Recherche de l'économie des ressources naturelles par des études de conception de coeurs de réacteurs à eau et à haut facteur de conversion à combustibles mixtes Thorium / Uranium / Plutonium / A search toward natural resources economy, through core designs studies of light Water Reactors with High Conversion Ratio and mixed oxide fuel composed of thorium / uranium / plutonium.

Vallet, Vanessa

12 September 2012

Dans le cadre des études neutroniques d'innovation sur les cœurs de Réacteurs à Eau légère Pressurisée (REP) de 3ème génération, la recherche de l'économie des ressources naturelles est fondamentale afin de pérenniser la filière électronucléaire. Cette étude consiste à rechercher l'économie des ressources par la conception de cœurs de réacteurs à hauts facteurs de conversion, s'appuyant sur des combustibles oxydes mixtes à base de thorium / uranium / plutonium, ainsi que d'élaborer des stratégies de multi-recyclage des matières fissiles (plutonium et 233U). La démarche s'est déroulée en quatre étapes. Deux domaines d'étude ont tout d'abord été identifiés, le premier concerne les faibles rapports de modération (RM) et un combustible ThPuO2, le second les RM standards à accrus et un combustible ThUO2. La première voie a conduit à l'étude de Réacteurs Sous-Modérés (RSM) selon les critères de production d'233U accrue et de consommation limitée de plutonium. Deux concepts ont été retenus en particulier, à partir desquels des stratégies de multi-recyclage des matières fissiles ont été élaborées. La production et le recyclage de l'233U exclusivement en RSM limitent l'économie annuelle d'Unat à 30% environ. Il a été mis en évidence que le besoin en plutonium des RSM producteurs d'233U est le facteur limitant. C'est pourquoi un dernier chapitre évalue comment la production d'233U au sein de REP, dès 2020, permet de favoriser la transition vers un cycle symbiotique REP/RSM en relâchant la contrainte sur les inventaires de plutonium. Cette stratégie laisse présager une économie annuelle de l'ordre de 65% d'Unat par rapport à la poursuite du mono-recyclage du MOX en REP. / Within the framework of innovative neutronic conception of Pressurized Light Water Reactors (PWR) of 3rd generation, saving of natural resources is of paramount importance for sustainable nuclear energy production. This study consists in the one hand to design high Conversion Reactors exploiting mixed oxide fuels composed of thorium / uranium / plutonium, and in the other hand, to elaborate multirecycling strategies of both plutonium and 233U, in order to maximize natural resources economy. This study has two main objectives: first the design of High Conversion PWR (HCPWR) with mixed oxide fuels composed of thorium / uranium / plutonium, and secondly the setting up of multirecycling strategies of both plutonium and 233U, to better natural resources economy. The approach took place in four stages. Two ways of introducing thorium into PWR have been identified: the first is with low moderator to fuel volume ratios (MR) and ThPuO2 fuel, and the second is with standard or high MR and ThUO2 fuel. The first way led to the design of under-moderated HCPWR following the criteria of high 233U production and low plutonium consumption. This second step came up with two specific concepts, from which multirecycling strategies have been elaborated. The exclusive production and recycling of 233U inside HCPWR limits the annual economy of natural uranium to approximately 30%. It was brought to light that the strong need in plutonium in the HCPWR dedicated to 233U production is the limiting factor. That is why it was eventually proposed to study how the production of 233U within PWR (with standard MR), from 2020. It was shown that the anticipated production of 233U in dedicated PWR relaxes the constraint on plutonium inventories and favours the transition toward a symbiotic reactor fleet composed of both PWR and HCPWR loaded with thorium fuel. This strategy is more adapted and leads to an annual economy of natural uranium of about 65%.

Économie des ressources

Haut facteur de conversion

Uranium 233

Réacteur à eau légère pressurisée

Scénarios symbiotique

Simulation neutronique

Natural resources economy

High conversion ratio

Uranium 233

Pressurized light water reactors

Symbiotic scenarios

Neutronic simulations

Endogenous haemoglobins and heterologous <em>Vitreoscilla</em> haemoglobin in hybrid aspen

Jokipii-Lukkari, S. (Soile)

