The Northward Expansion of the Albertan Parkland-Boreal Forest Ecotone Boundary in Response to Mid-Holocene Climatic Warming

Hutton, Mike

04 1900

A 7.09 m lacustrine sediment core was taken from Mariana Lake, Alberta (55º57'N, 112º01'W) to determine if the regional vegetational complex had been affected by the mid-Holocene Hypsithermal. Dating control was provided by 6 radiocarbon dates, with a second degree polynomial fitted to the dates to give an age to depth curve. The basal date of the core is 11 300 ± 110 yr BP. Fossil pollen analysis of the core revealed five distinct pollen zones. Between 11 856 and 10 434 yr BP the study site supported a sparse herb dominated vegetation. A spruce and shrub birch assemblage followed, from 10 434 to 9 100 yr BP, with increased vegetation density. The climate was likely similar to today. This was replaced by a paper birch and spruce complex from 9 100 to 7 638 yr BP likely as a result of warming climate. A mild Hypsithermal effect is recorded between 7 638 and 5 623 yr BP. A forest of decreased crown density was created, with spruce, paper birch and poplar being the major vegetational components. Modern conditions have existed at the site from 5 623 yr BP onwards, though it is hypothesised the regional water budget may have increased slightly around 2 228 yr BP; increased peat development appears to have occurred at this time. Through the use of difference diagrams the site is compared to three other published sites which, along with Mariana Lake, form a north-south transect from the southern Boreal Forest to the northern Alberta Boreal Forest. The hypsithermal vegetation changes varies with distance to the Parkland-Boreal Forest ecotone boundary. It is concluded the parkland did not reach Mariana Lake during the mid-Holocene, though conditions at the site became similar to those at the southern edge of the Boreal Forest that is proximal to the parkland. / Thesis / Bachelor of Arts (BA)

geography

expansion

Alberta; Parkland-Boreal Forest

ecotone boundary

Mariana Lake

Exploring the factors affecting tree establishment after wildfire in a boreal forest in Sweden

Pim, Robert

January 2023

The factors affecting tree establishment in boreal forests after fire will help determine the community composition of the regenerating forest. These may have large consequences on the community dynamics for years after the fire disturbance. Factors such as burn severity and soil moisture among others have been shown to play a key role in influencing several facets of establishment. However, tree establishment after megafire in boreal forest in Europe has not yet been fully understood. Here I capitalise on a megafire in Sweden in 2014 to investigate the relative impact of different abiotic factors and preconditions on tree establishment six years after the fire. This study used a systematic survey of tree saplings (height >30cm) at 625 locations inside the nature reserve set up within the burnt area. Tested factors were: The number of dead trees lying down, slope and slope aspect, elevation, soil wetness, pre-fire standing volume, distance to fire perimeter, forest stand age, stand productivity index, previous stand dominant tree species, humus thickness after fire and depth of burn. Generalized Linear Mixed Models (GLMMs) were used to estimate the effect of these factors on specific tree species abundance. Strong influences from previous wood volume, soil wetness, elevation, and dead wood lying down had an effective influence on sapling abundance but were typically species-specific. Only elevation and wood volume had a consistent effect on all species’ abundances. Habitat context was important on a landscape scale. These results support the pattern of increasing boreal deciduousness caused by high burn severity and shorter disturbance intervals, in turn, caused by hotter, drier weather, which will have implications on the composition of boreal forests of tomorrow.

