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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Condensed tannin characterization with FT-ICR MALDI mass spectrometry and separation with saw-tooth gradient HPLC

Reeves, Savanah Gail 03 June 2020 (has links)
No description available.
22

Condensed tannins extraction from grape pomace : characterization and utilization as wood adhesives for wood particleboard / Extraction de tannins condensés à partir de marc de raisin : caractérisation et utilisation pour la production d'adhésifs pour panneaux de particules

Lan, Ping 19 October 2012 (has links)
Les marcs de raisin issus de la viniculture constituent un gisement de ressource naturelle abondant, sous valorisé et riche en polyphénols. Une méthode d?extraction de ces tannins condensés a été développée et optimisée en vue d'une application en adhésif pour les produits dérivés du bois. Les tannins ont été caractérisés par Résonance Magnétique Nucléaire, spectroscopie Infra Rouge (FTIR), spectrométrie de masse (MALDI TOF) et Analyse Thermomécanique (TMA). Des panneaux de particules ont été fabriqués à l'aide des colles élaborées en laboratoire et testés suivant les normes françaises en vigueur, plusieurs dépassent largement les valeurs seuils / The extraction of condensed tannins from grape pomace was examined using water medium in the presence of different bases as catalyst (NaOH, Na2CO3, NaHCO3 and Na2SO3). Two different extraction processes and the influence of 4 parameters (i.e., temperature, reaction time, chemical reagents and concentration of the chemical reagents) on the tannin extracts yields and properties were studied. The tannin fractions were characterized by Fourier transform-infrared spectroscopy, thermogravimetric analysis, carbon nuclear magnetic resonance spectroscopy and matrix assisted laser desorption ionization time of flight mass spectrometry ( MALDI-TOF ). It was demonstrated that it is possible to extract reactive tannins from grape pomace in basic medium. The tannin extracts obtained by precipitation in acidic conditions display a high phenolic content (Stiasny number higher 95%) but low water solubility and low reactivity toward formaldehyde because of the formation of catechinic acid phlobatannins during the acidification step. The tannins extracts obtained by lyophilization of the liquid, despite of their lower phenolic contents, displayed promising properties for adhesive applications. The optimum temperature of the extraction process was 100 °C, reaction time was 120 min; the best concentration of reagent was 10% (w/w). It was also shown that addition of sulphite ions during the extraction step improved the process :y the introduction of a sulfonic group through sulfitation increased both tannin solubility and reactivity as a result from the opening of the heterocyclic ring during extraction The structure of grape pomace sulfited tannin extracts did not present noticeable discrepancy exception of the ratio of the opening pyran ring which was different as a function of the catalyst used. The opening of pyran ring during the tannins extraction seem to be more important by using Na2CO3 and NaHCO3 than when using NaOH. The FT-IR bands assigned to aromatic ring vibration and carbonyl groups were stronger and no bands attributed to sulfited groups were tested detected in acidified tannins compared to lyophilized tannins. The TG2 results showed that the weight lost of these tannin extracts mainly composed of two steps. The first step starts from room temperature to 200 °C. It is attributed to the mass lost of water and some easy-degraded small low molecules. The secondly steps which is the mainly degradation step of tannin extract samples from 200 to 400 °C. The results from 13C-NMR showed that condensed tannin extracts from grape pomace were consistent with dominant procyanidin units with a minor amount of prodelphinidin units that are linked together by a C4-C8 bond. Relatively low carbonhydrate and high catechinc acid content was observed in acidified tannins compared to lyophilized tannins. It was shown by MADI-TOF experiments that grape pomace tannin extracts are mainly composed of flavoinoid oligomers up to 6 repeating units in lyophilized tannins and 10 repeating units in acidified tannins respectively, with dominant procyanidin units. A small proportion of substitution with glucose and gallic acid was detected in procyanidin units of polyflavonoid oligomers. The degree of polymerization of acidified tannins is higher than lyophilized tannins. Two different formulations (nonfortified tannin adhesive and fortified with addition of 20% of polymeric 4, 4'-diphenyl methane diisocyanate (p-MDI)) were used to press one layer wood particle board. It was shown that the nature of the extraction reagent (NaOH, Na2CO3 or NaHCO3) greatly impacts the properties of the resins and the mechanical properties of the panel internal bonding strengths. The particleboards bonded by the tannins extracted using Na2CO3 as catalyst give the best performance and were good enough to pass relevant international standard specifications for interior grade panels. Formaldehyde emission of these panels was below the European Norm requirements (<= 6.5 mg/ 100g panel)
23

Interactions entre les tannins et les lipides : impact possible sur le goût du vin