19 April 2011

Abstract In plants, there are at least three types of haemoglobins (Hbs): symbiotic, non-symbiotic and truncated. Symbiotic Hbs are known to participate in nitrogen fixation, but the roles of the latter two groups are more obscure. Previous reports have connected both plant non-symbiotic and truncated Hbs to the scavenging of an important signal molecule, nitric oxide (NO). The aim of the present thesis was to study the effects of a bacterial Hb of Vitreoscilla sp. (VHb) on a woody model organism, hybrid aspen (Populus tremula x tremuloides), and the role of endogenous hybrid aspen Hbs. To store the produced hybrid aspen lines, the suitability of different cryopreservation methods was also tested. VHb-expressing hybrid aspens were generated by Agrobacterium-mediated gene transfer. The effects of VHb expression were examined in standard greenhouse conditions, under elevated UV-B light as well as during culture with ectomycorrhizal fungi. Both slow cooling and vitrification methods were applied in cryostoring samples of the different genetic backgrounds. Hybrid aspen non-symbiotic and truncated Hb genes PttHb1 and PttTrHb, respectively, were also isolated. The function of the genes and corresponding proteins PttHb1 and PttTrHb were studied using non-transgenic and VHb hybrid aspen lines as well as a mutant yeast (Saccharomyces cerevisiae) defective in NO resistance. VHb expression did not improve the general growth of hybrid aspen but resulted in enhanced starch accumulation in chloroplasts, pointing to changes in energy metabolism. Of the studied cryopreservation protocols, the slow cooling of dormant in vivo buds proved to be the most feasible way of cryostoring hybrid aspen lines. The culture with the ectomycorrhizal fungus was shown to increase the expression of both PttHb1 and PttTrHb in the roots of non-transgenic lines. However, the fungi did not up-regulate the hybrid aspen Hb genes in the VHb lines. Therefore, it is hypothesized that endogenous Hbs may contribute to the growth of roots and that VHb may compensate this function. When expressed alone in the mutant yeast, the recombinant PttHb1 and PttTrHb did not protect cells against the toxicity of NO. Subsequently, a novel mRNA transcript of the heterotrophic ferredoxin NADP+ oxidoreductase gene PtthFNR was found. The absence of a plastid presequence in the transcript suggests targeting of the encoded protein into cytosol. The coexpression of PttHb1 and cytosolic PtthFNR partially rescued the mutant yeast during NO treatment, demonstrating for the first time that plant Hb1 with an applicable reductase scavenges NO in vivo at a physiologically relevant rate. This thesis extends current knowledge about plant Hbs and the effects of VHb on a phenotype of a tree. It also provides new information about plant ferredoxin reductase genes. / Tiivistelmä Kasvihemoglobiinit jaetaan symbioottisiin, ei-symbioottisiin sekä ns. katkaistuihin eli truncated-hemoglobiineihin. Symbioottisten hemoglobiinien tiedetään osallistuvan typen sitomiseen, kun taas kahden muun ryhmän toiminta tunnetaan heikosti. Aiemmissa tutkimuksissa ei-symbioottiset ja truncated-hemoglobiinit on yhdistetty tärkeän signaalimolekyylin, typpimonoksidin (NO), haitallisuuden vähentämiseen. Tämän työn tarkoituksena oli tutkia Vitreoscilla sp. -bakteerin VHb-hemoglobiinin vaikutuksia puuvartiseen mallikasviin, hybridihaapaan (Populus tremula x tremuloides), sekä hybridihaavan omien hemoglobiinien merkitystä. Lisäksi työssä kokeiltiin eri nestetyppisäilytysmenetelmiä hybridihaapalinjojen varastoimiseksi. VHb:tä ilmentävät hybridihaavat tuotettiin Agrobacterium-välitteisellä geeninsiirrolla. VHb:n vaikutuksia tutkittiin kasvihuoneolosuhteissa, kohotetussa UV-B-säteilyssä sekä sienijuurikasvatuksen aikana. Eri linjojen nestetyppisäilytykseen sovellettiin sekä hidasta että nopeaa jäähdytystä. Tutkimuksissa myös eristettiin hybridihaavan PttHb1- ja PttTrHb-hemoglobiinigeenit. Näiden geenien sekä niiden koodaamien PttHb1- ja PttTrHb-proteiinien toimintaa tutkittiin siirtogeenittömien ja VHb-hybridihaapalinjojen sekä NO-herkän hiivamutantin (Saccharomyces cerevisiae) avulla. VHb-ilmennys ei parantanut hybridihaavan kasvua, mutta lisäsi tärkkelyksen kertymistä viherhiukkasiin, mikä viittaa muutoksiin energia-aineenvaihdunnassa. Tutkituista menetelmistä parhaiten hybridihaapalinjojen nestetyppisäilytykseen soveltui lepovaiheessa olevien in vivo -silmujen hidas jäähdytys. Toisin kuin VHb-kasveissa, sienijuurikasvatus voimisti sekä PttHb1:n että PttTrHb:n ilmenemistä siirtogeenittömien hybridihaapojen juurissa. Tästä johtuen esitettiin, että hybridihaavan hemoglobiinit voivat vaikuttaa juurien kasvuun ja VHb pystyy korvaamaan tämän toiminnon. Kun PttHb1 ja PttTrHb ilmennettiin yksin mutanttihiivassa, proteiinit eivät suojanneet soluja NO:n myrkyllisyydeltä. Tämän jälkeen työssä kuvattiin heterotrofisen ferredoksiini-NADP+-oksidoreduktaasi-geenin PtthFNR:n uusi mRNA-muoto. Plastidiin ohjaavan sekvenssin puuttuminen geenituotteesta viittaa siihen, että mRNA:n koodaama proteiini sijoittuu solulimaan. PttHb1:n ja PtthFNR:n yhtäaikainen ilmentäminen mutanttihiivassa paransi solujen elossa säilymistä NO-käsittelyn aikana, mikä osoittaa ensimmäistä kertaa, että kasvin Hb1 pystyy sopivan reduktaasin kanssa vähentämään NO-pitoisuutta elävässä eliössä. Tämä työ laajentaa tietämystä kasvihemoglobiineista sekä VHb:n vaikutuksesta puiden ilmiasuun. Työ myös lisää tietoa kasvien ferredoksiinireduktaasi-geeneistä.