tree regeneration

tree establishment

wildfire

boreal forests

disturbance

sapling regeneration

generalized linear mixed models

Ecology

Ekologi

Lavar i skogsöar i en fragmenterad skogsmiljö

Mendez From, Christian

January 2023

Epiphytic lichens are important species in the forest ecosystem. The Swedish forestry model affects them by fragmenting large old continuous forests. These fragments could be used as islands in a test of MacArthur and Wilsons theory of island biogeography. This study investigates if island biogeographic factors such as area and distance from nearest continuous forest affects lichen diversity in forest fragments, In addition time since logging to investigate if the populations will reach equilibrium and also if differences in habitats such as forest volume affects lichen diversity in addition to island biogeography. The number of lichen species were examined in 15 boreal forest fragments north of Storuman municipality, Västerbotten.   According to the results, positive significant correlations were observed between the number of lichen species and island biogeographic variables in the area of the islands. No positive correlations could be observed between the number of lichen species and distance to the nearest continuous forest.  There were also significant correlations between number of species and time since logging around the forest islands. However, there were positive correlations between the number of lichen species and forest volume, which tells us that more than island biogeographic factors that affect lichens in the form of habitat changes. This study indicates that in order to favor lichen diversity in forest landscapes it is important to maintain larger forest fragments with older trees. Clearly forest management agencies should consider the complex ecology of lichens when planning and performing forestry practices.

Boreal forest

Fragmentation

Habitat

Lichenes

Island biogeography

Species-area concept.

Ecology

Ekologi

Impact of forest management on the diversity of wood decaying fungi : A comparison between two closely related forests in southern Sweden

Sollén Mattsson, Johanna

January 2022

Modern forestry practices have negative effects on many organisms because they change the forest’s disturbance dynamics, makes the forest’s structure less complex, and fragments old-growth forests. This study examined how commercial forestry practices affect the diversity of wood-decaying fungi, by comparing two closely related forests with different management in Östergötland, Sweden. The eastern forest is commercially managed while the western forest is unmanaged and protected since the 1920’s. Ten sample plots in each forest were inventoried for CWD and wood decaying fungi. Statistical analyses showed that the unmanaged natural forest had higher species abundance and more dead wood per hectare. All red-listed species were exclusive to the natural forest. Species abundance was shown to be positively correlated with the amount of dead wood. In four cases, the presence of a species could be predicted by the diameter of the substrate. These results align with previous findings and show that natural forests with large amounts of dead wood are needed to sustain the diversity of wood decaying fungi in Swedish forests.

Biodiversity

Boreal forests

Forest management

Forestry

Natural forests

Wood decaying fungi

Ecology

Ekologi

Examining shifts in boreal carnivore species’ resource selection in response to predator control to conserve woodland caribou (Rangifer tarandus caribou) in western Canada

Baillie-David, Katherine

05 October 2022

Predators play a critical role in regulating the structure and function of ecosystems by exhibiting top-down forces on lower trophic levels. Despite their important contributions in maintaining ecosystem health, lethal predator control remains a global wildlife management strategy to reduce predation on livestock, culturally and/or economically important species, and species at risk, as well as to reduce conflict with humans. Predator control has received criticism due in part to a paucity of rigorous research on the community-level impacts of this practice, beyond the target prey species. Specifically, there is a lack of understanding of the behavioural consequences of predator control on the wider ecological community. In this thesis, I used a multi-year camera trap dataset to evaluate how government-mandated grey wolf (Canis lupus) population reduction to conserve boreal woodland caribou (Rangifer tarandus caribou) could impact the resource selection of the carnivore community in northeast Alberta, Canada. In my second chapter, I investigated whether perceived persecution risk due to predator control may alter wolf habitat selection. I found that wolves switched from positively associating with roads before predator control to avoiding anthropogenic linear features and selecting for block features after predator control. These results suggest that lethal control may prompt wolves to prioritize local prey acquisition near block features over movement on linear features. In my third chapter, I examined whether coyote, lynx, and black bear exhibited shifts in co-occurrence with habitat features, competitors, and prey consistent with a release from top-down suppression in response to predator control. I found that predator control triggered unexpected behavioural changes among coyote and lynx consistent with a release from top-down suppression, but not among black bears. Non-apex predator response to predator control may depend on the strength of competition between the apex and non-apex predator, emphasizing the need to consider bottom-up processes when trying to understand the indirect effects of predator control. This research demonstrates that predator control can have trickle-down effects within the larger ecological community, specifically affecting how species utilize resources. As predator control continues to be a recommended wildlife management strategy, it is imperative to continue investigating its unintended consequences throughout the ecological community. / Graduate

