Propagule Pressure and Disturbance Drive the Spread of an Invasive Grass, Brachypodium sylvaticum

Taylor, Laura Alayna

01 January 2011

The invasibility, or susceptibility of an ecosystem to biological invasion is influenced by changes in biotic and abiotic resistance often due to shifts in disturbance regime. The magnitude of invasive propagule pressure interacts with an ecosystem's invasibility to determine the extent of a biological invasion. I examined how propagule pressure, forest community structure and disturbance interact to influence the invasibility of temperate Pacific Northwest forests by the newly-invasive grass, Brachypodium sylvaticum. My goal was to identify which of these factors is most instrumental in enabling the shift from establishment to population growth in B. sylvaticum at the edge of its expanding range. Both observational and experimental studies were employed to identify the many ecological components of this problem. Ecological sampling methods were used to identify trends in B. sylvaticum habitat preference and signs of habitat disturbance. In addition, an experimental study was performed to test the effects of soil and vegetation disturbance on B. sylvaticum seedling propagation. I found that while soil disturbance did not have a significant effect on seedling propagation, vegetation disturbance was implicated in B. sylvaticum spread. Higher propagule pressure and coniferous forest type were also strong predictors of increased B. sylvaticum seedling propagation and survival within established sites. My study demonstrates how propagule pressure and plant community dynamics interact to shift the invasibility of Pacific Northwest forests and facilitate the transition from establishment to spread in the invasion of B. sylvaticum.

Habitat invasibility

Invasion resistance

Propagule pressure

Forest ecology -- Pacific Northwest

Application Of Virus Induced Gene Silencing Of Brachypodium Distachyon, A Model Organism For Crops

Demircan, Turan

01 June 2009

Grass family is most important family in plant kingdom due to intensive usage of crops in agriculture. To date, molecular biology researches on grass family have had limitations because of inappropriate characteristics of barley and wheat to conduct experiments on them. Brachypodium distachyon that belongs to grass family has recently emerged as a model organism for crops. It shares common characteristics for a model plant due to its small genome, small physical plant size, a short lifecycle, and less demanding growth requirements / as other model organisms / Arabidopsis thaliana, Oryza sativa, and Zea mays (Draper et al. 2001). Especially after appreciating, the genetic distance of O. sativa to grasses (Garvin et al. 2008), it become a key organism to understand complicated genomic organization of agriculturally valuable grasses. Virus-induced gene silencing (VIGS) is one of the revolutionary methods allowing a rapid and effective loss of a gene function through RNA interference (Holzberg et al. 2002 / Liu et al. 2008). Barley stripe mosaic virus (BSMV) is still the most effective vector used in monocot gene silencing. It has a tripartite RNA genome having a wide range of infection ability for monocots including barley, oat, wheat, and maize as host (Holzberg et al. 2002 / Scofield 2005). In this thesis, Phytoene desaturase (PDS) gene of Brachypodium distachyon was silenced via BSMV mediated VIGS. Additionally, with Green fluorescence protein (GFP) bearing BSMV transcripts, GFP expression was observed under fluorescent microscope. To our knowledge, this is the first report demonstrating a VIGS via BSMV in Brachypodium distachyon. The success of virus induced gene silencing method in Brachypodium distachyon, will be a new convenient tool for evaluating functions of crop genes in this model organism.

QD Biochemistry 415-436

Downregulation of Cinnamyl Alcohol Dehydrogenase or Caffeic Acid O-Methyltransferase Leads to Improved Biological Conversion Efficiency in Brachypodium distachyon

