Clonagem de porta-enxertos e produção de mudas de pessegueiro em sistemas de cultivo sem solo / Cloning of rootstocks and production of peach seedlings without soil cultivation system

Tomaz, Zeni Fonseca Pinto

08 March 2013

Made available in DSpace on 2014-08-20T14:22:03Z (GMT). No. of bitstreams: 1 tese_zeni_tomaz.pdf: 2323992 bytes, checksum: 4753b60461199c97ba5226db1bc6663b (MD5) Previous issue date: 2013-03-08 / The objective of this study to get peach seedlings without soil cultivation system, from of rootstocks cloned through minicutting. The experiment was conducted in a greenhouse with controlled temperature located in the Didactic Field and Experimental Plant Science Department, Federal University of Pelotas (UFPel-RS), in the period from March 2010 to November 2011. Were evaluated variables relating to the rooting percentage of minicutting; the survival of minicutting after transplanting cultivation systems; height (cm); the lateral shoot number; the diameter (mm) at the base, 10 and 15cm; the foliar contents of macronutrients and micronutrients of rootstocks; the index of establishment; the lateral shoot number and the height of the cultivation of grafted Cup. The obtained results demonstrated that in article 3 the rootstock 'Capdeboscq' presented surviving 80% percentage in soilless cultivation system. The system of cultivation without soil improves the self-rooted of peach seedlings development, article 2, in relation to production in packaging. The rootstocks of Okinawa and Flordaguard cultivars, articles 1 and 3, were on average 70% of the index of establishment when grafted 'Maciel' in system of cultivation without soil. The average content of macronutrients presents similar relationship for macronutrients determined by leaf analysis, sampled in peach orchards, producing region of Pelotas. Clonal rootstocks provide greater height of scion grafted, articles 4 and 5. The system of cultivation without soil allows plants to have a rapid development, with reduction of vegetative cycle time, and reduction of the time for the obtaining of seedlings. / Objetivou-se com o presente estudo obter mudas de pessegueiro em sistema de cultivo sem solo, a partir de porta-enxertos clonados através da miniestaquia. O experimento foi realizado em casa de vegetação com temperatura controlada e em estufa agrícola localizadas no Campo Didático e Experimental do Departamento de Fitotecnia, Faculdade de Agronomia Eliseu Maciel da Universidade Federal de Pelotas (UFPel/RS), no período de março de 2010 a novembro de 2011. Foram avaliadas variáveis referentes à porcentagem de miniestacas enraizadas; a sobrevivência das miniestacas após o transplantio para os sistemas de cultivo; o comprimento (cm); o número de brotações laterais; os diâmetros (mm) na base, 10 e 15cm; o conteúdo foliar de macronutrientes e micronutrientes dos porta-enxertos; o índice de pega da enxertia; o número de brotações laterais e a comprimento da cultivar copa enxertada. Os resultados obtidos demonstraram que no artigo 3 Capdeboscq‟ apresentou 80% de porcentagem de sobrevivência em sistema de cultivo sem solo. O sistema de cultivo sem solo melhora o desenvolvimento das mudas autoenraizadas de pessegueiro, artigo 2, em relação à produção em embalagens. Os porta-enxertos das cultivares Okinawa e Flordaguard, artigos 1 e 3, apresentaram em média 70% de índice de pega quando enxertado Maciel‟ em sistema de cultivo sem solo. O teor médio dos macronutrientes apresenta relação semelhante naqueles determinados pela análise foliar, em amostras colhidas em pomares de pessegueiro, da região produtora de Pelotas. Os porta-enxertos clonais proporcionam maior altura de cultivar copa enxertada, artigos 4 e 5. O sistema de cultivo sem solo permite que as plantas tenham um desenvolvimento acelerado, com diminuição do ciclo vegetativo, podendo diminuir o tempo de obtenção de mudas.

Prunus persica (L.) Batsch

Miniestacas clonais

Sistemas de cultivo sem solo

Enxertia

Conteúdo foliar de macronutrientes

Micronutrientes

Produção de mudas

Clonal minicuttings

Growing system without soil

Grafting

Foliar content of macronutrients

Micronutrients

Seedling production

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Influence des interactions biotiques complexes sur la régénération des essences forestières feuillues