Vitreoscilla haemoglobin VHb

cryopreservation

ectomycorrhizal fungi

heterologous expression

hybrid aspen

non-symbiotic haemoglobin

truncated haemoglobin

Vitreoscilla-hemoglobiini VHb

ei-symbioottinen hemoglobiini

heterologinen ilmentäminen

hybridihaapa

katkaistu hemoglobiini

nestetyppisäilytys

sienijuuri

Populus tremula x tremuloides

Moving towards, against and away from people: the relationship between Karen Horney's interpersonal trends and the enneagram

Nettmann, Raymond William

06 1900

Different theoretical approaches and interpretations offer diverse delineations and clusters of Enneagram type in terms of Horney’s interpersonal trends of moving toward, moving against and moving away from people. The present study reports the results of an empirical investigation into the relationship between Enneagram type and Horney’s interpersonal trends. A sample of 2 3 participants completed the Test of Object Relations (TOR) and 125 of these participants completed the Horney-Coolidge Tridimensional Inventory (HCTI). Two one-way, between-groups multivariate analyses of variance revealed differences between Enneagram types for each of the HCTI interpersonal trends of compliance, aggression and detachment and the TOR dimensions of separation anxiety, symbiotic merging, narcissism, egocentricity, social isolation and fear of engulfment. For each trend, an Enneagram type could be identified as a unique marker or benchmark of the trend. However, the empirical result does not offer clear support for one theoretical approach or viewpoint rather than another. / Psychology / M.A. (Psychology)

Karen Horney

Enneagram

Interpersonal trends

Compliance

Aggression

Detachment

Separation anxiety

Symbiotic merging

Narcissism

Egocentricity

Social isolation

Fear of engulfment

155.264

Enneagram

Horney, Karen -- 1885-1952 -- Psychology

Interpersonal relations

Separation anxiety

Narcissism

Emotional intelligence

Effect of Phosphorus Starvation on Metabolism and Spatial Distribution of Phosphatidylcholine in Medicago truncatula Wild-Type and PDIL3 Genotypes

Dokwal, Dhiraj

08 1900

Symbiotic nitrogen (N) fixation (SNF) occurs in specialized organs called nodules after successful interactions between legume hosts and rhizobia. Within nodule cells, N-fixing rhizobia are surrounded by plant-derived symbiosome membranes, through which the exchange of nutrients and ammonium occurs between bacteria and the host legume. Phosphorus (P) is an essential macronutrient, and N2-fixing legumes have a higher requirement for P than legumes grown on mineral N. First, I investigated the impact of P deprivation on wild-type Medicago truncatula plants. My observations that plants had impaired SNF activity, reduced growth, and accumulated less phosphate in P-deficient tissues (leaves, roots and nodules) is consistent with those of similar previous studies. Galactolipids decreased with increase in phospholipids in all P-starved organs. Matrix-assisted laser desorption/ionization–mass spectrometry imaging (MALDI-MSI) of phosphatidylcholine (PC) species in nodules showed that under low P environments distributions of some PC species changed, indicating that membrane lipid remodeling during P stress is not uniform across the nodule. Secondly, a metabolomics study was carried out to test the alterations in the metabolic profile of the nodules in P-stress. GC-MS based untargeted metabolomics showed increased levels of amino acids and sugars and decline in amounts of organic acids in P deprived nodules. Subsequently, LC-MS/MS was used to quantify these compounds including phosphorylated metabolites in whole plant. My findings showed strong drop in levels of organic acids and phosphorylated compounds in P deprived leaves with moderate reduction in P deprived roots and nodules. Moreover, sugars and amino acids were elevated in whole plant under P deprivation. Finally, the last project of my thesis involved studying the response of PDIL3 (Phosphate Deficiency-Induced LncRNA-3) a long non-coding RNA (lncRNA) mutant under severe P stress. PDIL3 is known to regulate Pi-deficiency signaling and transport in M. truncatula (Wang et al., 2017). My results confirmed that in P starvation, pdil3 plants showed better shoot growth, accumulated more phosphate in shoots, had impaired SNF and less rhizobial occupancy in nodules than WT. Subsequently, MALDI–MS imaging was used to spatially map and compare the distribution of phosphatidylcholine (PC) species in nodules of pdil3 and WT in P-replete and P-depleted conditions. Several PC species showed changes in distributions in pdil3 nodules compared to WT in both P sufficient and P deprived conditions. These data suggest that PDIL3's role is not just suppression of the Pi transporter, but it may also influence P partitioning between shoots and nodulated roots, meriting further investigation.

