Disturbance impacts on non-native plant colonization in black spruce forests of interior Alaska

2013 September 1900

While boreal forest habitats have historically been relatively free from invasive plants, there have been recent increases in the diversity and range of invasive plants in Alaska. It is critical that we understand how disturbances influence invasibility in northern boreal forests, to avoid the economic damage other regions have experienced from invasive plants. Black spruce (Picea mariana) is the dominant forest type in interior Alaska, and wildfire is the dominant disturbance in these forests. Furthermore, disturbances in the form of management for fire suppression are common in forests close to urban areas. I surveyed recently burned, managed, and undisturbed black spruce forests for invasive plants to determine if fire and management facilitate invasive plant colonization. I also conducted an experimental seeding trial with three invasive plants common to Alaska (bird vetch (Vicia cracca), common dandelion (Taraxacum officinale), and white sweetclover (Melilotus officinalis) in burned and mature black spruce forest to determine if fire facilitates invasive plant germination. To determine the effect of substrate type on invasive plant germination, I planted seeds on a variety of substrates in the burned forest. Results indicate that fire and fire suppression treatments promote invasive plant colonization, as invasive plants were observed in burned and managed areas, but not in mature stands. Analysis of environmental data taken at survey sites indicate that fire mediates invasibility through its effects on substrate quality. In burned stands, invasive plants are most likely to colonize areas of shallow post-fire organic depth. Results from the seeding trials were consistent with results from invasive plant surveys, with reduced germination in mature compared to burned forest, and no germination on the residual organic layer in the burned forest. The highest germination occurred on mineral soil in burned forest, indicating that severe fires that combust the organic layer are likely to increase invasibility. The results of this study suggest that invasive species control efforts should be prioritized to disturbed forests, particularly areas where the disturbance has exposed mineral soil.

fire

boreal forest

invasive plant

Alaska

black spruce

taraxacum

crepis

vicia

melilotus

Cellulär automat simulerar utbredning av Taraxacum

Bergman, Jimmy

January 2012

I detta arbete undersöks vilken grad av inomartskonkurrens som ger upphov till ett observerat utbredningsmönster av maskrosor (Taraxacum sect. Ruderalia). Maskrosor har både fröspridning och vegetativ förökning. Studien hypotiserar att utbredningen kan beskrivas utifrån enkla regler för spridning och konkurrens. Dessa används i simuleringar med en binär cellulär automat där utveckling sker i deterministiska tidssteg. Modellen består av ett rutnät där en tom cell antingen kan förbli tom eller koloniseras, medan en upptagen cell antingen kan överleva eller dö ut. Reglerna efterliknar situationer med hög respektive låg känslighet för inomartskonkurrens. De mått på jämförelse mellan observation och simulering som används är mönstrets fraktala dimension, mönstrets tendens att aggregera och storleken på den enklaste algoritm som beskriver datan. Två olika initialvillkor används för att testa modellens robusthet. Den observerade utbredningen kontrolleras även mot slumpmässig fördelning. Resultaten visar att den observerade utbredningen är klusterartad. Simulering med en högre inomartskonkurrens beskriver utbredningen väl sett till aggregering och fraktal dimension. Lägre inomartskonkurrens beskriver dock maskrosornas verkliga utbredning sett till algoritmisk komplexitet, vilket tolkas som att individer kan leva närmare inpå varandra än vad regeln om högre inomartskonkurrens förutsätter. För vald klusterstorlek är simuleringarna ej känsliga för initialvillkoren, men då hela fördelningen av antal celler per klusterstorlek i stickprov på ett tidssteg analyseras har initialvillkoren fakstiskt betydelse. Sett till fördelningen av cell per klusterstorlek liknar ingen simulering den observerade utbredningen. Därmed kan modellen tänkas inrymma den vegetativa förökningen medan fröspridningen, som är stokastisk, ej inryms på samma vis.

växtekologi

cellulär automat

simulering

utbredning

organisation

komplexitet

taraxacum

maskrosor

modellering

dynamik

utbredningsmönster

fraktal

Taxonomické principy, reprodukční systémy,populační genetika a~vztahy mezi vybranými skupinami rodu Taraxacum (Asteraceae) / Taxonomic principles, reproductive systems, population genetics and relationships within selected groups of genus Taraxacum (Asteraceae)

Zeisek, Vojtěch

January 2018

Chapter 3 Summary - shrnutí English and Czech summaries (abstracts) of the thesis. 3.1 English abstract Genus Taraxacum (Asteraceae), having ∼60 sections and 2,800 species, is known for its complicated evolutionary relationships and taxonomy due to processes like frequent hy- bridization, polyploidization, asexual reproduction, clonality and low structural morpho- logical variability. Various taxonomical concepts and approaches are reviewed, evaluated and discussed from point of view of their ability to deal with such a complicated genera as is Taraxacum. Various processes responsible for the complicated situation within Taraxacum are discussed and reviewed. Section Dioszegia, comprising T. serotinum and its allies, are an exception because only sexuals are reported for all the members of this group. On the basis of the analysis of mi- crosatellite (SSRs) variation, distribution and morphology, we addressed problems related to their mode of reproduction, among-population relationships, taxonomy and within- population variation. As a rule, outcrossing was the dominant mode of reproduction, with one notable exception: T. serotinum subsp. tomentosum (≡ T. pyrrhopappum) was autogamous and not heterozygous. A taxonomic revision of sect. Dioszegia recognizes T. serotinum subsp. serotinum (including an aberrant...

