A socio-economic assessment of the impacts of invasive alien plant species on forestry production : the case of Senna spectabilis in Budongo forest reserve, Uganda

Ahimbisibwe, Beine Peter

30 November 2009

In 2006, a baseline survey for the UNEP/GEF-IAS Project was conducted in BFR to assess the status of IAS in the area. Findings indicated that extensive forest parts had severe S. spectabilis encroachment which appeared to interfere with the normal functioning and productivity of the forest. This study was motivated by the magnitude of S. spectabilis invasion in BFR, the level of public and government concern about the invasion, and the magnitude of the IAS problem across East Africa. This study was thus undertaken to address a specific need of the research and capacity building components of the UNEP/GEF-IAS Project. The study1 was carried out to assess the impacts of S. spectabilis invasion on the productivity of BFR and the socio-economic implications on the livelihoods of the dependent stakeholders (local resident population, timber suppliers and the tourism sector). The study used descriptive statistics to assess the levels of awareness of S. spectabilis invasion, perceptions and knowledge of the conservation values of BFR, knowledge on the benefits and costs of living with S. spectabilis and impacts of S. spectabilis on the flow of quantities and revenues from the benefits it generates. The impact on financial profitability and efficiency of timber firms was assessed using Gross margin analysis (GMA) and financial efficiency ratio analysis respectively. The impact on the population structure of chimpanzees was studied using mean differentials and focused group discussions. Results indicate that the level of awareness about S. spectabilis invasion and the knowledge of the conservation values of BFR were high among all the three stakeholder groups. GMA revealed that S. spectabilis invasion increases variable costs in timber production thus reducing profit margins and financial efficiency of timber firms. Alteration of habitat environment occasioned by S. spectabilis invasion was advanced, though with uncertainty, as a possible reason for the difference in chimpanzee numbers between the infested and non infested forest conditions. Like other IAS, S. spectabilis was found to have both benefits and costs though the distribution of the same differs. S. spectabilis can be considered a net benefit to the local dependent communities whereas it may be a net loss to both the timber and tourism sectors. Conflict of interest in S. spectabilis management is discussed and possible solutions suggested. It was recommended that the threat of invasive species should be tackled through a multisectoral approach. / Dissertation (MSc)--University of Pretoria, 2009. / Agricultural Economics, Extension and Rural Development / unrestricted

Budongo forest reserve

Invasive alien plant species

Uganda

UCTD

Invasive alien plant species of The Bahamas and biodiversity management

Smith, Ross L.

02 June 2010

No description available.

Botany

Environmental Science

invasive alien plant species Bahamas

Investigating the influence of data quality on ecological niche models for alien plant invaders