ESI-MS

MALDI-MS Imaging

Medicago truncatula

membrane lipids

nodule

phosphorus deprivation

symbiotic nitrogen fixation

GC-MS

LC-MS/MS

phosphorus

sugars

amino acids

organic acids

phosphorylated compounds

Biology, Genetics

Customer Loyalty and Employee Enthusiasm: An eclectic paradigm for strategic sales improvement at MB Silicon Systems

Botes, J.A.

31 January 2008

The objective of this study was to examine the role that customer loyalty and employee enthusiasm can play as a strategic objective to increase sales at MB Silicon Systems. In order to address these two factors from a strategic perspective, elements from various concepts have been used to gain a new understanding of customer loyalty, employee enthusiasm and strategy. The final goal of the study was to use the knowledge gained throughout the report to propose a management framework which can be implemented to give MB Silicon Systems a competitive advantage in its competitive industry.The literature review suggested that a strategy of customer loyalty and employee enthusiasm will result in above average financial performance. Customer loyalty and employee enthusiasm cannot be separated from each other and they are linked by leadership, the vision and core values of the organisation. It is not possible to achieve customer loyalty and employee enthusiasm without the proper formulation and execution of a strategy. Such a strategy needs to utilize core management tools like the Balanced Scorecard which will bridge the vision of the organisation with goal setting mechanisms of motivation. The Balanced Scorecard will ensure that strategic objectives of the organisation will be mapped into the Balanced Scorecard while employees will be rewarded according to achieved targets of these objectives.Surveys which were conducted with customers and employees have shown that MB Silicon Systems performs below international standards with respect to customer loyalty and that the organisation is failing with its existing strategy. The surveys have also shown that employees are demotivated. This state of demotivation results in a lack of teamwork and mistrust between employees. The lack of teamwork and mistrust is only the symptoms of organisational problems which need to be resolved by organisational redesign, implementation of management principles and healthy corporate governance. The low base of loyal customers and the demotivated state of employees is resulting in below average financial performance.A management framework was recommended that will transform a strategy of customer loyalty and employee enthusiasm by using proven management tools. Implementation of the framework will ensure a competitive advantage to MB Silicon Systems which will result in above average financial performance.

Customer loyalty

Employee enthusiasm

Motivation

Morale

Strategy

Balanced Scorecard

Reward management

Value creation

Entrepreneurship

Vision

Mission

Change management

Leadership

Net Promoter Score

Loyalty management

Loyalty and Motivation Framework

MB20031685

Kobus Botes

Jacobus Botes

AI

Optimal Control Strategies for Synergetic Insect and Plant Production: Maximizing Yield, Resource Efficiency, and Sustainability