Furlan, Aurélien 19 December 2013 (has links)
Lors de la dégustation d’un vin, les tannins sont responsables de deux propriétés gustatives, l’amertume et l’astringence, respectivement dues à des associations avec les protéines salivaires et les récepteurs au goût amer. Néanmoins, leurs intensités perçues en bouche vont dépendre de multiples facteurs, notamment la présence de molécules externes aux complexes tannin-protéine tel que les lipides, qu’ils soient situés au niveau des membranes buccales ou issus de l’alimentation. L’objectif de cette thèse a ainsi été d’examiner l’impact des lipides sur ces sensations organoleptiques. Pour ce faire, cette étude, réalisée principalement par RMN, s’est intéressée aux interactions tannin-lipide sur des modèles de membranes buccales et d’émulsions de gouttelettes lipidiques. Nous avons pu alors étudier l’interaction tannin-lipide en termes de localisation, d’affinité et de dynamique. Nos résultats montrent dans un premier temps une localisation du tannin à l’interface de tous les modèles utilisés. En outre, l’insertion de tannins au niveau des vésicules multilamellaires, modèle utilisé pour mimer les membranes buccales, entraîne une fluidification de ce système lipidique. Il a été montré que cet effet fluidifiant dépend de la structure du tannin, de la présence d’éthanol et de la teneur en cholestérol du système lipidique. Enfin, un protocole permettant d’obtenir les constantes d’associations tannin-lipide par RMN a été établi. Ces dernières se sont révélées du même ordre de grandeur que celles relatives aux interactions tannin-protéine salivaire. Ces résultats montrent que les lipides auraient une influence d’une part sur l’astringence via une compétition entre les interactions tannin-lipide et les interactions tannin-protéines salivaires et d’autre part sur l’amertume en perturbant la dynamique de la membrane, ce qui pourrait induire une perturbation des récepteurs gustatifs. / When tasting a wine, tannins are responsible of two gustative properties, bitterness and astringency, respectively due to association between tannins and salivary proteins or bitter receptors. However, perceived intensities depend on several factors, including the presence of external molecules such as lipids, either located in the buccal membranes or from food. The main objective of this thesis was to study the effect of lipids on these two organoleptic properties. For that, this study, carried out mainly by NMR, is interested in tannin-lipid interaction using several models of buccal membranes and lipid droplets. We have studied these interactions in terms of localization, affinity and dynamics. Our results show a localization of tannins at the interface of all studied lipid models. Then, the insertion of tannins in multilamellar vesicles, used to mimic buccal membranes, causes a fluidification effect on these systems. This effect depends on the structure of the tannin, the presence of ethanol and the cholesterol content of the lipid system. Finally, a protocol to determine the tannin-lipid association constants was developed. The latter have proved to be in the same order of magnitude as those for tannin-salivary protein interaction. These results show that lipids could have an influence on the one hand on astringency, due to the competition between tannin-lipid interaction and tannin-salivary protein interaction, and on the other hand on bitterness due to the disturbance of the buccal membrane dynamics, which could induce a disturbance of the gustative receptors.
24

Relation structure/activité de tanins bioactifs contre les Nématodes Gastrointestinaux (Haemonchus contortus) parasites des petits ruminants / Structure/activity relationships of bioactive tannins against parasitic nematodes (Haemonchus contortus)in small ruminants

Quijada Pinango, Jessica 17 December 2015 (has links)
Les nématodes gastrointestinaux (NGIs) représentent une contrainte majeure en élevage des ruminants. Jusqu’à présent, la maîtrise de ces parasitoses a reposé essentiellement sur l’emploi répété de traitements anthelminthiques (AH) de synthèse. Cependant, le développement constant de résistances aux AH dans les populations de nématodes chez les petits ruminants conduit à rechercher des méthodes alternatives ou complémentaires de lutte contre ces parasitoses. Au cours des deux dernières décennies, les données se sont accumulées montrant que certaines plantes étaient dotées de propriétés anthelminthiques, ce qui a été associé à la présence de tannins condensés (TCs) et de flavonoïdes. Ces ressources contenant des TCs, exploitées comme nutricaments, représentent donc une alternative attractive à la chimiothérapie, en combinant des effets bénéfique sur la santé et la nutrition des ruminants. Toutefois, une des difficultés à résoudre, pour un usage pertinent de ces nutricaments, est de comprendre l’origine de la variabilité des résultats observés dans l’activité AH. A côté de facteurs quantitatifs, la qualité (la structure) des TC semble également jouer un rôle dans les propriétés antiparasitaires mais ce facteur demeure peu exploré. En utilisant Haemonchus contortus comme modèle expérimental de nématode et le sainfoin (Onobrychis viciifolia) comme modèle de plantes contenant des tannins, l’objectif général de cette thèse a été de mieux comprendre