourmouzis, Christine

03 1900

This report expands and clarifies previous classifications of non-forested plant communities from upper subalpine and alpine locations in coastal British Columbia. A total of 80 plots (releves) sampled specifically for this study were added to 202 releves from published and unpublished studies conducted since 1963. We used tabular and multivariate methods to synthesize and classify plant communities according to the Braun-Blanquet approach. Plant communities were classified into 37 vegetation units (associations or subassociations) which served as the basis of the resulting hierarchical classification. We describe the habitat and species composition of these vegetation units and their relationship to units recogized elsewhere in the Pacific Northwest. We then present eight generalized habitat types which we propose as the basic units for future ecosystem mapping. Each of these habitat types includes a predictable mosaic of vegetation units whose pattern occurs at too fine a scale to map individually.

Alpine tundra

Biodiversity

Classification

Diversity

Ecosystem classification

High-elevation

Mountain ecology

Mountain hemlock

Non-forested plant communities

Parkland

Plant communities

Slope position

Snow

Steep gradient

Vegetation, climate and fire dynamics of Upper Montane Forest and Campos de Altitude during the Holocene in southeastern Brazil

Guarinello de Oliveira Portes, Maria Carolina

23 September 2019

O bioma Mata Atlântica é mundialmente reconhecido como uma das regiões de maior diversidade biológica do planeta, abrigando elevada riqueza de espécies e um elevado número de espécies endêmicas, se estendendo por cerca de 1.300.000 km2 ao longo da costa brasileira, entre as latitudes 3º e 33º S e longitudes 35º e 57º L. Como resultado do incremento das atividades humanas de uso da terra e, consequentemente, de ampla modificação da paisagem ao longo dos séculos, cerca de apenas 10-15% do bioma Mata Atlântica ainda se encontra em estado natural ou próximo ao natural, sendo considerados áreas prioritárias para conservação. Devido à grande variedade climática e geomorfológica, o bioma Mata Atlântica é um complexo mosaico de diferentes ecossistemas. Dentre estes, a floresta com Araucária (Floresta Ombrófila Mista), a floresta nebular (Floresta Ombrófila Densa Altomontana) e os campos de altitude ocupam as médias e altas altitudes da Serra do Mar, que se estende por cerca de 1000 km paralela à costa, do sul ao sudeste brasileiro. A distribuição da floresta com Araucária está relacionada ao clima úmido e relativamente frio, entre 400 e 1400 m s.n.m. no sul do Brasil e em fragmentos menores entre as altitudes de 1400 a 1800 m s.n.m. no Sudeste. Atualmente, está reduzida a não mais do que 7% da sua distribuição original. A floresta nebular se estende nas encostas do alto da Serra do mar, normalmente acima de 1100 m s.n.m. no Sul e acima de 1500 m s.n.m. no sudeste do Brasil, nos pequenos vales e sítios protegidos. Os campos de altitude são uma vegetação tipicamente herbácea, restrita aos cumes e picos da serra e aos platôs mais elevados. Estudos paleoecológicos demonstraram que, apesar deste mosaico de ecossistemas ter persistido durante o Holoceno, a perpetuação dos campos de altitude é muito frágil. Como a vegetação campestre se expande em condições climáticas mais frias e secas e parece ser adaptada ao fogo, sugere-se que a presente área de campos de altitude é maior do que esperada sobre as condições climáticas atuais, especialmente em locais mais quentes em altitudes mais baixas. Além disso, estudos de mudanças climáticas preveem um clima mais quente e úmido durante o século 21, que provavelmente irá intensificar a migração da floresta atlântica para maiores altitudes, em detrimento da vegetação campestre. Nesta pesquisa, as relações passadas e presentes do mosaico de campos de altitude e florestas altomontanas (floresta com Araucária e floresta Atlântica nebular) são exploradas por meio de análises palinológicas. Inicialmente, foi investigada a correlação atual entre cobertura vegetal e produção de pólen. Observou-se que os taxa arbóreos são superestimados no conjunto de pólen de campos de altitude, constituindo uma área muito maior de captação de pólen do que no conjunto de pólen arbóreos. Sendo assim, o conjunto de pólen que caracteriza a vegetação de campos de altitude apresenta uma grande proporção de taxa de vegetação arbórea. Posteriormente, um sedimento de quase 10.000 anos foi analisado, demonstrando que, apesar dos taxa representantes da floresta altomontana estarem presentes na região de estudo durante todo o Holoceno, a vegetação florestal expandiu majoritariamente durante o Holoceno Tardio. Até cerca de 1350 cal a AP, a vegetação de campos de altitude ocupava áreas mais extensas. Em geral, os resultados demonstraram que o aumento de temperatura e precipitação ao longo do Holoceno favoreceram a migração da floresta para altitudes mais elevadas. Além disso, a pesquisa indicou que o fogo já estava presente na região antes da chegada dos primeiros humanos no Sudeste do Brasil, implicando na adaptação da vegetação campestre ao fogo. Por último analisou-se a dinâmica da vegetação nos últimos sete séculos. Os resultados indicaram que interferências antropogênicas como fogo, pastoreio e exploração madeireira desempenharam um importante papel na relação campos-floresta na Serra do Mar do Sudeste do Brasil. Com base nestes estudos, sugere-se que a manutenção do mosaico de campos de altitude e floresta no clima presente e futuro depende tanto de um manejo ativo quanto da mudança de foco da conservação de ambientes florestais para ambientes campestres.

