Understanding the Exotic Distributions of Invasive Species

Schartel, Tyler Evan

09 December 2016

Invasive species are organisms whose introduction and spread in exotic ranges result in a multitude of ecological impacts. Understanding the factors that constrain the exotic distributions of invasive species is of considerable interest. Biotic associations formed with taxa in the invaded community may be particularly important in shaping invader distributions. These associations emerge from interactions between the traits of the invasive species and some subset of the traits present in the invaded community. Focusing on how organism traits influence the outcomes of biotic interactions may inform predictions of invader distributions. This kind of trait-based approach may be most easily applied to systems where invaders specialize on particular hosts because such associations imply a close correspondence between the traits of the invader and hosts. This dissertation focuses on the South American cactus moth (Cactoblastis cactorum, Lepidoptera: Pyralidae), an invasive consumer in North America whose larvae infest prickly-pear cacti (Opuntia spp.). Chapter One is a brief introduction providing background and context to the presented research. In Chapter Two, I quantify Opuntia morphological and tissue macronutrient traits hypothesized to correlate with patterns of C. cactorum host use. Tissue macronutrient traits appear important in predicting C. cactorum infestation whereas a model containing Opuntia morphological traits had poor predictive ability. Chapter Three describes a method that uses host Opuntia identity and availability to estimate habitat suitability in order to predict the North American distribution of C. cactorum. I then simulate C. cactorum dispersal relative to scenarios of habitat suitability and Opuntia availability. Chapter Four alters the model in Chapter Three so that habitat suitability for C. cactorum is determined by the availability of trait-based groupings of Opuntia hosts. I then simulate C. cactorum dispersal via a different method from that described in Chapter Three. In Chapters Three and Four, I evaluate the degree of similarity among model predictions and the relative contribution of modeling constraints in generating variation in this similarity. Chapters Three and Four predictions were most affected by estimates of abiotic suitability and dispersal constraints, respectively. Chapter Five is a short summary of my results and a discussion of their more general applicability.

traits

species distribution modeling

invasion

Cactoblastis

Opuntia

Dead Giveaway: Rising Mortality Rates Suggest Effectiveness Of Lake Erie Grass Carp (Ctenopharyngodon idella) Control

Lang, Kaitlen

11 July 2022

No description available.

Ecology

Great Lakes, Invasion Biology, Ecology

Site Characteristics and Plant Invasion: Light Limitation of Invasive Establishment and Impacts of Elaeagnus Umbellata on Soil Nitrogen Availability and Co-occurring Species

Mostoller, Erin L

01 January 2008

Invasive species have become an increasing threat to many habitats worldwide. This research addressed the questions of whether several invasive woody plants can germinate, survive and grow in light levels typical of an undisturbed forest understory, and also whether alteration of the nitrogen cycle by one invader is likely to increase the rate of invasion by others.

Elaeagnus umbellata

soil nitrogen

invasion

facilitation

Ecology

Biophysical Factors Control Invasive Grass Hot Spots in the Mojave Desert

Smith, Tanner Corless

15 April 2022

The social, economic, and ecological costs of plant invasions are vast, through their ability to alter ecosystem structure and function. Invasive annual grasses are a nuisance in the American Southwest through promotion of the grass-fire cycle. Annual grasses such as Bromus rubens, Bromus tectorum, Schismus barbatus, and Schismus arabicus have invaded the Mojave Desert and increased fire occurrence, thus it is important to identify and characterize the areas where persistent invasion has occurred and subsequently fire risk is increased by understanding the distribution of these invasive grasses. Previous plot and landscape-scale research has revealed anthropogenic and biophysical correlates with the establishment and dominance of invasive annual grasses in the Mojave Desert. However, these previous studies have been limited in spatial and temporal scales. Here we use a remote sensing framework to map persistent and productive populations of invasive annual grass, called hot spots, in the entire Mojave Desert ecoregion over 12 years, identify important variables for predicting hot spot distribution, and identify the most invaded subregions. Hot spots were identified in over 5% of the Mojave Desert, and invasive grasses were detected in over 90% of the desert at least once. Our results indicate that soil texture, aspect, winter precipitation, and elevation are the most important predictive variables of invasive grass hot spots, while anthropogenic variables were the least useful. The most invaded subregions of the Mojave Desert were western Mojave basins, eastern Mojave mountain woodland and shrubland, western Mojave low ranges and arid footslopes, eastern Mojave basins, and eastern Mojave low ranges and footslopes.

Bromus

invasion

Mojave

remote sensing

Life Sciences

Caractérisation de souches de Salmonella enterica sérovar Typhimurium associées à des septicémies chez le porc

Corriveau, Jonathan

January 2002

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Salmonella Typhimurium

Septicémie

Adhésion

Invasion

Profils protéiques

HRPAP20: A NOVEL CALMODULIN-BINDING PHOSPHOPROTEIN INVOLVED IN TUMOR PROGRESSION

SHUKLA, MANASI NARENDRA

18 July 2007

No description available.