les relations structure/activité des TCs. Les objectifs spécifiques des diverses études menées ont été 1) d’ examiner in vitro (par la méthode LEIA) l’activité AH de 36 fractions purifiées de TCs présentant une large diversité de caractéristiques structurelles [ex: la taille (mDP), les proportions prodelphinidols /procyanidols (PD/PC) et trans/cis ], et 2) le rôle possible d’interactions entre tannins et flavonoïdes, 3) d’ évaluer et comparer in vivo chez des agneaux, les conséquences sur les populations de vers et sur la résilience de l’hôte de la distribution de 2 ressources contenant des TCs de qualité contrastée pour les valeurs PD/PC [fort PD/PC, sainfoin (O. viciifolia); bas PD/PC, pellicules de noisettes (Corylus avellana)], 4) d’ examiner si les résultats varient en fonction de l’espèce et de la localisation des parasites (abomasum, H. contortus vs intestin grêle, Trichostrongylus colubriformis), 5) d’évaluer les concentrations, la qualité et la bio-disponibilité des TCs le long du tube digestif chez les ovins. Les résultats acquis ont montré: 1) des relations in vitro entre certaines caractéristiques des TCs et l’activité AH : un rapport élevé PD/PC pour les 2 espèces de nématodes auquel s’ajoute un rôle de la taille des tanins (mDP) pour H. contortus sont les facteurs identifiés. De manière générale, H. contortus s’est avéré plus sensible (valeurs EC50 plus faibles) aux effets des diverses ressources que T. colubriformis. Des synergies d’effets AH ont été observés entre tannins et flavonoides (quercétine et lutéoline), tout particulièrement dans le cas de TCs avec un faible rapport PD/PC. Dans l’étude in vivo, les agneaux consommant du sainfoin ont montré des effets AHs et une amélioration de la résilience de l’hôte alors que les effets de la noisette ont été beaucoup plus discrets. Les analyses menées sur les contenus des divers organes digestifs et les fèces, pour les deux types de ressources ont montré de fortes réductions de TCs détectés par rapport aux teneurs initiales dans la ration alors que les caractéristiques de structure étaient globalement préservées au long du tube digestif. En conclusion, le rôle de la qualité (structure) des TCs dans l’activité AH a été confirmé à la fois par les études in vitro et in vivo. Ces résultats suggèrent l’importance de prendre en compte ces facteurs dans la recherche de ressources pouvant être exploitées comme futurs nutricaments chez les ruminants. / Gastrointestinal nematodes (GINs) represent a major threat for the breeding and production of grazing ruminants. So far, their control has been based mainly on the repeated use of synthetic AH drugs. However, worm populations in small ruminants have consistently developed resistance against all AH drugs. In the search for alternative solutions to such drug treatments, the last two decades have provided evidence that some plants possess natural AH bioactivity. This has been related to the presence of condensed tannins (CTs) and flavonoids. Therefore, CT-containing resources represent a promising alternative to chemotherapy especially when used as nutraceuticals that combine beneficial effects on health and nutrition in small and large ruminants. However, one of the main constraint to use these nutraceuticals relates to the variations in AH results. The structural features (quality) that contribute to the AH activities of CTs remain elusive. By using the GIN Haemonchus contortus as a experimental model of nematode and Onobrychis viciifolia as a model of CT-containing plant, the general aim of this PhD was to better understand the structure/activity relationship of CT. The specific objectives were i) to examine in vitro (LEIA) the AH activity of 36 purified CT fractions with a wide range of structural features [i.e. size (mDP), prodelphinidin/procyanidin (PD/PC) and trans/cis ratios], and ii) the possible role of interactions between tannins and flavonoids, iii) to evaluate in vivo the AH activity and host resilience of two CT-resources with contrasting PD/PC ratios (i.e. high PD/PC, O. viciifolia; low PD/PC, Corylus avellana), iv) to examine whether these results vary depending on the parasites species (abomasal, H. contortus vs intestinal, Trichostrongylus colubriformis), v) to examine the CT availability (quantity and quality) along the digestive tract in sheep. In regard of CT features and AH activity, in vitro correlations were observed between AH activity and high PD/PC for both species. mDP was an additional criteria for H. contortus. Lower EC50 values were assessed for H. contortus. Synergistic AH effects were observed between CT and flavonoids (quercetin and lutein), and they were higher with fractions of low PD/PC ratios. In vivo, the lambs consuming sainfoin pellets showed consistently higher AH effects and improvement in the host’s resilience. Analyses of digesta samples and faeces, for both diets showed large reduction of detected CT related to the feed, whereas the CT structures seem preserved along the gut. In our studies, the role of CT structural features in the AH activity was observed both in vitro and in vivo. These results confirmed the influence of CT quality in the AH effects, and underline the relevance of taking these factors into account when screening CT resources as potential nutraceuticals in small ruminants.
25