Predator control

Wildlife management

Alberta

Camera trap

Habitat selection

Species co-occurrence

Boreal forest

Wildlife

Ecology

Methane tree stem flux over the course of the spring flood : Spatial and temporal effects in a boreal riparian zone / Metanflux från trädstammar under vårflodens gång : Spatiala och temporala effekter i en boreal strandzon

Berg, Elin

January 2022

Methane (CH4) tree stem-atmosphere flux is viewed as a new frontier in the global carbon cycle and may be of great importance. The effect on flux from different tree species, forest ecosystems and seasons is still uncertain. This study aims to investigate how CH4 flux from stems of spruces and birches in a boreal riparian zone in northern Sweden was affected during the spring flood. Spatial and temporal patterns were examined in combination with tree species differences. A closed stem chamber system was applied to estimate CH4 flux from 28 trees during pre-snowmelt and snowmelt conditions. A three-way ANOVA analysis and Tukey´s HSD test was applied to test for main effects and interaction effects from “Field day”, “Distance to the stream” and “Species”. The study revealed that i) there was a significant increase in stem flux over the course of the spring flood while not unequivocal, ii) spruces and birches displayed no significant difference in flux, iii) the distance to the stream had no undisputable significant effect on stem flux. However, a trend in flux variation was observed with distance to the stream. No significant interaction effects were detected. Cumulative seasonal environmental changes or natural variability might explain temporal patterns. Spatial patterns may be connected to hot spots close to the stream. Results for species and interaction effects might facilitate estimations of fluxes in forested ecosystems. Methane flux rates are affected over the course of the spring flood, but further studies are needed to determine the cause for it.

Methane

tree stem flux

boreal forest

riparian zones

spring flood

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Biomass patterns in boreal-subarctic lake food webs along gradients of light and nutrients

Thomsson, Gustaf

January 2015

There is large natural variation in light and nutrient conditions across lakes. In the boreal-subarctic region most lakes are small, shallow and nutrient poor. In such lakes there is often sufficient light to support primary production at the lake bottom. An expectation for the future is that colored dissolved organic matter (cDOM) of terrestrial origin will increase in these lakes. cDOM depresses the underwater light climate but is often associated with elevated pelagic nutrient concentrations. A dynamical model of a coupled benthic-pelagic food web was explored for how lake ecosystems might respond to altered light and nutrient regimes. The model predicts that mobile carnivores (fish) control grazers and release primary producers from grazing pressure. Primary producers are therefore limited by their resources and cross-habitat interactions are dominated by spatially asymmetric competition for light and nutrients. At high light and low nutrient supply benthic algae out-compete pelagic algae for nutrients diffusing from the sediment, whereas pelagic algae shade out benthic algae at lower light and/or higher nutrient supply. Biomass patterns of benthic and pelagic consumers follow the patterns of primary production. In contrast, habitat coupling through carnivore movement has only a weak impact on biomass patterns in the model food web. Model predictions were compared with data from boreal-subarctic lakes covering a broad range of cDOM concentrations. In agreement with model expectations the following relationships with increasing light attenuation were observed: benthic primary and secondary production decreased, pelagic primary production showed a unimodal trend, and pelagic nutrient concentrations as well as the proportion of fish feeding in the pelagic habitat increased. As a consequence, both primary and fish production were negatively related to pelagic nutrient concentrations across lakes. In a comparative study of boreal-subarctic lakes covering a broad range of cDOM concentrations, a similar negative relationship was found between pelagic total nutrient concentrations and the biomass of epilithic algae. This was surprising, because epilithon cannot access nutrients from the sediment. Patterns in epilithon biomass were largely driven by nitrogen fixing cyanobacteria, which in turn were positively related to light supply. The data suggest that nitrogen fixing autotrophs may have a competitive advantage over other epilithic primary producers in low-cDOM, low-nutrient, high-light environments, and that patterns in epilithic biomass, nutrient sequestration and elemental stoichiometry depend upon which functional group is dominant in the epilithic biofilm.