Rubber Particle Ontogeny in Taraxacum kok-saghyz

Abdul Ghaffar, Muhammad Akbar Bin

January 2017

No description available.

Agriculture

Biology

Horticulture

Plant Biology

Plant Sciences

Hevea brasiliensis

Taraxacum kok saghyz

natural rubber

Enhancing TK rubber extraction efficiency with fungus and enzyme treatments

Liu, Pailing

02 August 2018

No description available.

Agricultural Engineering

Springtime dandelion control in turfgrass using conventional and organic methods

Raudenbush, Zane

January 1900

Master of Science / Department of Horticulture, Forestry, and Recreation Resources / Steven Keeley / Common dandelion (Taraxacum officinale Weber) is an important perennial weed in turfgrass. Fall is considered the optimal time for postemergence herbicidal control of dandelions; however, applications in spring, when volatility damage to surrounding plants is an additional concern, are often needed. Therefore, we conducted research to determine the volatility of common broadleaf herbicides, and their efficacy when applied at spring and fall application timings. Volatility was determined by applying herbicides to turfgrass and using potted tomatoes as indicator plants. Tomatoes exposed to turfgrass treated with Trimec Classic, Confront, Surge, Escalade 2, and Imprelis exhibited little or no volatility damage, while exposure to Speedzone, 4 Speed XT, and Cool Power caused significant damage. In general, herbicides causing little or no damage were amine formulations. Two field studies determined the effect of spring and fall application timing on dandelion control with several herbicides. Herbicide applications in the spring coincided with dandelion anthesis stages: pre-bloom, peak bloom, and post-bloom. Results were dependent on dandelion pressure in the studies. In 2010, with lower pressure, there were no differences among herbicides at any spring timing when dandelion control was evaluated after one year; all herbicides gave ≥ 80% control. In 2011, with higher dandelion pressure, Imprelis SL and 4 Speed XT provided ≥ 96% dandelion control at the spring pre- and post-bloom timings, which was better than Surge, Escalade 2, Cool Power, and Confront. The best choices for spring efficacy combined with minimal to no volatility were Escalade 2 and Trimec Classic. Finally, because interest in organic dandelion control is increasing, we compared several organic weed control tactics with a conventional herbicide. In a two-year field study, the conventional herbicide gave much better control (> 96%) than any organic method. Horticultural vinegar corn gluten meal, and fertilizer-only gave < 25% control, while hand-weeding gave 58 to 71% control. While hand-weeding was the best of the organic tactics, the time required was considered prohibitive for turfgrass managers, unless initial weed levels were very low.

Volatility

Taraxacum officinale

Organic weed control

Application timing

Herbicide volatility

Turfgrass weed control

Agriculture, General (0473)

Agronomy (0285)

Horticulture (0471)

The Use of Near Infrared Spectroscopy in Rubber Quantification

Kopicky, Stephen Edward

30 December 2014

No description available.

Agricultural Engineering

Natural Rubber

Taraxacum kok-saghyz

Parthenium argentatum

Near Infrared Spectroscopy

Predictive Modeling

Hydroponics

Rubber Cultivation

Development of Processes for the Extraction of Industrial Grade Rubber and Co-Products from the Roots of Taraxacum kok-saghyz (TK)

Ramirez Cadavid, David A.

January 2017

No description available.

Agricultural Chemicals

Chemical Engineering

Engineering

Materials Science

Polymers

Agricultural Engineering

Characterizing the Cold Temperature Performance of Guayule (Pathenium argetnatum) Natural Rubber and Improving Processing of Guayule and Agronomic Practices of Taraxacum kok-saghyz

Bates, Griffin Michael

January 2015

No description available.