333

577

Upper montane rain forest

tropical mountains

Southeastern Brazil

palynology

palaeoecology

climate and fire history

Ökologie {Biologie} (PPN619463619)

Mountains as crossroads : temporal and spatial patterns of high elevation activity in the Greater Yellowstone ecosystem, USA

Reckin, Rachel Jean

January 2018

In the archaeological literature, mountains are often portrayed as the boundaries between inhabited spaces. Yet occupying high elevations may have been an adaptive choice for ancient peoples, as rapidly changing elevations also offer variation in climate and resources over a relatively small area. So what happens, instead, if we put mountain landscapes at the center of our analyses of prehistoric seasonal rounds and ecological adaptation? This Ph.D. argues that, in order to understand any landscape that includes mountains, from the Alps to the Andes, one must include the ecology and archaeology of the highest elevations. Specifically, I base my findings on new fieldwork and lithic collections from the Absaroka and Beartooth Mountains in the Greater Yellowstone Ecosystem (GYE) of the Rocky Mountains, which was a vital crossroads of prehistoric cultures for more than 11,000 years. I include five interlocking analyses. First, I consider the impacts of anthropogenic climate change on high elevation cultural resources, focusing on the diminishing resiliency of ancient high elevation ice patches and the loss of the organic artifacts and paleobiological materials they contain. Second, I create a dichotomous key for chronologically typing projectile points, suggesting a methodological improvement for typological dating in the GYE and for surface archaeology more broadly. Third, I use obsidian source data to consider whether mountain people were a single, unified group or were represented by a variety of peoples with different zones of land tenure. Fourth, I consider high elevation occupation in both mountain ranges as part of the seasonal round, using indices of diversity in tool types and raw material to study how the duration of those occupations changed through time. And, finally, I test the common contention that ancient people primarily used mountains as refugia from extreme climatic pressure at lower elevations. Ultimately, I find that, in both mountain ranges, increased high elevation activity is most highly correlated with increased population, not with hot, dry climatic conditions. In other words, the mountains were more than simply refugia for plains or basin people to occupy when pressured by climatic hardship. In addition, between the Absarokas and the Beartooths the evidence suggests two different patterns of occupation, not a monolithic pan-mountain adaptation. These results demonstrate the potential contributions of surface archaeology to our understanding of prehistory, and have important implications for the way we think about mountain landscapes as peopled spaces in relation to adjacent lower-elevation areas.