Padmanabha, Murali

23 October 2024

Controlled-environment agriculture, in specific indoor vertical farming, has emerged as a promising approach to meet the increasing demand for food while reducing the environmental impacts such as land and water use. However, such climate-controlled farms often require significant energy and resource inputs, particularly for artificial lighting and climate regulation and in certain cases undesired emissions such as CO2. To address these challenges, this thesis investigates the use of model-based control approaches to optimize energy, resource, and byproduct utilization in both independent and symbiotically connected farms. The thesis begins with a review of existing process models and optimization techniques, highlighting the limitations of current plant growth models and the absence of insect larvae (Hermitia illucens) models that are capable of describing growth, complex interactions between environmental variables, and resource utilization. To overcome these limitations, this thesis proposes the development of comprehensive models combining first-principle models and empirical models that integrate physical and biological processes such as heat and mass transfer; insect growth, development, and metabolism; and finally plant photosynthesis and transpiration. A custom designed, lab-scale production unit is developed in this work to perform experiments and measure various environmental and biological process variables, facilitating the development, calibration, and validation of the proposed models to accurately represent the underlying processes. Using these models with optimal control theory, this thesis develops a framework for implementing the optimal control of plant and insect production units independently, addressing techniques for formulating the necessary optimal control problems under process or model incompleteness and also hardware or process constraints. Optimal control strategies are synthesized to primarily minimize energy and resource utilization while maintaining or even improving biomass yields. The effectiveness of the proposed approach is demonstrated through case studies, showcasing significant reduction in energy and resource utilization while achieving the automation and process goals. Furthermore, this work investigates the efficacy of resource consumption and byproduct exchange between plant production units and insect production units under different resource exchange infrastructures and climate conditions. By identifying the optimal strategies for resource exchange, this thesis shows that the overall resource utilization can be minimized, while maximizing the productivity of both plant and insect production processes, highlighting the possible synergies and sustainability. Overall, the potential of first-principle models and optimal control approaches to optimize yield and resource utilization in climate-controlled (indoor) food production systems is demonstrated with implications of efficient and sustainable food production via smart resource management and integration of production units with potential symbiotic relationships. / Landwirtschaft in kontrollierter Umgebung, insbesondere die Vertikale Landwirtschaft, hat sich als vielversprechender Ansatz erwiesen, um die steigende Nachfrage an Lebensmitteln zu befriedigen und gleichzeitig die Belastungen auf die Umwelt zu verringern. Solche klimatisierten Farmen erfordern jedoch oft einen erheblichen Energie- und Ressourceneinsatz, insbesondere für die künstliche Beleuchtung und die Klimatisierung. Um diesen Herausforderungen zu begegnen, untersucht diese Arbeit den Einsatz modellbasierter Regelungsansätze zur Optimierung der Energie- und Ressourcennutzung sowohl in unabhängiger als auch in symbiotischer Verbindung. Die Arbeit beginnt mit einem Überblick über bestehende Prozessmodelle und Optimierungstechniken, wobei die Grenzen der derzeitigen Pflanzenwachstumsmodelle und die Notwendigkeit von Modellen für Insektenlarven (Hermitia illucens), die das Wachstum, komplexe Wechselwirkungen zwischen Umweltvariablen, Energie- und Ressourcennutzung beschreiben, aufgezeigt werden. Als Lösungsansatz wird in dieser Arbeit die Entwicklung umfassender Modelle vorgeschlagen, in denen First-Principle-Modelle und empirische Modelle kombiniert werden, um folgende physikalische und biologische Prozesse zu integrieren: die Wärme- und Stoffübertragung; Insektenwachstum, -entwicklung und -stoffwechsel; und Photosynthese und Transpiration der Pflanzen. Dafür wird eine maßgeschneiderte Produktionseinheit im Labormaßstab entwickelt, die dazu dient verschiedene Umwelt- und biologische Prozessvariablen zu messen, welche die Entwicklung, Kalibrierung und Validierung der vorgeschlagenen Modelle zur genauen Darstellung der zugrunde liegenden Prozesse erleichtert. Unter Verwendung dieser Modelle und auf Basis der optimalen Steuerung wird in dieser Arbeit ein Rahmen für deren Umsetzung in den Produktionseinheiten für die jeweilge unabhängige Insekten- und Pflanzenproduktion und für deren gekoppelte Produktion, entwickelt. Dabei werden außerdem Möglichkeiten zur Beschreibung der erforderlichen Optimalsteureungsprobleme evaluiert unter Prozess- oder Modellunvollständigkeit sowie Hardware- oder Prozessbeschränkungen behandelt. Es werden optimalersteuerungsstrategien entwickelt, die die Energie- und Ressourcennutzung minimieren, die Erträge verbessern und gleichzeitig die festgelegten Automatisierungs- und Prozessanforderungen erfüllen. Die Effektivität des vorgeschlagenen Ansatzes wird anhand von Fallstudien demonstriert. Darüber hinaus untersucht diese Arbeit die Effizienz des Ressourcenverbrauchs und des Austausches von Nebenprodukten zwischen den Pflanzen- und Insektenproduktionseinheiten in verschiedenen Infrastrukturen für den Ressourcenaustausch sowie unter verschiedenen klimatischen Bedingungen. Durch die Identifizierung der optimalen Ressourcenaustauschstrategien und intellegentes Ressourcenanagement zeigt diese Arbeit, dass die Gesamtressourcennutzung minimiert werden kann, während die Produktivität sowohl der Pflanzen- als auch der Insektenproduktionsprozesse maximiert wird. Die mögliche Synergien und die Nachhaltigkeit der symbiotischen Beziehungen werden dabei hervorgehoben. Insgesamt wird das Potential von First-Principle-Modellen und Optimalsteuerung zur Optimierung des Ertrags sowie der Ressourcennutzung in klimatisierten Lebensmittelproduktionssystemen aufgezeigt. Dies führt zu einer effizienten und nachhaltigen Lebensmittelproduktion durch intelligentes Ressourcenmanagement und der Integration von Produktionseinheiten mit potenziellen symbiotischen Beziehungen.