Giffard, Brice

03 October 2011

Les herbivores consomment les tissus végétaux et affectent la survie et la croissance des végétaux. Les ennemis naturels des herbivores peuvent réguler leurs populations et indirectement diminuer les dommages sur la végétation. Les relations entre plantes, herbivores et prédateurs sont liées aux caractéristiques intrinsèques des espèces végétales mais aussi influencées par la communauté végétale environnante. L'hypothèse de résistance par association stipule qu'une communauté végétale diversifiée entraîne une diminution des dégâts sur une plante cible par dilution, répulsion des herbivores et/ou favorisation des ennemis naturels. Inversement, les herbivores peuvent se concentrer sur la plante-cible dans une communauté végétale diversifiée (susceptibilité par association). L'objectif de cette thèse est d'évaluer 1) l'influence de la composition de la communauté végétale sur les herbivores et leurs dommages sur une plante-cible, 2) l'impact de la régulation des herbivores par les prédateurs et 3) les interactions entre herbivores, communauté végétale et prédateurs, et les conséquences pour les intensités d'herbivorie sur la plante-cible. Nous nous sommes focalisés sur les dommages causés par les insectes herbivores sur des plantules d'essences forestières feuillues (Betula pendula, Quercus robur et Q. ilex). La variété importante de communautés végétales, au niveau inter (essences dominantes) et intraparcellaire (présence, structure et composition), nous a permis de tester les effets du voisinage végétal sur les insectes herbivores et leurs dommages sur les plantules cibles. Les oiseaux insectivores sont les principaux prédateurs d'insectes et nous avons cherché à estimer les effets de leur exclusion sur les insectes et les conséquences pour les plantules, et ceci le long des gradients de composition du voisinage végétal. Enfin, le degré de spécialisation (spécialiste/généraliste) et le mode de vie (exo/endophyte) ont été caractérisés car ils conditionnent les réponses des insectes herbivores à la végétation voisine ainsi que la prédation avienne. Le voisinage végétal des plantules-cibles modifie la charge en herbivores et les dommages engendrés. Ces réponses sont liées à la spécialisation de l'insecte herbivore : la colonisation des plantules par les espèces spécialistes (mineuses de feuilles) est négativement affectée par la structure de la végétation locale (présence, recouvrement arbustif). Les dommages d'insectes généralistes augmentent avec la richesse spécifique des peuplements et dans les parcelles dominées par des espèces conspécifiques. Les abondances des insectes externes et leurs dommages sont régulés par les oiseaux insectivores mais cet effet indirect dépend de l'espèce de plantule-cible et de la composition de la communauté végétale. Les effets de cascade trophique sont les plus intenses dans les parcelles de pin maritime où les plantules constituent une ressource nouvelle pour les niveaux trophiques supérieurs. Plus localement, le voisinage végétal modifie la sensibilité des arthropodes à la prédation: les oiseaux insectivores bénéficient aux plantules lorsque les proies sont plus accessibles (végétation environnante supprimée).Pour conclure, une des principales richesses de ces résultats vient de la mise en évidence d'interactions très fortes existant entre les effets des oiseaux insectivores et la végétation environnante. Les effets indirects des prédateurs et directs de la végétation environnante sont très liés au degré de spécialisation des insectes phytophages et à leur mode de vie. / Herbivory is thought to depend on intrinsic plant resistance traits and negatively affect survival and growth of plants. Predators can depress herbivore populations and thereby indirectly limit the consumption of primary producers. The surrounding vegetation is also expected to modify the interactions between a focal plant, its herbivores and their natural enemies. The surrounding vegetation may disrupt the colonisation and the consumption of a focal plant by insect herbivores, providing associational resistance. Increasing diversity of neighbouring vegetation can decrease resource availability or enhance herbivores control by predators. By contrast, associational susceptibility may occur with higher levels of herbivory in a focal plant in more diverse plant communities. We tested 1) the effect of the neighbouring vegetation on the levels of herbivory on seedlings, 2) the indirect impact of predators on herbivores and subsequent herbivory, and 3) the interactions between surrounding vegetation, focal plants, herbivores and predators. We examined the damage caused by insect herbivores on three native broadleaved species. We then compared the importance of taxonomic similarity between seedlings and canopy tree species and the structure and composition of surrounding vegetation at both large- and small-scales. Birds are vertebrate predators likely to limit damage to plants and facilitate plant growth by consuming herbivorous insects. We estimated their effects by excluding them from focal plants, and compared their interactive effects with vegetation diversity or removal. The effects of surrounding vegetation and avian predation were also disentangled on concealed- vs. external-feeding guilds (predation sensitivity) and specialist- vs. generalist-insects.Surrounding vegetation of focal seedlings influences the abundance of insect herbivores and damage. Specialist insects (leaf miners) are affected by the understorey vegetation close to oak seedlings, decreasing with its presence or structural diversity. The damage caused by generalist insects depend on the large-scale composition of plant communities, and increase with tree species richness and cover or on conspecific forest habitats. Exclusion of insectivorous birds affects insect herbivory in a species-specific manner, and also greatly varies with forest habitats and presence of vegetation around focal plants. The indirect effect of bird predation on leaf damage is observed on seedlings beneath noncongeneric canopy trees. The removal of local surrounding vegetation affects the top-down effect of insectivorous birds on insect herbivores, according to their sensitivity to predation and the accessibility of preys. To conclude, our studies provide experimental evidences of interactive effects between bird predation and neighbouring vegetation on insect herbivores and levels of herbivory. These indirect effects are strongly related to the specialisation of herbivores and to their sensitivity to bird predation.