HRPAP20

Calmodulin

PKC

Invasion

Breast Cancer

Data for proteomic analysis of murine cardiomyocytic HL1 cells treated with siRNA against tissue factor

Brioschi, M., Lento, S., Barcella, S., Nasim, Md. Talat, Tremoli, E., Banfi, C.

January 2015

Yes / This data article is related to the research article entitled Proteomics of Tissue Factor silencing in cardiomyocytic cells reveals a new role for this coagulation factor in splicing machinery control by Lento et al [1]. Tissue Factor (TF) is the key player in the coagulation cascade, but it has additional functions ranging from angiogenesis, tumor invasion and, in the heart, the maintenance of the integrity of cardiac cells. This article reports the nano-LC-MSE analysis of the cardiomyocytic HL-1 cell line proteome and describes the results obtained from a Gene Ontology analysis of those proteins affected by TF-gene silencing.

Proteomics

Tissue factor

Silencing

Tumour invasion

Invasion of human type II pneumocytes by Burkholderia cepacia.

Keig, P.M., Ingham, E., Kerr, Kevin G.

January 2001

No / Burkholderia cepacia is known to invade and survive within respiratory epithelial cells. Previous studies have employed transformed cell lines and it is not known whether the bacterium is capable of manifesting the same phenomena in primary cell culture. Two strains of B. cepacia of environmental (NCTC 10661) and clinical origin (C1359) were examined for their ability to invade and survive (over a 24 h period) within type II pneumocytes in primary culture using a gentamicin¿ceftazidime antibiotic protection assay. Both strains of B. cepacia were capable of invasion of type II pneumocytes in primary culture. Strain C1359 was capable of multiplying intracellularly as indicated by a seven-fold increase in the numbers of bacteria from 4¿24 h, whereas strain 10661, although unable to replicate intracellularly, was found to survive in the pneumocytes for at least 24 h. Future studies on the invasiveness of B. cepacia can employ A549 cells as a valid surrogate for primary cell culture assays which are time-consuming, labour-intensive and expensive to perform.

Burkholderia cepacia

Invasion

Type II pneumocytes

Relation entre le blocage ou l'étape de différenciation cellulaire et le potentiel invasif et métastatique des cellules cancéreuses

Herrera-Gayol, Andréa

January 1993

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Rhabdomyosarcome

Étape de différenciation myogénique

Invasion et métastase

Réactivation des gènes embryonnaires twist et snai3 et dissémination précoce des cellules cancéreuses / Reactivation of embryonic genes TWIST and SNAI3 and early cancer cell dissemination

Bastid, Jérémy

17 December 2009

La sénescence et l’apoptose sont deux mécanismes oncosupresseurs induits dans les lésions pré-malignes et capables de s’opposer à la prolifération cellulaire incontrôlée induite par l’activation d’oncogènes mitogéniques. Leur inhibition est nécessaire à la conversion d’une lésion bénigne en tumeur maligne. Nous avons démontré que les gènes embryonnaires TWIST1, TWIST2 et SNAI3 sont fréquemment réactivés dans les cancers humains. De par leur capacité à inactiver fonctionnellement la protéine oncosuppressive p53, ces facteurs embryonnaires permettent d’inhiber la sénescence et l’apoptose induites en réponse à l’activation d’oncoprotéines mitogéniques, de transformer in vitro des fibroblastes primaires murins et de leur accorder un pouvoir tumorigène. Dans les cellules épithéliales, cet échappement aux mécanismes de sauvegarde est associé à une transition épithélio-mésenchymateuse (EMT) et à l’acquisition conséquente de capacités de migration, d’invasion et d’auto-renouvellement. Ces résultats nous ont donc permis de mettre en exergue un lien étroit entre l’inhibition des systèmes de sauvegarde cellulaire et l’EMT et de proposer que la réactivation des gènes embryonnaires tels TWIST ou SNAI3 soit suffisante pour promouvoir la conversion maligne et la dissémination précoce des cellules cancéreuses / Senescence and apoptosis, the two main oncosuppressive mechanisms activated in premalignant tumors, restrict cell proliferation in response to mitogenic oncogene activation. Their inhibition is required for malignant conversion of benign lesions. We demonstrated that TWIST1, TWIST2 and SNAI3 embryonic genes are frequently reactivativated in human cancers. By functionally inactivating the p53 oncosuppressive protein, these embryonic factors override oncogene-induced senescence and apoptosis and cooperate in vitro with mitogenic oncoproteins in murine primary fibroblast transformation, providing cells with tumorigenic potential. In epithelial cells, failsafe program escape is associated with an epithelialmesenchymal transition (EMT), and the consequent acquisition of motility, invasive properties and selfrenewal capabilities. These data highlight an intimate crosstalk between failsafe program escape and EMT and suggest that reactivation of embryonic genes such as TWIST or SNAI3 is sufficient to promote both malignant conversion and early cancer cell dissemination

Gènes embryonaires

Invasion

Apoptose

Sénescence

Métastase

Embryonic genes

Invasion

Apoptosis

Senescence

Metastasis

616