Benefit of including bioactive legumes (sainfoin, red clover) in grass-based silages on ruminant production and pollutant emissions / Inclusion de légumineuses bioactives (sainfoin, trèfle violet) dans les ensilages à base d'herbe : bénéfices pour la production des ruminants et les rejets polluants

Copani, Giuseppe 10 September 2015 (has links)
Les légumineuses permettent de réduire les intrants en élevage (engrais, concentrés) en raison notamment de leurs niveaux élevés en protéines. Cependant, à la fois pendant le processus d'ensilage et celui de fermentation dans le rumen, les protéines peuvent subir une importante dégradation, ce qui affecte la valeur nutritive des fourrages et induit des rejets d'azote (N) importants, notamment dans l'urine. Certaines légumineuses peuvent alors être d'un intérêt particulier car elles produisent des composés secondaires qui peuvent modifier positivement les processus fermentaires et digestifs. Ainsi, les tannins condensés (CT) présents dans le sainfoin (SF, Onobrychis viciifolia) sont capables de se lier aux protéines, réduisant leur dégradation dans le silo et le rumen et se traduisant par un transfert de l'excrétion d'azote de l'urine vers les fèces. Le trèfle violet (RC, Trifolium pratense) contient la polyphénoloxydase (PPO), une enzyme qui catalyse l'oxydation de différents composés phénoliques en quinones. Comme les CTs, les quinones sont capables de former des complexes avec les protéines permettant de réduire leur dégradation dans le silo et le rumen. L'objectif de cette thèse était alors d'étudier et de quantifier les bénéfices potentiels de l'utilisation de ces deux espèces de légumineuses bioactives sur i) la qualité et la conservation des ensilages, ii) la fermentation ruminale, l'efficacité digestive et les performances des ovins, et iii) l'empreinte environnementale (excrétion d'N et de CH4). Nous avons effectué deux essais in vitro et deux essais in vivo, basés sur des ensilages composés de ces deux légumineuses, seules ou en mélange avec une graminée (la fléole- T, Phleum pratense L.) qui nous a servie de contrôle. Les essais in vitro nous ont permis de nous focaliser sur la qualité et la conservation des ensilages ainsi que sur la fermentation ruminale, tandis que les essais in vivo se sont concentrés sur la performance et l'efficacité digestive des agneaux, ainsi que sur leur bilan azoté et leurs émissions de CH4. L'inclusion de légumineuses bioactives dans les ensilages d'herbe a amélioré la qualité du fourrage, la fermentation pendant le processus d'ensilage ainsi que la protection des protéines contre une dégradation au sein du silo et du rumen. Globalement, l'alimentation des agneaux avec des mélanges comportant ces légumineuses s'est traduite par une augmentation de l'ingestion de matière sèche, en comparaison des agneaux alimentés avec la graminée pure. Néanmoins, en raison de la digestibilité nettement plus faible de T-SF, probablement due à une composition et une nature des fibres différentes ainsi qu'à la présence de CT, les agneaux ayant reçu T-SF ont montré une ingestion et des performances plus faibles que ceux ayant reçu les ensilages contenant RC. Dans le rumen, il semble que les protéines de RC aient été plus protégées de la dégradation que celles de SF, tandis que dans la suite du tractus digestif, les complexes formés entre protéines et CT (avec SF) se seraient moins dissociés que ceux formés entre protéines et quinones (avec RC), ce qui pourrait en partie expliquer le transfert d'excrétion de l'N de l'urine vers les fèces, observé chez les agneaux alimentés avec T-SF et bénéfique pour l'environnement. SF a également permis de réduire légèrement les émissions de CH4. Ainsi, utiliser des légumineuses bioactives dans les pratiques d'alimentation des ruminants apparaît une stratégie prometteuse pour fournir des produits animaux de façon plus durable. Nos résultats montrent que chaque espèce apporte des avantages différents, plutôt orientés vers la qualité de l'aliment et les performances animales pour RC mais plutôt orientés vers la réduction des rejets pour SF. Des recherches complémentaires sont donc nécessaires pour mieux caractériser ces avantages et élargir les investigations à d'autres espèces, d'autres mélanges et d'autres bénéfices potentiels. (...) / Fodder legume species allow to reduce inputs in livestock breeding systems (fertilizer, concentrates) notably because they contain high levels of crude proteins which are of primary importance in ruminant nutrition. However, during both silage and rumen fermentation processes, proteins are submitted to degradation which affects forage nutritive value and leads to nitrogen (N) losses notably via urine. Some specific legumes can then be of particular interest as they produce plant secondary compounds that can positively affect silage and digestive processes. Condensed tannins (CTs) present in sainfoin (SF, Onobrychis viciifolia) are able to bind with proteins thereby reducing their degradation in the silo and the rumen, resulting in a shift in N excretion from urine to faeces. Red clover (RC, Trifolium pratense) contains polyphenol oxidase (PPO), an enzyme that catalyses the oxidation of different phenolics into quinones. As CTs, quinones are able to form complexes with proteins that will similarly reduce their degradation in the silo and the rumen. The aim of this thesis was to investigate and quantify the potential benefits of using these two bioactive legume species on i) quality and conservation of silages, ii) rumen fermentation, digestive efficiency and sheep performance, and iii) environmental footprint (N excretion and CH4 emissions). We conducted two in vitro and two in vivo trials which were based on silages of pure legumes or of different mixtures with the grass species (timothy T, Phleum pratense L.), which served as control. In the in vitro trials, we focussed on silage quality, silage conservation and rumen fermentation, while in the in vivo trials, we focussed on lambs' performance, digestion efficiency, N balance and CH4 emissions. Including bioactive legumes in mixtures with grass improved, compared to pure grass, forage quality and fermentation during the silage making process, as well as proteins' protection from degradation within both the silos and the rumen. Lambs fed with the mixtures involving legumes responded with an increase in DM intake compared to their counterparts fed with T. Nevertheless, due to a possibly different fibre composition and to the presence of CT which impaired SF digestibility, lambs that consumed T-SF showed lower intake and performance than those that received RC-containing silages. In the rumen, RC proteins appeared more protected from degradation than SF ones, while in the subsequent parts of the digestive tract, the proteins-CT complexes (from SF) might less dissociate than the proteins-quinones ones (from RC). This could partly explain the environment-friendly shift in N excretion from urine to faeces when animals are fed with T-SF. SF also allowed to slightly reduce CH4 emissions. Thus, utilizing bioactive legumes in livestock feeding practices is a promising strategy to produce animal products more sustainably. Our results show different benefits relative to the bioactive legume species involved, directed towards boosted forage quality and animals' performance for RC but towards lowered wastes for SF. Further research is thus needed to better characterize these benefits and enlarging investigations to other plant species, mixtures and potential benefits (e.g. health). This will help to determine the appropriate choice of plant species according to the objectives.
26

Propriétés anthelminthiques du sainfoin (Onobrychis viciifoliae) : analyse des facteurs de variations et du rôle des composés phénoliques impliqués / Anthelmintic properties of sainfoin (Onobrychis viciifoliae) : analyses of factors of variations and of the role of different phenolic compounds