Résistance par association

Susceptibilité par association

Ennemis naturels

Herbivorie

Insectes spécialistes et généralistes

Régénération

Oiseaux insectivores

Cascade trophique

Interactions tritrophiques

Associational resistance

Associational susceptibility

Natural enemies

Insect herbivory

Host plant specialisation

Seedling recruitment

Insectivorous birds

Trophic cascade

Tritrophic interactions

Rôle du rétromère dans le développement des graines et la croissance des jeunes plantules chez Arabidopsis thaliana / Role of the retromer in seeds and seedling development in Arabidopsis thaliana

Thazar-Poulot, Nelcy

07 October 2011

Chez les eucaryotes, le rétromère est un complexe protéique composé d’un sous complexe SNX (Sorting Nexin) et d’une sous unité VPS (Vacuolar Protein Sorting) également appelé « core » rétromère. Le rétromère a été décrit comme un complexe régulant le transport des protéines membranaires au niveau de l’endosome. Chez Arabidopsis thaliana, les travaux de notre équipe ont démontré que ce complexe est impliqué dans différents processus développementaux tels que le développement de l’embryon, la maturation des protéines de réserves de la graine et l’initiation des racines secondaires. Dans ce travail, nous avons caractérisé la fonction du rétromère dans le développement des graines et des jeunes plantules d’Arabidopsis thaliana. D’une part, nous avons montré que VPS29 est nécessaire à la mise en place des réserves lipidiques de la graine. Nous avons identifié un nouveau « cargo » du complexe rétromère ; LTP6 (Lipid Transfer Protein 6) dont la perte de fonction engendre des phénotypes liés au métabolisme lipidique similaires à ceux du mutant vps29. Compte tenu de la localisation de LTP6 au niveau d’une structure intracellulaire spongieuse caractéristique du réticulum endoplasmique, le site de synthèse des corps lipidiques, nous supposons que le rétromère participe à la biogenèse des réserves lipidiques via sa fonction dans le trafic de ce nouveau « cargo ». D’autre part, nous avons mis en évidence que le « core » rétromère indépendamment de la sous-unité SNX est impliqué dans la mobilisation des réserves lipidiques, une fonction indispensable pour le développement des jeunes plantules. Nous avons montré que VPS29 est nécessaire à la translocalisation de la triacylglycérol lipase SDP1 (Sugar-Dependent 1) du peroxysome aux corps lipidiques, le compartiment de stockage des réserves lipidiques. Ces résultats nous ont permis d’envisager que le « core » rétromère pourrait emprunter de nouvelles voies de trafics intracellulaires entre des compartiments autre que l’endosome. / In eukaryotes, the retromer is a complex composed of the SNX (Sorting Nexin) subcomplex and the VPS (Vacuolar Protein Sorting) subcomplex also called the core retromer. To date, the retromer is described as a key regulator of proteins trafficking around endosomal compartment. In Arabidopsis thaliana, our group has previously demonstrated that this complex is involved in several developmental pathways, as embryo development, seed storage protein maturation and lateral root emergence. In this work, we characterised the function of the retromer in seeds and seedling development in Arabidopsis thaliana. Firstly, we found that VPS29 is required for the formation of seeds storage lipid. We identified a new cargo of this complex; Lipid Transfer Protein 6 (LTP6). LTP6 lost of function induces similar phenotype than vps29 linked to lipid metabolism. Based on LTP6 localisation on an intracellular structure characteristic of endoplasmic reticulum, the site of OBs formation, we supposed that the retromer may act on oil bodies biogenesis by its function on LTP6 trafficking. Secondly, we demonstrated that the core retromer have a SNX-independent function in lipid reserves breakdown, which is essential for seedling establishment. We showed that VPS29 is required for translocation of the triacylglycerol lipase SDP1 (Sugar-Dependent-1) from the peroxisome to oil bodies, the lipid storage compartment. Altogether, these results allowed us to propose new intracellular route trafficking for VPS sub-complex between compartments other than the endosome.