Aerospace Materials

Agricultural Engineering

Agriculture

Automotive Materials

Engineering

Experiments

Low Temperature Physics

Materials Science

Sustainability

Natural Rubber

Polymers

Alternative Rubber

Guayule

Parthenium argentatum

Taraxacum kok-saghyz

Sustainablility

Renewable

Domestic

Agriculture

Agronomics

Materials Engineering

Kazakh dandelion

Cold temperature behavior

Prédiction des taux de décomposition des litières végétales par les trais fonctionnels agrégés / Using the biomass-ratio hypothesis to predict mixed-species litter decomposition

Tardif, Antoine

10 December 2013

Comprendre le fonctionnement des écosystèmes est un enjeu crucial, en particulier dans un contexte de changements globaux. Afin de mieux prédire les processus écosystémiques, j’ai testé la précision et les limites des hypothèses du biomass-ratio de Grime (HBMR) et de l’annulation idiosyncratique (HAI), cette dernière étant une hypothèse originale de cette thèse. Pour cela, j’ai appliqué le principe du biomass-ratio aux traits fonctionnels, en employant la méthode des traits agrégés en communauté, pour estimer la réponse globale des espèces en mélange. La décomposition des litières plurispécifiques constitue un bon modèle biologique, pour lequel je me suis posé les questions suivantes : (1) est-ce que l’HBMR prédit bien les taux de décomposition en mélanges plurispécifiques ? ; (2) est-ce que le degré de variabilité de ces taux diminue pour des raisons biologiques avec l’augmentation de la richesse spécifique (RS) des mélanges (HAI) ? ; (3) est-ce que la variabilité des taux entre mélanges diminue quand les conditions abiotiques du site deviennent plus limitantes ? ; (4)considérant que les mélanges plus contrastés fonctionnellement sont susceptibles de développer plus d’interactions, est-ce que la déviation à la prédiction augmente avec la dispersion fonctionnelle des mélanges(« FDis », La liberté & Legendre 2010) ? Cette thèse inclut deux expériences de décomposition en sachets à litières : (1) à Sherbrooke (QC, Canada) avec des microcosmes, impliquant des litières de six espèces d’arbres, décomposant seules et en mélanges et (2) sur trois sites au climat contrasté dans la région de Clermont-Ferrand (France) avec des litières de quatre espèces d’herbacées, décomposant seules et en mélanges. Les résultats montrent des déviations positives et négatives par rapport aux taux prédits, mais l’HBMR décrit bien la réponse moyenne des litières plurispécifiques. Bien que l’HAI ait été rejetée, les résultats montrent une convergence des taux observés vers les taux prédits quand (1) la RS des mélanges augmente, (2)l’échelle spatiale augmente et (3) le climat est plus limitant pour la décomposition. Enfin, malgré des corrélations entre FDis et interactions entre espèces dans les litières, cette relation n’est pas généralisable et l’hypothèse de corrélation positive entre FDis et déviation à l’HBMR a été rejetée. / Understanding ecosystem functioning is a key goal in ecology, especially in the context of global changes. To better predict ecosystem processes, I tested the accuracy and the limits of Grime’s biomass-ratio (BMRH) hypothesis and a novel idiosyncratic annulment (IAH) hypothesis. I applied the biomass-ratio to functional traits, using the community-weighted means (CWM) to estimate the global response of species in mixtures. I studied the decomposition of litter species mixtures as a biological model and asked the following questions : (1) does the BMRH predict well the decomposition rates of mixed species litters ? ; (2) does the degree of variability of these rates decrease with increasing species richness (SR) beyond that expected from purely mathematical causes (IAH) ? ; (3) does the variability of rates between mixtures decrease with less favourable abiotic conditions for decomposition ? ; (4) as more functionally contrasted mixtures are expected to develop more interactions, does the deviation from prediction increase with increasing functional dispersion in mixtures (« FDis », Laliberté & Legendre 2010) ? This study involves two decomposition experiments using litterbags : (1) at Sherbrooke (QC, Canada), in microcosms, involving litters from six tree species, decomposed alone and in mixtures and (2) in three climatically contrasted sites in the region of Clermont-Ferrand (France) with litters from four herbaceous species, decomposed alone and in mixtures. Despite both positive and negative deviations from expectation occurring at all levels of SR, the BMRH well described the average response of mixed species litters. Although I rejected the IAH, the results showed a convergence to the predicted values based on CWM with (1) increasing the SR in mixtures, (2) increasing the spatial scale of the study and (3) a less favourable climate to decomposition. Finally, although there was a correlation between litter interactions and functional divergence, this relationship was not generalizable and I rejected the hypothesis of a positive correlation between FDis and the deviations from BMRH.

Acer saccharum

Betula populifolia

Hypothèse du biomass-ratio

Gradient climatique

Traits agrégés de communautés

Festuca rubra

Dispersion fonctionnelle

Traits fonctionnels

Décomposition des litières

Lolium perenne

Pinus banksiana

Pinus strobus

Populus tremuloides

Quercus rubra

Taraxacum officinale

Trifolium repens

Acer saccharum

Betula populifolia

Biomass-ratio hypothesis

Climatic gradient

Community-aggregated traits

Community-weighted means

Festuca rubra

Functional dispersion

Functional traits

Litter decomposition

Lolium perenne

Pinus banksiana

Pinus strobus

Populus tremuloides

Quercus rubra

Taraxacum officinale

Trifolium repens