Wolmarans, Rene

08 October 2010

Ecological niche modelling is a method designed to describe and predict the geographic distribution of an organism. This procedure aims to quantify the species-environment relationship by describing the association between the organism’s occurrence records and the environmental characteristics at these points. More simply, these models attempt to capture the ecological niche that a particular organism occupies. A popular application of ecological niche models is to predict the potential distribution of invasive alien species in their introduced range. From a biodiversity conservation perspective, a pro-active approach to the management of invasions would be to predict the potential distribution of the species so that areas susceptible to invasion can be identified. The performance of ecological niche models and the accuracy of the potential range predictions depend on the quality of the data that is used to calibrate and evaluate the models. Three different types of input data can be used to calibrate models when producing potential distribution predictions in the introduced range of an invasive alien species. Models can be calibrated with native range occurrence records, introduced range occurrence records or a combination of records from both ranges. However, native range occurrence records might suffer from geographical bias as a result of biased sampling or incomplete sampling. When occurrence records are geographically biased, the underlying environmental gradients in which a species can persist are unlikely to be fully sampled, which could result in an underestimation of the potential distribution of the species in the introduced range. I investigated the impact of geographical bias in native range occurrence records on the performance of ecological niche models for 19 invasive plant species by simulating two geographical bias scenarios (six different treatments) in the native range occurrence records of the species. The geographical bias simulated in this study was sufficient to result in significant environmental bias across treatments, but despite this I did not find a significant effect on model performance. However, this finding was perhaps influenced by the quality of the testing dataset and therefore one should be wary of the possible effects of geographical bias when calibrating models with native range occurrence records or combinations there of. Secondly, models can be calibrated with records obtained from the introduced range of a species. However, when calibrating models with records from the introduced range, uncertainties in terms of the equilibrium status and introduction history could influence data quality and thus model performance. A species that has recently been introduced to a new region is unlikely to be in equilibrium with the environment as insufficient time will have elapsed to allow it to disperse to suitable areas, therefore the occurrence records available would be unlikely to capture its full environmental niche and therefore underestimate the species’ potential distribution. I compared model performance for seven invasive alien plant species with different simulated introduction histories when calibrated with native range records, introduced range records or a combination of records from both ranges. A single introduction, multiple introduction and well established scenario was simulated from the introduced range records available for a species. Model performance was not significantly different when compared between models that were calibrated with datasets representing these three types of input data under a simulated single introduction or multiple introduction scenario, indicating that these datasets probably described enough of the species environmental niche to be able to make accurate predictions. However, model performance was significantly different for models calibrated with introduced range records and a combination of records from both ranges under the well established scenario. Further research is recommended to fully understand the effects of introduction history on the niche of the species. Copyright / Dissertation (MSc)--University of Pretoria, 2009. / Zoology and Entomology / unrestricted

Ecological niche models

Invasive alien plant species

Potential distribution

Data quality

Geographical bias

Introduction history

Environmental niche

Maxent

Model performance

UCTD

Mécanismes de propagation du roseau commun envahisseur au Québec

Albert, Arnaud

01 1900

No description available.

Compétition végétale

Dispersion

Diversité génétique

Fossés de drainage

Génotypage-par-séquençage

Perturbations

Plante exotique envahissante

Propagation végétative

Reproduction sexuée

Roseau commun

Common reed

Disturbances

Drainage ditches

Genetic diversity

Genotyping-by-sequencing

Invasive alien plant

Plant competition

Sexual reproduction

Spread

Vegetative propagation

Spatial analysis of invasive alien plant distribution patterns and processes using Bayesian network-based data mining techniques

Dlamini, Wisdom Mdumiseni Dabulizwe

03 1900

Invasive alien plants have widespread ecological and socioeconomic impacts throughout many parts of the world, including Swaziland where the government declared them a national disaster. Control of these species requires knowledge on the invasion ecology of each species including how they interact with the invaded environment. Species distribution models are vital for providing solutions to such problems including the prediction of their niche and distribution. Various modelling approaches are used for species distribution modelling albeit with limitations resulting from statistical assumptions, implementation and interpretation of outputs. This study explores the usefulness of Bayesian networks (BNs) due their ability to model stochastic, nonlinear inter-causal relationships and uncertainty. Data-driven BNs were used to explore patterns and processes influencing the spatial distribution of 16 priority invasive alien plants in Swaziland. Various BN structure learning algorithms were applied within the Weka software to build models from a set of 170 variables incorporating climatic, anthropogenic, topo-edaphic and landscape factors. While all the BN models produced accurate predictions of alien plant invasion, the globally scored networks, particularly the hill climbing algorithms, performed relatively well. However, when considering the probabilistic outputs, the constraint-based Inferred Causation algorithm which attempts to generate a causal BN structure, performed relatively better. The learned BNs reveal that the main pathways of alien plants into new areas are ruderal areas such as road verges and riverbanks whilst humans and human activity are key driving factors and the main dispersal mechanism. However, the distribution of most of the species is constrained by climate particularly tolerance to very low temperatures and precipitation seasonality. Biotic interactions and/or associations among the species are also prevalent. The findings suggest that most of the species will proliferate by extending their range resulting in the whole country being at risk of further invasion. The ability of BNs to express uncertain, rather complex conditional and probabilistic dependencies and to combine multisource data makes them an attractive technique for species distribution modeling, especially as joint invasive species distribution models (JiSDM). Suggestions for further research are provided including the need for rigorous invasive species monitoring, data stewardship and testing more BN learning algorithms. / Environmental Sciences / D. Phil. (Environmental Science)