Rétromère

Arabidopsis thaliana

Développement de la graine

Croissance post-germinative

Réserves lipidiques

Corps lipidiques

Transport protéique

Lipase

Retromer

Arabidopsis thaliana

Seed development

Seedling development

Post-germinative growth

Sugar-dependent phenotype

Lipid storage

Oil bodies

Lipase

Proteins trafficking

The Effect of Emerald Ash Borer (Agrilus Planipennis)-Caused Ash Mortality and White-Tailed Deer Abundance on Understory Invasive Shrubs and Forest Regeneration

Hoven, Brian Michael

30 July 2021

No description available.

Biology

Botany

Ecology

Forestry

Effects of Short-term Chilling Stress on Seedling Quality and Post-transplanting Growth of Grafted and Nongrafted Watermelon

Ertle, John Michael

January 2020

No description available.

Horticulture

Agriculture

Plant Biology

Plant Sciences

Physiology

watermelon

grafting

chilling

physiology

abiotic stress

chilling degree hours

low-temperature

grafted

nongrafted

fruiting vegetable crop

cucurbitaceae

citrullus lanatus

transportation

shipping

flowering

development

seedling

Plant Establishment and Soil Microenvironments in Utah Juniper Masticated Woodlands

Young, Kert R.

05 July 2012

Juniper (Juniperus spp.) encroachment into sagebrush (Artemisia spp.) and bunchgrass communities has reduced understory plant cover and allowed juniper trees to dominate millions of hectares of semiarid rangelands. Trees are mechanically masticated or shredded to decrease wildfire potential and increase desirable understory plant cover. When trees are masticated after a major increase in tree population density and associated decrease in perennial understory cover, there is a risk that invasive annual grasses will dominate because they are highly responsive to the increased resource availability that commonly follows removal of the main resource user. To determine if tree mastication increases resource availability and subsequently favors invasive annual or perennial grasses, we compared soil temperature, water, and nutrient microenvironmental conditions and seedling establishment and growth. We used the major rangeland weed, cheatgrass (Bromus tectorum L.), to represent invasive annual grasses and Anatone bluebunch wheatgrass (Pseudoroegneria spicata (Pursh) A. Löve), a natural accession of native bluebunch wheatgrass, to represent the perennial grasses of the sagebrush-bunchgrass plant community. These comparisons were made between and within paired-adjacent masticated and untreated areas at three locations in Utah dominated by Utah juniper (Juniperus osteosperma (Torr.) Little). Juniper tree mastication generally increased resource availability with masticated areas having greater soil temperature, soil water availability, and soil N supply rates than untreated areas. Prior to juniper tree mastication litter mounds were not found to be resource islands probably because juniper trees themselves were using subcanopy soil water and nutrients. After juniper tree mastication and elimination of these predominant resource users, litter mounds served as resource islands with greater soil water availability and N supply rates than bare interspaces during the critical time for seedling establishment in spring. Plant growth followed in line with greater resource availability after tree mastication with masticated areas having more productive although fewer invasive-annual and perennial grass seedlings than untreated areas. These results suggest that increases in resource availability and warmer spring temperatures associated with mastication will not necessarily favor invasive annual over perennial grass seedling establishment. Resilience of the sagebrush-bunchgrass community to return to dominance after juniper control will likely be greatly influenced by how much of the sagebrush-bunchgrass community remains following tree control and the intensity of propagule pressure by invasive species. If only invasive annuals remain when the trees are treated then invasive annuals would be expected to dominate the post-treatment plant community especially with their ability to establish inside litter mounds unless they were also controlled and perennial grasses planted at the time of treatment.

Anatone bluebunch wheatgrass

carbon

cheatgrass

degree days

fertilizer

Great Basin

mulch

nitrogen

PRSâ„¢

rangeland restoration

sagebrush steppe

SageSTEP

seedling establishment

shred

wet days

wet degree days

woodland

woody debris

Animal Sciences

Multi-scale evaluation of mechanisms associated with the establishment of a model invasive species in Mississippi: Imperata Cylindrica