info:eu-repo/classification/ddc/621.3

ddc:621.3

info:eu-repo/classification/ddc/630

ddc:630

Assessing the adaptive capacity of Sweden's environmental governance

Tomas, Cusicanqui

January 2016

Different challenges arising from increasingly uncertain and unpredictable environmental and economicconditions have been shifting the focus of public governance and socio-economic development. Morerecently, empirical studies have demonstrated a transitional epoch in which humanity is currently in: TheAnthropocene, as well as its harmful effects that degrade the biosphere, and thus our economic, political,social well-being. The casual dynamics of climate change and its impacts on life-supporting ecosystemshas increasingly been recognized by a resilient approach which incorporates adaptive processes andschemes, allowing public governance to embrace the changes rather than control uncertainty. Thisresearch introduces the interwoven concepts of adaptive capacity, adaptive governance, and resiliencewithin a social and environmental framework. It provides a review of how these concepts support aparadigm shift to mitigating current and future challenges—understood through a multidisciplinaryapproach, and how scholars have sought to develop a blueprint to improve the need to foster and mobilizeadaptive capacity within the governance of the commons. In Sweden, key governmental and businessleaders have shown the ability to foster environmental governance that is capable of developing analternative form of planning, implementing, and managing public policy. Moreover, Sweden’s concertedmultilevel governance and public policy efforts have promoted an all-encompassing generational, mainlythrough: coordinated environmental policies and private, public, and civil society partnerships. Theseinitiatives have led to innovative technologies and projects (e.g. urban vertical farming technology) as wellas cross collaboration and integration of companies and industries in order to achieve economic, social,and environmentally symbiosis.

Miljö- och naturvårdsvetenskap

Public Administration Studies

Studier av offentlig förvaltning

Environmental Management

Miljöledning

Globalisation Studies

Globaliseringsstudier

Réponse adaptative à court terme de la fixation symbiotique du pois protéagineux à une ablation d'une partie des racines nodulées, en lien avec la disponibilité en assimilats carbonés / Short term adaptive response of symbiotic N2 fixation in pea to root pruning of half the root system, linked to the availability of carbon assimilates

Cazenave, Alexandre-Brice

17 March 2014

La fixation symbiotique d’N par les légumineuses est très sensible aux ravageurs, provoquant des dommages sur les racines nodulées, avec un impact sur la fixation d’N et la croissance qui demeure mal connu. Nous avons alors analysé la réponse adaptative de la fixation symbiotique et de la croissance du pois Frisson sauvage et 3 de ses mutants hypernodulants P64, P118 et P121, respectivement mutés sur les gènes SYM28, SYM29 et NOD3, à une ablation de la moitié du système racinaire, en fin de phase végétative. La réponse adaptative a été mesurée 8 jours après ablation, dans des conditions d'alimentation en carbone par la photosynthèse variées. A 380 ppm, le mutant P118 a montré la plus faible diminution de l’activité spécifique de fixation (-17%) suite à l’ablation comparé au sauvage et aux 2 autres mutants (-36% à -62%) associé à une accélération chez les mutants P118 et P121 et un maintien (sauvage et P64) de la croissance des nodosités. A 150 ppm, suite à l’ablation, l’activité spécifique de fixation symbiotique par les nodosités a été diminuée (sauvage), maintenue (P64 et P118) ou augmentée (P121), associée à une accélération (sauvage et P121) ou un maintien (P64 et P118) de la croissance des nodosités. A 750 ppm, l’activité spécifique de fixation a diminué suite à l’ablation pour tous les génotypes, associée à un ralentissement (P64), un maintien (P118, sauvage) ou une faible accélération (P121) de la croissance des nodosités. Les résultats montrent une plus grande capacité de la fixation symbiotique des mutants hypernodulants (P118 et P121 essentiellement) à résister au stress provoqué par l’ablation. / Symbiotic N fixation of legumes is very sensitive to environmental stresses, like pea pests damaging nodulated roots. However, the impact on their N uptake capacity and plant growth has not been studied so far.We analyzed the adaptive response symbiotic N2 fixation and plant growth of pea wild type Frisson and hypernodulating mutants P64, P118 and P121 mutated respectively on genes SYM28, SYM29 and NOD3 to root pruning of half the root system at the end of the vegetative stage. The adaptive responses of pea: cv. Frisson and 3 of its hypernodulating mutants were compared under varying carbon supplies from photosynthesis.At 380 ppm, mutant P118 showed the lowest decrease of the specific activity of N fixation (-17%) following root pruning compared to the wild type and the 2 others mutants (-36% to -62%), associated to an acceleration (P118 and P121) and a maintained (wild type and P64) nodule growth. At 150 ppm, following root pruning, specific activity of N fixation of nodules decreased in wild type, was maintained in P64 and P118 and increased in P121. At 750 ppm, specific activity of N fixation of nodules decreased for all genotypes following root pruning, associated to a maintained nodule growth in wild type and P118, a slower growth in P64 and acceleration in P121.Our results showed a greater capacity of hypernodulating mutants P118 and P121 to withstand the stress induced by root pruning of half the root system.