boreal-subartic lake

cDOM

epilithon

benthic-pelagic coupling

carnivores

Ecology

Ekologi

Application of a u-w method for the detection of growth response of boreal forests to environmental changes in Northwest Territories, Canada / 北西部カナダにおける環境変化への北方林の成長応答検出に向けたu-w法の適用

Niazai, Amin

24 September 2021

京都大学 / 新制・課程博士 / 博士(農学) / 甲第23523号 / 農博第2470号 / 新制||農||1087(附属図書館) / 学位論文||R3||N5354(農学部図書室) / 京都大学大学院農学研究科森林科学専攻 / (主査)准教授 岡田 直紀, 教授 神﨑 護, 教授 北島 薫 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

Climate changes

boreal forest

growth shifts

tree ring

stem volume

610

Påverkas fåglar när myrar växer igen? : På myrar i Dalarna under 1970-och 2010-talet / Are birds affected by increased tree growth on peatlands? : On peatlands in Dalarna County during the 1970s and 2010s.

Fagerlund, Amanda

January 2024

Wetlands are among the most species-rich environments and important for biodiversity. The area of Swedish wetlands has decreased significantly over the past century, primarily due to drainage for forestry and agriculture. The volume of standing trees on peatlands increased by 75% between 1980 and 2000. Large conservation efforts aim to protect and restore wetlands, necessitating informed and effective actions. This study investigates whether populations of wetland birds in Dalarna County, Sweden, have been affected by increased tree growthbetween the 1970s and the 2010s. Using data from bird inventories conducted by Dalarnas Ornitologiska Förening and Länsstyrelsen Dalarna on 110 wetlands, a linear regression model examined the relationship between changes in the number of selected wetland birds and vegetation changes per wetland area. Vegetation changes, derived from Naturvårdsverkets satellite-based monitoring program, showed that the proportion of areas with increased biomass varied from none to 11.5%. The study found no significant relationship between vegetation changes and changes in the total number of waders or in the number of individual wetland bird species. Key ecological requirements for wetland bird species, such as low tree height and wetness, may have remained sufficiently intact to avoid affecting bird numbers, given the relatively small vegetation changes detected. Identifying areas with high conservation values and understanding how the threat of increased biomass affects these values is important to achieve the environmental goal of "Thriving Wetlands", necessitating continued monitoring to detect possible future changes and address issues promptly.

Boreal peatlands

ditching

habitat loss

bird biodiversity

Dalarna County

Ecology

Ekologi

Root traits across environmental gradients in pristine Swedish forests

Vöhringer, Naomi

January 2023

Forests account for a large portion of global carbon storage. Almost half of this carbon is stored underground. Roots, especially fine-roots (diameter ≤ 2 mm) are an important part of soil carbon, and play a number of ecological roles. Yet, the below-ground parts of trees are still poorly understood. The aim of this report was to understand environmental controls over plants traits. I tested if plants shift their root traits towards a resource conservative strategy when environmental conditions are challenging (dry and cold). Furthermore, the contribution of different fine-root diameters to total root length (TRL), surface area (SA) and root volume (VO) was assessed. Root traits such as TRL, SA, VO, fine-root diameter, specific root length (SRL) and root tissue density (RTD) were quantified. The root samples are taken from 11 old growth Swedish forests across a climate gradient in three different soil moisture categories per forest (dry, intermediate, wet). Fine-roots were scanned, and analysed with the RhizoVision Explorer Software (Version 2.0.3). Uni-factorial ANOVAs, combined with Tukey’s posthoc test, or linear regressions were conducted, and the results revealed no significant effects of the summer air temperature on root traits. However, higher soil moisture was found to decrease RTD, but increase fine-root diameters significantly. These findings did not confirm the plants aim on building resource conservative root traits in challenging conditions. Instead, they highlighted variability among and within forests suggest that multiple factors influence root morphology and function. This study contributes to our understanding of how fine-roots respond to environmental conditions.

fine-root traits

boreal forests

primary forests

soil moisture

temperature

Environmental Sciences

Miljövetenskap

Forest Science

Skogsvetenskap