Holly, D Christopher

09 August 2008

Of concern in this research were the ecological parameters associated with the establishment of a model invasive plant species, Imperata cylindrica, across a scale of ecological organization. Specifically, the study addressed the species’ ability to: differentially respond to abiotic and biotic constraints during seedling establishment, exhibit a novel underground competitive interference mechanism, and alter the decomposition dynamics in newly invaded ecosystems. Finally, the last portion of the research was centered around creating a predictive habitat model that will provide information on the most important variables responsible for creating habitat for this species. The population level seedling study indicated that soil characteristics and light availability play a significant role in seedling establishment. There were large trends in biomass allocation attributable to soil type with seedlings performing best in high nutrient soils representative of the Mississippi Alluvial Valley physiographic region. I. cylindrica seedlings also showed a positive response to increased seedling density during the initial stages of seedling establishment. The community level research examining a hypothesized novel interference mechanism deployed by I. cylindrica showed a significant and robust pattern of I. cylindrica damaging its own belowground tissue more often than that of its surrounding neighbors. Therefore, it is highly unlikely that I. cylindrica gains a competitive advantage by exposing the native plant assemblage to pathogen invasion (via ruptured tissue) as the plant would expose itself to these pathogens (to which it is evolutionarily naive) at much higher volumes. The ecosystem level examination of this globally important invasive species indicated that I. cylindrica invasion into native systems will significantly accelerate ambient rates of decomposition. Furthermore, fungal community composition in invaded areas was drastically altered as well as bacterial community functional activity in relation to several key enzymes responsible for the decomposition of plant tissue which were produced more abundantly in invaded areas.The landscape-scale analyses and modeling work validated decades of anecdotal evidence and indicated that anthropogenic disturbance factors associated with road maintenance and construction (soil disturbance and vegetation removal) are the principal factors responsible for creating habitat suitable for invasion by this species.

anthropogenic disturbance

landscape ecology

GIS

T-RFLP

BIC

soil microbes

seedling establishment

competition

ROC

allee effects

interference

decomposition alteration

ecosystem alteration

DGGE

invasion ecology

logistic regression

novel weapon

niche modeling

predictive habitat modeling

microbial community ecology

basidiomycetes

cogongrass

plant interference

Vegetation dynamics and the efficacy of prescribed fires in restoring oak-dominated ecosystems in southern Ohio

Petersen, Sheryl M.

31 January 2012

No description available.

Biology

Ecology

Forestry

fire

fire suppression

barrens

forest

oak-dominated

maple

oak

prescribed fire

prescribed burning

resprouting

herbaceous plants

shrubs

woody plants

oak-maple shift

forest structure

Quercus

Acer

seedling

Bluegrass Region

Ohio

clipping

Seed and Seedling Disease of Corn and Soybean in Ohio: The Role of Fusarium graminearum, Pythium species diversity, fungicide sensitivity, Pythium community composition, and soil properties in disease severity

Broders, Kirk Dale

05 December 2008

No description available.

Plant Pathology

pythium

fusarium

soybean

corn

phylogenetics

community

species diversity

SSCP

soil ecology

fungicide

seedling disease

P. irregulare

P. ultimum

P. inflatum

P. torulosum

P. dissotocum

mefenoxam

azoxystrobin

fludioxonil

Effect of Alliaria petiolata management on post-eradication seed bank dynamics

Thompson, Chloe

01 September 2023

ABSTRACT Alliaria petiolata (garlic mustard) is an aggressive non-native and invasive forb that negatively impacts native arbuscular mycorrhizal communities and inhibits or prevents the growth of native plant species. Invasive species mitigation and management strategies that use native revegetation vary in success. This study focuses on which species naturally regenerate in areas where A. petiolata has been mitigated to help inform restoration efforts. Seedling emergence of species within the seed bank of four plot types (uninvaded, invaded, chemically treated, and mechanically treated) were observed two years post restoration efforts to determine which native species are likely to persist to seedlings following management. Species abundance and percent cover of all plant species were recorded to evaluate the presence of species in addition to plant health and physiological differences. Native species abundance was significantly reduced within herbicide treated plots as compared to untreated and invaded plots (p=0.02). Plots treated with mechanical removal had the greatest percent cover of native plants as compared to all other plot types but were dominated by colonizing species which is typical of a disturbed habitat. Mechanical removal also resulted in a greater abundance and stability among functional groups of native species, than those treated with herbicide. Forb species dominated coverage of plots over other functional groups when treated with herbicide. Alliaria petiolata invasion and management methods significantly impacted forb and graminoid species, as they had significantly lower abundance in plots treated with herbicide. The results demonstrate that the method of removal as well as the presence of A. petiolata affects emergence of plant species from the seedbank. The additional disturbance of mechanical removal may alter successional trajectories following invasion. Herbicide treatment resulted in the most similar species abundance as the uninvaded reference plots, which had the lowest seedling emergence and percent cover.

invasive species

alliaria petiolata

arbuscular mycorrhizzal fungi

garlic mustard

seedbank study

seedling emergence

invasive species management

mitigation methodology

percent cover

species abundance

Forest Management

Other Ecology and Evolutionary Biology

Other Forestry and Forest Sciences

Population Biology