Trabucco, Gina M

01 January 2012

Lignin is a significant recalcitrant in the conversion of plant biomass to bioethanol. Cinnamyl alcohol dehydrogenase (CAD) and caffeic acid O-methyltransferase (COMT) catalyze key steps in the pathway of lignin monomer biosynthesis. Brown midrib mutants in Zea mays and Sorghum bicolor with impaired CAD or COMT activity have attracted considerable agronomic interest for their altered lignin composition and improved digestibility. We identified candidate genes encoding CAD and COMT enzymes in the grass model species Brachypodium distachyon and developed transgenic plants overexpressing artificial microRNA designed to silence BdCAD1 or BdCOMT4. Both transgenes caused altered flowering time and stem count and weight. Downregulation of BdCAD1 caused a leaf brown midrib phenotype, the first time this phenotype has been observed in a C3 plant. While acetyl bromide soluble lignin measurements were equivalent in BdCAD1-silenced and wildtype plants, histochemical staining and thioacidolysis indicated a decrease in lignin syringyl units and reduced syringyl/guaiacyl ratio in the transgenic plants. BdCOMT4-downregulated plants exhibited a decrease in total lignin content, a significant reduction of guaiacyl lignin, and a modest reduction of syringyl lignin. Ethanol yield by microbial fermentation was enhanced in both BdCAD1- and BdCOMT4-downregulated plants. These results have elucidated two key genes in the lignin biosynthetic pathway in B. distachyon that, when perturbed, may result in greater biomass yield and bioconversion efficiency.

CAD

COMT

lignin

Brachypodium distachyon

biofuel

Agriculture

Biology

Genetics

Oil, Gas, and Energy

Plant Biology

Plant Breeding and Genetics

Sustainability

Ekologické determinanty klonálního růstu rostlin / Ecological determinants of plant clonal growth

Martincová, Nina

January 2016

The aim of this study is to provide a further insight into influence of environment on clonal plants. The study focuses particularly on effects of fertilization level and light availability on production and growth of clonal organs. Three experiments were carried out within the study, targeted to elicit influence of these environmental conditions or clonal interactions on six species of clonal plants. Interspecies dependencies on these conditions was compared, regarding habitat occurrence of these species. A comparison was made also between species producing rhizomes and stolons. The experiments revealed that five of six studied species show significant relationship among at least one environmental condition and parameters of clonal reproduction. Most of the species showed higher elongation and production of clonal organs in relation to fertilization level. On the contrary, only three species reacted significantly to the light availability level by alternation of at least one parameter of clonal reproduction and the light availability level affected each species differently. A strong influence on production and elongation of clonal organs had also a size of a plant. There was not found significant difference in influence of environmental conditions on clonal reproduction among plant families. It...

Etude de la voie de biosynthese des monolignols chez brachypodium distachyon

Bouvier d'yvoire, Madeleine

19 December 2011

La récente définition de Brachypodium distachyon comme modèle des graminées en fait un organisme de choix pour l'étude de leur paroi cellulaire, en particulier dans le cadre de leur utilisation comme matière première renouvelable pour le bioéthanol de seconde génération. Les lignines, dont les trois unités (H, G et S) proviennent de la polymérisation des monolignols, sont associées aux acides hydroxycinnamiques dans la paroi des céréales et représentent l'obstacle majeur à l'exploitation industrielle de la biomasse lignocellulosique. L'acquisition de connaissances sur les mécanismes dirigeant leur mise en place et leur organisation permettrait d'identifier des facteurs modulant les rendements de production qui y sont associés. Quatre familles de gènes ont été étudiées et l'implication dans la voie de biosynthèse des monolignols de trois gènes a été montrée : BdF5H2 possède une activité férulate-5-hydroxylase permettant la synthèse des précurseurs des unités S des lignines, BdCOMT3 est l'isoforme principale des acide cafféique O-Méthyltransférases et sa perte partielle de fonction cause une diminution de la quantité de lignine, la modification du rapport S/G et une baisse de quantité d'acide p-coumarique dans deux lignées mutantes indépendantes. Enfin, BdCAD1 est l'isoforme principale des alcools cinnamylique déshydrogénases : sa perte de fonction dans deux lignées indépendantes cause la diminution de la quantité globale de lignine et d'acide p-coumarique, une baisse du rapport S/G ainsi que l'accumulation de sinapaldéhyde. Par ailleurs ces deux lignées présentent des rendements de saccharification augmentés de plus d'un quart par rapport au sauvage.