Bayesian network

Data mining

Directed acyclic graph

Ecology

Geographic information system

Habitat

Invasive alien plant

Knowledge discovery

Machine learning

Species distribution model

581.62096887

Spatial analysis (Statistics)

Bayesian field theory

Acyclic models

Data mining -- Data processing

Directed graphs

Cartographier l’envahisseur : télédétection précoce du roseau commun (Phragmites australis) à l’aide des drones et de l’intelligence artificielle

Caron-Guay, Antoine

04 1900

Combiner les drones et l’intelligence artificielle afin de cartographier la végétation représente une nouvelle approche prometteuse susceptible d’améliorer la détection des espèces végétales exotiques envahissantes (EVEE). La résolution au sol élevée atteignable avec les drones et les innovations récentes en vision par ordinateur, notamment avec les réseaux neuronaux convolutifs, laissent penser qu'une détection précoce des EVEE serait possible, favorisant ainsi leur gestion. Dans cette étude, nous avons évalué la pertinence de cette approche pour cartographier l’emplacement du roseau commun (Phragmites australis subsp. australis) à l’intérieur d'un parc national situé dans le sud du Québec, Canada. Nous avons collecté des données à six dates distinctes durant la saison de croissance, couvrant des environnements présentant différents niveaux d'envahissement par le roseau. De façon générale, la performance du modèle était élevée pour les différentes dates et zones, surtout au niveau du rappel (moyenne globale de 0.89). Les résultats ont montré une augmentation de la performance pour atteindre un sommet à la suite de l’apparition de l’inflorescence en septembre (F1-score le plus haut à 0.98). De plus, une diminution de la résolution spatiale affectait négativement le rappel (diminution de 18% entre une résolution au sol de 0,15 cm pixel-1 et 1,50 cm pixel-1), mais n’avait pas un impact important sur la précision (diminution de 2%). Malgré des défis associés à la cartographie du roseau commun dans un contexte de gestion post-traitement, l'utilisation de drones et de l'apprentissage profond montre un grand potentiel pour la détection des EVEE lorsque appuyé par un jeu de données adapté. Nos résultats montrent que, d'un point de vue opérationnel, cette approche pourrait être un outil efficace pour accélérer le travail des biologistes sur le terrain et assurer une meilleure gestion des EVEE. / The combination of unoccupied aerial vehicles (UAVs) and artificial intelligence to map vegetation represents a promising new approach to improve the detection of invasive alien plant species (IAPS). The high spatial resolution achievable with UAVs and recent innovations in computer vision, especially with convolutional neural networks, suggest that early detection of IAPS could be possible, thus facilitating their management. In this study, we evaluated the suitability of this approach for mapping the location of common reed (Phragmites australis subsp. australis) within a national park located in southern Quebec, Canada. We collected data on six distinct dates during the growing season, covering environments with different levels of reed invasion. Overall, model performance was high for the different dates and zones, especially for recall (mean of 0.89). The results showed an increase in performance, reaching a peak following the appearance of the inflorescence in September (highest F1-score at 0.98). Furthermore, a decrease in spatial resolution negatively affected recall (18% decrease between a spatial resolution of 0.15 cm pixel-1 and 1.50 cm pixel-1) but did not have a strong impact on precision (2% decrease). Despite challenges associated with common reed mapping in a post-treatment monitoring context, the use of UAVs and deep learning shows great potential for IAPS detection when supported by a suitable dataset. Our results show that, from an operational point of view, this approach could be an effective tool for speeding up the work of biologists in the field and ensuring better management of IAPS.

Apprentissage profond

Drones

Espèce végétale exotique envahissante

Intelligence artificielle

Phragmite

Réseau neuronal convolutif

Roseau commun

Télédétection

Vision par ordinateur

Artificial intelligence

Computer vision

Convolutional neural network

Deep learning

Common reed

Invasive alien plant species

Phragmites

Remote sensing

Unoccupied aerial vehicles