Manolaraki, Foteini 21 January 2011 (has links)
Les nématodes parasites du tube digestif demeurent une contrainte majeure pesant sur la santé, le bien être et les productions des petits ruminants élevés à l’herbe. Le mode usuel de maîtrise de ce parasitisme repose sur l’emploi répété de molécules chimiques anthelminthiques. Toutefois, le développement et la diffusion généralisée de résistances à ces molécules dans les populations de vers imposent désormais d’utiliser ces traitements avec discernement et de trouver des solutions complémentaires ou alternatives. L’incorporation dans la conduite d’élevage (ration des moutons ou des chèvres) de légumineuses fourragères riches en tannins condensés dotées de propriétés anthelminthiques s’est avérée une option prometteuse pour réduire le recours aux molécules chimiques. Toutefois, une des difficultés d’application de ces plantes tient à la variabilité des résultats observés. En prenant le sainfoin comme modèle de légumineuse contenant des tannins et en s’appuyant essentiellement sur des méthodes in vitro basées sur les larves 3 infestantes, l’objectif général de cette thèse est d’analyser le rôle respectif de facteurs liés à l’environnement, aux variétés génétiques ou aux modes de préservation technologiques sur les propriétés anthelminthiques. Quelque soit le critère envisagé, une forte variabilité a été observée. Les principales variations liées à l’environnement dépendaient de l’année et du cycle de coupe, ainsi que du site d’exploitation. Parmi les 38 variétés testées, 9 se sont avérées à forte activité AH, alors que 22 étaient à très faible activité. Enfin, les résultats ont aussi surtout souligné une plus forte activité antiparasitaire dans des formes séchées ou ensilées par comparaison à des échantillons frais. La comparaison des profils biochimiques liés à cette variabilité a permis une exploration des composés phénoliques expliquant l’activité anthelminthique. L’existence d’une relation dose-réponse a été précisée. Le rôle des tannins condensés a été confirmé, notamment ceux à faible degré de polymérisation et à faible poids moléculaire. L’importance des prodelphinidines qui seraient plus actives que les procyanidines reste à confirmer. De plus, il a été montré que d’autres flavonoides peuvent jouer un rôle, notamment les flavan-3-ols et les flavonols. La différence d’activité entre les échantillons de sainfoin ensilés ou fanés par comparaison aux échantillons frais s‟expliquerait en partie par la présence de formes non glycosidés de flavonols. Ces résultats devraient conduire à développer des méthodes de dosage pour identifier les échantillons de sainfoin, et plus généralement de légumineuses riches en tannins, dotés de propriétés anthelminthiques significatives. / Gastrointestinal nematodes remain a major constraint on the health, welfare and production of small ruminants. Over the past decades, the usual mode of control of this parasitism has mainly relied on the repeated use of chemical anthelmintics. However these treatments are nowadaysfacing some limits among which the most important is the development and widespread diffusion of resistance to these chemical molecules within worm populations. Consequently, the need to find complementary or alternative solutions is becoming urgent. The possible exploitation of forage legumes, rich in condensed tannins, with anthelmintic properties, by incorporation in the diet of sheep or goats, seems a promising option to reduce the reliance on chemical molecules. However, one of the main difficulties to use these plants as nutraceuticals relates to the variations in results. By using sainfoin (Onobrychis viciifoliae) as a model of tannin-containing legume and based on in vitro methods on the infective third stage larvae, the main objectives of this PhD were i) to examine the influence of environmental, genetic (40 different varieties) and technological (mode of preservation) factors on the anthelmintic properties of sainfoin and ii) to analyse whether differences in phenolic compounds might explain the variations. Whatever the factor considered, a high variability in results was observed. The main variations due to the environmental factors depended on the year and the cycle of cutting, as well as on the site of cultivation. Among the 38 varieties tested, only 9 have shown AH activity over 50 %. Last, a higher antiparasitic activity was found in the dried or ensiled forms compared to the fresh samples. A comparison of the biochemical profiles associated with these variations indicated a role of proanthocyanidins plus other phenolic compounds in the anthelmintic properties. The dose-response relationship between the AH activity and the ability to form complex with proteins was defined. The role of condensed tannins was confirmed, particularly those with a low degree of polymerization. The respective importance of prodelphinidins vs procyanidins remains to be further investigated. Moreover, the possible role of other flavonoids, in particular of flavan-3-ols and flavonols was also confirmed. The difference in activity between dried or ensiled forms compared to fresh sainfoin samples was partly explained by the presence of flavonol aglycosides. These results should favour the development of measurements in order to identify sainfoin samples with higher anthelmintic properties.
27

Developmental Contributions to Variation in Aspen Clones and the Influence of Pre-Fire Succession Status on Aspen Regeneration Success

Smith, Eric A. 09 July 2010 (has links) (PDF)
This thesis includes two studies: The first examined developmental changes that take place in the physiology of aspen (Populus tremuloides Michx.) and to characterize developmental influences on patterns of phenotypic trait variation among different aged ramets within the aspen clones. We surveyed eight clones, each with 8 distinct age classes ranging from 1 to 170 yrs in age. Using regression analysis we examined the relationships between ramet age and expression of functional phenotypes. Eight of the phenotypic traits demonstrated a non-linear relationship in which large changes in phenotype occurred in the early stages of ramet development and stabilized thereafter. Water and nutrient concentration, leaf gas exchange and phenolic glycosides tended to decrease from early to late development, while sucrose and condensed tannin concentrations and water use efficiency increased with ramet age. We hypothesize that ontogenetically derived phenotypic variation leads to fitness differentials among different aged ramets, which may have important implications for clone fitness. Age-related increases in phenotypic diversity may partially underlie aspen's ability as a species to tolerate the large environmental gradients that span its broad geographical range. Fire is an essential component of many forest ecosystems and fire exclusion policies and other anthropogenic factors have significantly altered disturbance regimes, which has lead to increased aspen succession to conifers. The second study examined how post-fire aspen regeneration success is influenced by increasing conifer abundance under longer fire return intervals. 66 sites were selected from the Sanford prescribed fire complex located in the Dixie National Forest. Slope, aspect, sucker regeneration heights, soil samples, and post and prefire stand densities were measured. Results from this study demonstrated that pre-disturbance conifer abundance and aspen densities are good predictors of aspen sucker regeneration success. Results also found that although conifer densities don't change across aspects, aspen densities are different on north facing slopes. We hypothesize the high levels of aspen regeneration came from a large disturbance size which overwhelmed the high levels of herbivores.
28

Importance of tannins for responses of aspen to anthropogenic nitrogen enrichment