[SDV:BV] Life Sciences/Vegetal Biology

Brachypodium distachyon

Lignine

Monolignol

Acide cafféique O-Méthyltransférase

Alcool cinnamylique déshydrogénase

Férulate-5-hydroxylase

Saccharification

Vliv prasete divokého na vegetaci semixerotermních trávníků / Effect of wild boar on dry grasslands

Horčičková, Eva

January 2010

The study was focused on disturbances by wild boar (Sus scrofa) and their impact on vegetation of semi-dry grasslands (Festuco-Brometea) dominated by Brachypodium pinnatum. The research was conducted in military area Hradiště in hilly region of the Doupovské hory. Wild boar rooting activities is main source of disturbances regime in this abandoned, previously agricultural area. The vegetation of artificial small scale soil disturbances was compared to undisturbed control plots and vegetation of natural disturbances by wild boar. Experimental plots were established during the summer 2007. Consequently a vegetation survey of these plots was carried out and soil was mechanically disturbed. Succession on disturbances was annually monitored. The surrounding natural disturbances were also mapped three times a year as a potential source of diaspores and to assess their frequency and effect on the landscape level. The list of species in the 2m, 4m and 16m distance from the experimental plot was also made. Results: Disturbances by wild boar increased species diversity and spatial heterogeneity of semi-dry grasslands. There were some species found on experimental plot, which were present not in the surrounding matrix. Most of them belong to hemicryptophytes and species with long-term persistent diaspores. Presence of...

Rhythmic Growth And Vascular Development In Brachypodium Distachyon

Matos, Dominick A

01 January 2012

Plants reduce inorganic carbon to synthesize biomass that is comprised of mostly polysaccharides and lignin. Growth is intricately regulated by external cues such as light, temperature, and water availability and internal cues including those generated by the circadian clock. While many aspects of polymer biosynthesis are known, their regulation and distribution within the stem are poorly understood. Plant biomass is perhaps the most abundant organic substance on Earth and can be used as feedstock for energy production. Various grass species are under development as energy crops yet several of their attributes make them challenging research subjects. Brachypodium distachyon has emerged as a grass model for food and energy crop research. I studied rhythmic growth, a phenomenon important to understanding how plant biomass accumulates through time, and vascular system development, which has biofuel feedstock conversion efficiency and yield. Growth rate changes within the course of a day in a sinusoidal fashion with a period of approximately 24 hours, a phenomenon known as rhythmic growth. Light and temperature cycles, and the circadian clock determine growth rate and the timing of rate changes. I examined the influences of these factors on growth patterns in B. distachyon using time-lapse photography. Temperature and, to a lesser extent, light influenced growth rate while the circadian clock had no noticeable effect. The vascular system transports important materials throughout the plant and consists of phloem, which conducts photosynthates, and xylem, which conducts water and nutrients. The cell walls of xylem elements and ground tissue sclerenchyma fibers are comprised of cellulose, hemicelluloses, and lignin. These components are important to alternative energy research since cellulose and hemicellulose can be converted to liquid fuel, but lignin is a significant inhibitor of this process. I investigated vascular development of B. distachyon by applying various histological stains to stems from three key developmental. My results described in detail internal stem anatomy and demonstrated that lignification continues after crystalline cellulose deposition ceases. A better understanding of growth cues and various anatomical and cell wall construction features of B. distachyon will further our understanding of plant biomass accumulation processes.

Brachypodium distachyon

rhythmic growth

vascular development

lignin deposition

crystalline cellulose deposition

plant biomass

Agriculture

Agronomy and Crop Sciences

Biology

Botany

Developmental Biology

Plant Biology

Detection of Cellulose Synthase Antisense Transcripts Involved in Regulating Cell Wall Biosynthesis in Barley, Brachypodium and Arabidopsis

Nething, Daniel B.

19 September 2017

No description available.