Pisum sativum L.

Mutants hypernodulants

Fixation symbiotique du N2

Racines

Nodosités

Ablation

Assimilation et répartition du C

Force de puits pour le carbone

Teneur en CO2 faible ou élevée

Marquage isotopique 13C

15N

Pisum sativum L.

Hypernodulating mutants

Symbiotic N2fixation

Roots

Nodules

Root pruning

C Assimilation and partitioning

Sink strength for C

Low or elevated CO2 concentration

13C

15N Isotopic labeling

575

Analyse du fonctionnement des performances des associations blé dur-pois d'hiver et blé dur-féverole d'hiver pour la conception d'itinéraires techniques adaptés à différents objectifs de production en systèmes bas-intrants / Analysis of the functioning and efficiency of durum wheat - winter pea and durum wheat - winter faba bean intercrops in order to design cropping systems

Bedoussac, Laurent

29 September 2009

Les associations d'espèces sont définies comme la culture simultanée d'au moins deux espèces sur la même parcelle pendant une période significative de leur croissance. Ce système permettrait d'améliorer l'utilisation des ressources du milieu (eau, azote, lumière…) et ainsi d'augmenter le rendement et la qualité des grains par rapport aux cultures monospécifiques. L'objectif de notre travail était d'analyser le fonctionnement et d'évaluer la performance des associations blé dur - pois d'hiver et blé dur - féverole d'hiver pour aider à la conception d'itinéraires techniques adaptés à différents objectifs de production. Pour cela nous avons testé, au cours de trois années d'expérimentations, différentes combinaisons de variétés de blé dur, disponibilités en azote, structures de couverts et densités de plantes. Nos résultats ont confirmé l'intérêt de ces systèmes pour améliorer le rendement et la teneur en protéines du blé dur comparativement aux cultures monospécifiques mais également pour la réduction des ravageurs, maladies et de l'enherbement dans certaines conditions. Ces systèmes sont ainsi particulièrement bien adaptés aux situations à faible disponibilité en azote en raison de la complémentarité entre céréale et légumineuse pour l'utilisation de l'azote (minéral du sol et fixation symbiotique) mais aussi pour la captation de l'énergie lumineuse. In fine, ce travail a permis de proposer des prototypes d'itinéraires techniques d'associations adaptés à différents objectifs de production, grâce notamment à l'analyse dynamique des compétitions et complémentarités entre espèces au sein du couvert et en particulier de l'élaboration du rendement du blé dur en association. / Intercropping is the simultaneous growing of two or more species in the same field for a significant period. Such systems are known to use available resources (water, light, nitrogen…) more efficiently than their corresponding sole crops and consequently to increase yield and grain protein concentration particularly in low N input systems. The aim of our work was to analyse the functioning of durum wheat - winter pea and durum wheat - winter faba bean intercrops. A 3-year field experiment was carried out with different fertilizer-N levels, wheat cultivars and plant densities. The intercrop efficiency was studied in order to further design low inputs cropping systems for specific objectives. Our results confirm that intercropping is more suited to low-N-input systems because it takes advantage of complementary N sources (soil mineral N and N2 fixation) and light use between species of the intercrop. Thus, intercrops were more efficient than sole crops for yield, they increased durum wheat grain protein concentration and in certain cases reduced weeds, pests and diseases. Finally, our work indicates that intercrops can be optimized for specific objectives by the choice of crop species, cultivars, N fertilization and plant densities in order to maximize resource capture and minimize competition. Indeed, intercrop efficiency is determined by the complementary resource use between the two species as well as the relative strength of the intra- and interspecific dynamic competitive interactions.

Rendement

Protéine

Land Equivalent Ratio

Azote

Fixation Symbiotique

Lumière, Statut Azoté

Croissance Dynamique

Compétition

Complémentarité

Intraspécifique

Interspécifique

Adventices

Ravageurs

Maladies

Grain Yield

Grain Protein Content

Land Equivalent Ratio

Nitrogen

Symbiotic Fixation

Light

Nitrogen Status

Growth Dynamic

Competition

Complementarity

Intraspecific

Interspecific

Weeds

Pests

Diseases

Calcium-related fungal genes implicated in arbuscular mycorrhiza / Gènes fongiques liés au calcium impliqués dans la mycorhize à arbuscules