Bandau, Franziska January 2016 (has links)
Boreal forests are often strongly nitrogen (N) limited. However, human activities are leading to increased N inputs into these ecosystems, through atmospheric N deposition and forest fertilization. N input into boreal forests can promote net primary productivity, increase herbivore and pathogen damage, and shift plant species composition and community structure. Genetic diversity has been suggested as a key mechanism to promote a plant species’ stability within communities in response to environmental change. Within any plant population, specific traits (e.g. growth and defense traits) can vary substantially among individuals, and a greater variation in traits may increase chances for the persistence of at least some individuals of a population, when environmental conditions change. One aspect of plant chemistry that can greatly vary among different genotypes (GTs) are condensed tannin (CTs). These secondary metabolites have been suggested to affect plant performance in many ways, e.g. through influencing plant growth, the interactions of plants with herbivores and pathogens, and through affecting litter decomposition, and hence the return of nutrients to plants. To investigate how genotypic variation in foliar CT production may mediate the effects that anthropogenic N enrichment can have on plant performance and litter decomposition, I performed a series of experiments. For these experiments, aspen (Populus tremula) GTs with contrasting abilities to produce foliar CTs (i.e. low- vs. high-tannin producers) were grown under 3 N conditions, representing ambient N (+0 kg ha-1), upper level atmospheric N deposition (+15 kg ha-1), and forest fertilization rates (+150 kg ha-1). This general experimental set-up was once established in a field-like environment, from which natural enemies were excluded, and once in a field, in which enemies were present. In my first two studies, I investigated tissue chemistry and plant performance in both environments. I observed that foliar CT levels decreased in response to N in the enemy‑free environment (study I), but increased with added N when enemies were present (study II). These opposing responses to N may be explained by differences in soil N availability in the two environments, or by induction of CTs after enemy attack. Enemy damage generally increased in response to N, and was higher in low-tannin than in high-tannin plants across all N levels. Plant growth of high‑tannin plants was restricted under ambient and low N conditions, probably due to a trade-off between growth and defense. This growth constraint for high‑tannin plants was weakened, when high amounts of N were added (study I and II), and when enemy levels were sufficiently high, so that benefits gained through defense could outweigh the costs of defense production (study II). Despite those general responses of low- and high‑tannin producers to added N, I also observed a number of individual responses of GTs to N addition, which in some case were not connected to the intrinsic ability of the GTs to produce foliar CTs. In study III, gene expression levels in young leaves and phenolic pools of the plants that were grown in the enemy‑free environment were studied. This study revealed that gene control over the regulation of the phenylpropanoid pathway (PPP) was distributed across the entire pathway. Moreover, PPP gene expression was higher in high-tannin GTs than in low‑tannin GTs, particularly under ambient N. At the low N level, gene expressions declined for both low- and high-tannin producers, whereas at the high N level expression at the beginning and the end of the PPP was upregulated and difference between tannin groups disappeared. Furthermore, this study showed that phenolic pools were frequently uncorrelated, and that phenolic pools were only to some extent related to tannin production and gene expression. In study IV, I investigated the decomposability of litter from the field plants. I found that N enrichment generally decreased mass loss, but there was substantial genetic variation in decomposition rates, and GTs were differentially responsive to added N. Study IV further showed that CTs only had a weak effect on decomposition, and other traits, such as specific leaf area and the lignin:N ratio, could better explain genotypic difference in mass loss. Furthermore, N addition caused a shift in which traits most strongly influenced decomposition rates. Collectively, the result of these studies highlight the importance of genetic diversity to promote the stability of species in environments that experience anthropogenic change. / Boreala skogar är ofta mycket kväve (N) begränsade. Men mänskliga aktiviteter leder till ökad N tillförsel i dessa ekosystem, både genom depostition av N från atmosfären och skogsgödsling. N-tillförsel i boreala skogar kan främja netto primärproduktionen men även leda till ökade skador från naturliga fiender (herbivorer och patogener) samt skiftningar i växtartsammansättning. Genetisk mångfald har föreslagits som en viktig mekanism för att främja en växtarts stabilitet inom samhällen som upplever miljöförändringar. Inom varje växtpopulation kan specifika egenskaper (t.ex. tillväxt och försvar) varierar kraftigt mellan individer och en större variation i egenskaper kan öka chanserna för att åtminstone några individer från en population överlever ifall miljöförhållandena förändras. En aspekt av växtkemi som i hög grad kan variera mellan olika genotyper (GT) är bladens kondenserade tanniner (KT). Dessa sekundära metaboliter har föreslagits påverka växtens prestationsförmåga på många sätt, t.ex. genom att påverka tillväxt, interaktioner mellan växter och herbivorer eller patogener och genom att påverka förna nedbrytning, och följaktligen återbördandet av näringsämnen till kretsloppet. För att undersöka hur genotypiska variation i KT produktion kan påverka de effekter som antopogent N kan ha på växtens prestationsförmåga och förna nedbrytning, utförde jag en serie experiment. Jag studerade olika asp (Populus tremula) GT med olika förmåga att producera KT (låg- och hög-tannin producenter). Växterna odlades i tre olika N förhållanden, som representerade ambient N nivå (+0 kg ha-1), atmosfärisk N deposition = låg nivå (+15 kg ha-1), och skogsgödsling = hög nivå (150 kg ha‑1). Dessa GT etablerades i en fält-liknande miljö där naturliga fiender uteslutits och i ett fält där naturliga fiender var närvarande. I mina första två studierna undersökte jag vävnadskemi och växternas prestationsförmåga i de båda miljöerna. Jag observerade att KT nivåerna sjönk till följd av N‑tillsats i den fiende-fria miljön (studie I), men ökade med N-tillsats ifall fiender var närvarande (studie II). Dessa motsatta reaktioner på N-tillsats kan förklaras av skillnader i N-tillgång mellan de två odlingsplatserna eller genom ökad KT produktion som respons på angrepp. Skador orsakade av herbivorer och patogener ökade generellt till följd av N‑tillsats och var högre i låg-tannin än i hög‑tannin producerande GT oavsett N‑förhållande. Tillväxten hos växter från hög‑tannin GT begränsades i ambient- och låg N-tillsats förhållanden, troligen på grund av att avvägning mellan tillväxt och försvar förskjutits emot försvar. Den begränsade tillväxten i hög-tannin växter minskade om stora mängder N tillsattes (studie I och II) och om antalet fiender var tillräckligt högt så att nyttan av försvaret kunde uppväga kostnaderna för försvarsproduktionen (studie II). Trots dessa generella respons hos låg- och hög-tannin GT till följd av N‑tillsats observerade jag även ett antal individuella respons hos GT som i vissa fall var orelaterade till växters förmåga att producera KT. I studie III undersöktes genuttrycksnivåer och fenolinnehåll i blad från växter som odladats i en miljö där naturliga fiender exkluderats. Denna studie visade att fenylpropanoidsyntesvägen (FPV) regleras genom kontroll av många av de undersökta FPV-generna. Dessutom var FPV genuttryck högre i hög-tannin GT än i låg-tannin GT, särskilt vid ambient N. Vid låg N-tillsats minskade genuttrycket av FPV-gener i både låg- och hög-tannin producenter, medan hög N-tillgång ledde till att gener i början och slutet av FPV uppreglerades och till att skillnaderna mellan tannin grupperna försvann. Dessutom visade studien att de separata fenol-poolerna ofta var okorrelerade med varandra och att fenol-poolerna bara till viss del var korrelerade med KT produktion och FPV-genutryck. I studie IV undersökte jag nedbrytningshastigheten för förnan från fältodlade aspar. Jag upptäckte att N-tillsats generellt minskade viktförlusten men att det fanns en betydande genetisk variation mellan GT och att dessa även var olika mottagliga för tillsatt N. Studie IV visade vidare att KT endast hade en svag effekt på nedbrytning och att andra egenskaper såsom specifik bladyta och lignin:N ratio kunde bättre förklara den genotypiska skillnaden i viktförlust. Dessutom orsakade N‑tillsats en förskjutning av vilka egenskaper som mest påverkade förnans nedbrytningshastighet. Sammanfattningsvis visar mina studier på vikten av genetisk mångfald för att främja växtartens stabilitet i miljöer som upplever antropogena förändringar.
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Etude de l’extraction de tanins d’écorce de pin maritime pour l’élaboration de colles tanin-lignosulfonate / Study of maritime pine bark extraction for the preparation of tannin-lignosulfonate adhesives