Biochemistry

Genetics

Molecular Biology

Plant Biology

CESA

cellulose synthase

antisense transcript

natural antisense transcript

small RNA

siRNA

miRNA

development

cell wall

barley

brachypodium

arabidopsis

Valorisation d'un compost de boues urbaines en garrigue pour le reboisement : comportement des jeunes arbres d'une plantation et modifications de la dynamique de la vegetation naturelle apres amendement

Guittonny - Larcheveque, Marie

13 December 2004

Depuis que la Communauté européenne a interdit la mise en décharge des déchets non ultimes, la recherche de nouveaux débouchés pour les boues d'épuration devient cruciale. En région méditerranéenne, les feux récurrents et les précipitations parfois violentes favorisent l'érosion et induisent l'appauvrissement des sols. Les sols calcaires dégradés sont souvent colonisés par des formations végétales stables à Quercus coccifera, adaptées à un faible niveau de ressources, ce qui ralentit l'installation naturelle des arbres. Dans de tels milieux, un amendement organique pourrait améliorer la fertilité du sol, modifier la dynamique et les relations de dominance de la végétation, et favoriser les processus de succession et de résilience, ainsi que la reforestation. Deux expérimentations ont été menées en Provence pour étudier les effets d'apports de compost de boues d'épuration urbaines et de déchets verts sur la dynamique d'un écosystème de garrigue. Premièrement, 0, 50, et 100 t.ha-1 de compost brut ont été épandues en surface dans le biotope naturel de garrigue, et les conséquences sur le fonctionnement de l'écosystème ont été étudiées. Les compartiments sol, végétation et microorganismes de la litière ont été suivis pendant deux ans après amendement (2002-2004). Deuxièmement, nous avons incorporé au sol trois doses de compost brut (0, 20, et 40 kg.ha-1) au pied de jeunes plants d'arbres. L'évolution des propriétés édaphiques et du développement des arbres a été suivie respectivement pendant trois ans (2001-2003) et deux ans (2002-2003). L'amendement a durablement (2 ans) et efficacement amélioré la fertilité du sol. Cependant, le sol a été fortement enrichi en P et Zn, ce qui pourrait entraîner des problèmes sérieux de pollution des eaux et de toxicité sur les microorganismes. Ces deux éléments limitent l'utilisation de compost de boues dans les milieux naturels, et des amendements répétés aux doses étudiées sont inenvisageables. Dans la plantation, l'amendement a globalement favorisé le processus de reforestation en améliorant la nutrition et la croissance des plants, et surtout en augmentant leur survie en période de sécheresse. En outre, l'apport de compost en surface a généré l'apparition d'îlots fertiles dans le biotope garrigue, au sein desquels les processus de succession végétale pourraient être localement optimisés, ce qui pourrait favoriser à terme la colonisation par la strate arborée, notamment par Pinus halepensis. Par ailleurs, l'amendement augmente la diversité fonctionnelle en garrigue du fait de son effet bénéfique sur les espèces semencières, ce qui pourrait améliorer la résilience de l'écosystème après incendie. Ces effets bénéfiques du compost se produisent surtout pour les doses intermédiaires. L'utilisation de compost aux doses maximales testées devrait être abandonnée, du fait d'une dépréciation de la colonisation fongique de la litière de Quercus coccifera observée pour 100t.ha-1, et du fait d'une augmentation des risques de pollution par le P et le Zn proportionnellement au taux d'apport. Cependant, la nature calcaire du sol expérimental et la maturité élevée du compost ont limité les phénomènes d'exportation vers les eaux et la contamination des plantes par les éléments potentiellement toxiques. L'apport de compost en surface a plutôt augmenté la sensibilité des plantes à la sécheresse, alors que celle-ci a diminué lorsque le compost a été apporté en mélange au sol. Enfin, l'apport de compost en garrigue a eu des effets multiples (fertilisation, écrasement, dépôt d'une couche fertile) et a permis de mettre en évidence les stratégies spécifiques des plantes dans la gestion des nutriments et de la productivité. Ce travail montre l'importance relative des espèces végétales sur le fonctionnement de l'écosystème, identifie les espèces clef pour le recyclage des éléments, et illustre la complémentarité d'utilisation des ressources qui existe au sein de l'écosystème naturel de garrigue.

Ecosysteme mediterraneen

amendement organique

biosolides

boues municipales

compost

plantation

reforestation

restauration

fertilisation

contamination

decomposition

cycle des nutriments

succession vegetale

resilience

groupes fonctionnels

metaux trace

phosphore

Quercus coccifera

Brachypodium retusum