Liu, Yi

10 December 2012

Les fluctuations du taux de calcium (Ca2+) intracellulaire sont impliquées dans les événements de signalisation et de régulation de différents processus cellulaires. Alors que le role du Ca2+ dans la réponse des plantes lors des interactions mycorhiziennes à arbuscules (MA) interactions est bien documentée, il n’existe aucune information concernant la régulation ou le rôle de ce messager secondaire chez le symbiote fongique. La base moléculaire de l'homéostasie calcique fongique dans la symbiose MA a été analysée en étudiant l'expression de gènes fongiques liés au Ca2+. Dans un premier temps, des gènes de G. mosseae codant putativement pour une protéine kinase-like MAP3k (Gm2) et une P-type ATPase (Gm152) ont été étudiés. L’expression des deux gènes est stimulée par les exudats racinaires d’A. sinicum, suggérant un rôle dans les interactions précoces avant l'établissement de la symbiose. L’obtention de la séquence d'ADNc pleine longueur de Gm152 a confirmé son identité. Une étude plus approfondie du rôle de Ca2+ dans les processus fongiques impliqués dans la symbiose MA a été réalisée chez G. intraradices. L'expression de sept gènes fongiques encodant six protéines de transport membranaire calcique et une protéine kinase nucléaire, sélectionnés du séquençage transcriptomique du G. intraradices, était stimulée lors de la colonisation des racines de M. truncatula type sauvage (lignée J5) mais pas chez le mutant non-mycorhizienne dmi3/Mtsym13. La cartographie par microdissection laser des transcrits des gènes fongiques a indiqué une activation différentielle dans les arbuscules et/ou dans hyphes intercellulaires. Les variations tempo-spatiales de l'expression des gènes fongiques suggèrent des roles différents dans le développement ou le fonctionnement de la symbiose MA. L’ADNc pleine longueur a été obtenue de trois gènes de G. intraradices encodant un PMR1-like réticulum endoplasmique ATPase, un VCX1-like transporteur ionique vacuolaire et un CCaMK nucléaire pour des analyses fonctionnelles chez la levure afin de mieux comprendre leur rôle dans la symbiose MA. Les mécanismes par lesquels les protéines liées au Ca2+ pourraient jouer un rôle chez G. intraradices dans la mobilisation et la perception du messager secondaire au cours des interactions MA sont discutés / Fluctuations in intracellular (Ca2+) calcium levels generate signaling events and regulate different cellular processes. Whilst the implication of Ca2+ in plant cell responses during arbuscular mycorrhiza (AM) interactions is well documented, nothing is known about the regulation or role of this secondary meesenger in the fungal symbiont. The molecular basis of fungal calcium homeostasis in the AM symbiosis was analyzed by investigating the expression of Ca2+-related fungal genes. In a first study, G. mosseae genes putatively encoding a MAP3k-like protein kinase (Gm2) and a P-type ATPase (Gm152) were investigated. Both Ca2+-related genes were up-regulated by A. sinicum root exudates, suggesting a role in early interactions prior to symbiosis establishment. The full-length cDNA sequence of Gm152 obtained from germinating spores of G. mosseae confirmed its identity. The role of Ca2+ in fungal processes leading to establishment of an AM symbiosis was investigated in more detail in G. intraradices-M. truncatula interactions. Enhanced expression of genes encoding six membrane transport proteins and one nuclear protein kinase, selected from the G. intraradices transcriptome database, was related to colonization of wild-type M. truncatula (line J5) roots and not observed with the mycorrhiza-resistant mutant dmi3/Mtsym13. Laser microdissection mapping of transcripts indicated that the Ca2+-related G. intraradices genes were differentially up-regulated in arbuscules and/or in intercellular hyphae. The tempo-spatial variations in fungal gene expression suggest different roles in the development or functioning of the AM symbiosis. Full-length cDNA of three G. intraradices genes putatively encoding a PMR-like endoplasmic reticulum P-type ATPase, a VCX1-like vacuolar Ca2+ ion transporter and a nuclear CCaMK were obtained for functional analyses in yeast mutants to gain insight into their role in the mycorrhizal symbiosis. Possible mechanisms are discussed in which Ca2+-related proteins of G. intraradices may play a role in the mobilization and perception of the intracellular messenger by the AM fungus during symbiotic interactions with host roots

Champignons mycorhizogènes

Glomus mosseae

Glomus intraradices

Gènes liés au Ca2+

Protéines membranaires/nucléaires

Expression tempo-spatiale

Interactions symbiotiques

Homéostase calcique

Signalisation cellulaire

Mycorrhizal fungi

Glomus mosseae

Glomus intraradices

Ca2+-related genes

Membrane/nuclear proteins

Tempo-spatial expression

Symbiotic interactions

Ca2+ homeostasis

Cell signaling

571.6

572.4

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