Chupin, Lucie 07 November 2014 (has links)
Cette étude a deux objectifs principaux : l’extraction de tanins condensés d’écorces de pin maritime et la formulation de colles tanin-lignosulfonate. Deux méthodes d’extraction ont été étudiées. La première est une extraction à l’eau chaude ; c’est une technique simple, peu coûteuse, sans solvant. La deuxième est une extraction assistée par micro-ondes ; c’est une technique innovante, rapide et peu consommatrice en solvant. L’optimisation des conditions d’extraction à l’eau chaude a été réalisée. Les extraits ont été caractérisés par des dosages colorimétriques, leur réactivité au formaldéhyde, par infrarouge à transformée de Fourier (IRTF), par chromatographie en phase liquide à haute pression, par 1H RMN et 2D HSQC RMN. L’impact de la granulométrie sur l’extraction de polyphénols et particulièrement de tanins condensés par extraction assistée par micro-ondes a été étudié pour la première fois. Les deux types d’extraction ont été comparés. L’extraction assistée par micro-ondes a un rendement en extractibles inférieur à l’extraction à l’eau chaude. Mais elle extrait plus de tanins condensés, de flavonoïdes simples et plus de sucres. Quelle que soit la méthode d’extraction, les tanins condensés majoriatires extraits de l’écorce de pin maritime sont de la catéchine, de l’épicatéchine, de l’épicatéchine gallate et de l’épigallocatéchine. Des colles tanin-lignosulfonate ont été produites en utilisant l’héxaméthylènetetramine comme durcisseur. Dans un premier temps, des tanins de mimosa ont été utilisés avec des lignosulfonates de sodium et des lignosulfonates d’ammonium. Les lignosulfonates ont subi deux traitements au glyoxal qui ont été comparés par analyse thermogravimétrique (ATG), par calorimétrie différentielle à balayage (DSC), par les propriétés thermiques et mécaniques de colles et de panneaux de particules avec des lignosulfonates ayant subi les deux traitements ont également été étudiées. L’optimisation du ratio tanin de mimosa-lignosulfonate glyoxalé a été menée et les propriétés thermiques des colles mesurées. L’optimisation des conditions de pressage de panneaux de particules a été réalisée. Des panneaux de particules avec de bonnes performances mécaniques ont été fabriqués. Des colles à base de tanins d’écorce de pin maritime et de lignosulfonates ont été réalisées avec 40% de tanins et 60% de lignosulfonates. Ces colles ont été caractérisées par IRTF, analyse thermomécanique, ATG et DSC. Ces colles sont rentrées dans la fabrication de panneaux de particules. Les émissions de formaldéhyde et la cohésion interne des panneaux ont été mesurées et comparées à des panneaux encollés avec une colle tanin de mimosa-lignosulfonate et une résine urée-formaldéhyde. Grâce à ces résultats, il a été possible de montrer que les panneaux de particules fabriqués à partir de colles bio-sourcées n’émettaient pas de formaldéhyde. / This study has two main objectives: the extraction of condensed tannins from maritime pine bark and the preparation of tannin-lignosulfonate adhesives. Two extraction methods were studied. The first is hot water extraction which is a simple, cheap method without the use of an organic solvent. The second is microwave-assisted extraction which is a fast, innovative method using only a small amount of solvent. Optimum extraction conditions were determined for hot water extraction. The extracts were characterised by their reaction to formaldehyde and by using colorimetric tests, Fourier Transformed Infrared spectroscopy (FTIR), high pressure liquid chromatography, 1H NMR and heteronuclear single quantum correlation 2D NMR.. The two types of extraction were compared. It was found that microwave-assisted extraction produced a lower yield of extractibles than the hot water method but that it produced more condensed tannins, simple flavonoids and sugars. The condensed tannins extracted from maritime pine bark are catechin, epicatechin, epicatechin gallate and epigallocatechin, whatever the extraction method used. Tannin-lignosulfonate adhesives were produced using hexamethylenetetramine as a hardener. First, mimosa tannins were used with sodium lignosulfonates and ammonium lignosulfonates. The lignosulfonates underwent two glyoxal treatments which were compared using thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), and by determining the thermal and mechanical properties of the adhesives and of the particle boards made using the lignosulfonates resulting from the two treatments. The optimum mimosa tannin-glyoxalated lignosulfonate ratio was determined and the thermal properties of the adhesives were measured. The optimum conditions of pressing the particle boards were determined. Particle boards which recorded a good mechanical performance were produced. Adhesives using maritime pine bark tannins and lignosulfonates were prepared with 40% tannins and 60% lignosulfonates. These adhesives were characterised using FTIR, thermomechanical analysis, TGA and DSC. These adhesives were used to produce particle boards. The emission of formaldehyde and the internal bond of the boards were measured and compared to those of boards made with a mimosa tannin-lignosulfonate adhesive and to those of boards made with a urea-formaldehyde resin. Thanks to these results, we were able to produce particleboards with bio-based adhesives that didn’t emit formaldehyde.
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Effects of nutrient-tannin interactions on intake and germination of woody plant species by ruminants

Monegi, Piet 07 1900 (has links)
Woody plant encroachment is one of the major problems worldwide because it affects negatively the herbaceous layer, which provide forage for livestock production. However, the role of ruminants particularly browsers in the dispersal of woody plant seeds still remains a concern for farmers interested in grass production. Seedpods of various woody plant species constitute a crucial part of the diet of herbivores during the dry season because of their high nutritional quality compared to herbaceous material. The interaction of associated diet quality, seed characteristics and animal species among other factors play a pivotal part in the success of livestock faecal seeds dispersion. Furthermore, dispersed seeds that successfully grow into mature woody plants become an important source of protein for herbivores. The use of woody plants as a source forage is known to be limited by plant secondary metabolites (PSMs) such as condensed tannins. The objectives of this study were to determine 1) the effects of condensed tannins and crude protein of Vachellia tortilis and Dichrostachys cinerea pods in seed recovery and germination fed to goats, and 2) the effects of diet mixing on the feed intake of plant species by goats. In the first experiment, a total of 12 female indigenous goats and 12 female Pedi sheep were utilised in this study, with the average body weights of 29.50 kg ± 1.60 (S.E) and 28.70 kg ± 1.60, respectively. Twelve goats were grouped into two groups of six goats per group, one group was fed D. cinerea pods and the other group was fed V. tortilis pods. The group of 12 sheep were divided similarly, the one group was fed D. cinerea pods and the other group was fed V. tortilis pods. Each animal was given V. tortilis and D. cinerea pods at 2.50% of their body weight. All animals were allowed to consume D. cinerea or V. tortilis pods within 24 h, after which the remaining pods were collected and weighed. Faecal collection commenced immediately after the 24 h pods feeding and was carried on until no seeds were discovered in faeces. All faeces extracted from sheep and goats were collected daily in the morning from the faecal bags. In the second experiment, a total of 24 indigenous goats with average body weight of 26.6 kg ± 0.51 were utilised. Goats were arbitrarily selected and grouped into four groups of six goats per group (goats were placed individually in 2 m2 pens). Each group was fed one of the following diets: diet one - Searsia lancea, diet two - S. pyroides, diet three - Euclea crispa and diet four - was a combination of the three plant species (Searsia lancea, S. pyroides and Euclea crispa). Searsia lancea, S. pyroides and E. crispa branches were collected every morning prior to feeding, and were weighed before offering the animals. Refusals were gathered and weighed, and intake was calculated as distinction between weight in and refusals. Plant species foliage were analysed for crude protein, condensed tannin, acid detergent lignin, acid detergent fibre and neutral detergent fibre. During the first experiment, the cumulative percentage seed recovery of V. tortilis from goats (46.00 % ± 1.90) and sheep (52.00 % ± 2.93) was significantly higher than D. cinerea from goats (13 % ± 1.47) and sheep (24.00 % ± 1.16). Germination percentage of D. cinerea seeds that passed through the gastro-intestinal tract of goats (33.12 % ± 2.94) and sheep (36.00 % ± 2.68) was significantly higher than V. tortilis seeds that passed through the gastro-intestinal tract of goats (28.98 % ± 2.68) and sheep (23.04 % ± 2.81). Average D. cinerea (34.56 % ± 1.99) and V. tortilis (26.02 %± 2.10) seeds that went through the gastro-intestinal of goats and sheep had a significantly higher germination rate than the control (i.e. no passage through the gut; D. cinerea = 2.31 % ± 1.55, V. tortilis = 5.07 % ± 2.68). The high mean cumulative percentage seed recovery of V. tortilis (18.80 %) may be attributed to the relatively higher crude protein than D. cinerea (12.20 %). This may encourage animal seed dispersal and germination of woody plant species with relatively high crude protein content. In the second experiment, Searsia lancea contained 8.50 % CP, 21.46 % acid detergent fibre (ADF), 12.50 % ADL and 39.37 % NDF. Searsia pyroides had 9.03 % CP, 27.07 % ADF, 10.89 % ADL and 40.30 % NDF. Euclea crispa had 6.19 % CP, 26.20 % ADF, 16.63 % ADL and 30.02 % NDF. Mixed diet (combination of the three plant species) had 8.96 % CP, 23.72 % ADF, 11.13 % ADL and 38.28 % NDF. Searsia lancea had 2.70 % of CTs while S. pyroides had 5.20 % CT, E. crispa had 6.44 % CT and mixed diet had 7.20 % CT. The mean dry matter intake varied significantly among dietary groups (P < 0.001). Similarly, goats offered a mixed diet consumed more CTs (P < 0.01) than those offered individual forage species. The high mean cumulative percentage seed recovery of V. tortilis may be attributed to the higher crude protein of V. tortilis (18.80 %) than D. cinerea (12.20 %). Higher passage rate may encourage animal seed dispersal and germination of plant species. The results from experiment two support the postulation that animals foraging in mixed diet systems consume more PSMs and achieve higher dry matter intake than animals confined to monocultures or single species feeding systems. Given that woody plant encroachment is already reducing farm-grazing capacities in African savannas and this problem is predicted to double by 2050, strategies that improve herbivore ability to consume woody plants will increase forage availability and inform bush control programmes and policies. Moreover, the concomitant increase in CTs by goats exposed to diets with diverse species also has positive implications for animal / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)

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