Contributo para a caracterização das raças serpentinas e charnequeira

Esta dissertação retoma um estudo com 49 cabras e 45 cabritos da raça Serpentina, 24 cabras e 28 cabritos da raça Charnequeira, exploradas em regime extensivo. Pretende ser um contributo para a caracterização destas raças. Com este objectivo calculou-se a fertilidade que foi de 92% nas duas raças e a prolificidade foi de 160% (62,5% partos duplos) na Serpentina e de 141% (57,1% partos duplos) na Charnequeira. A mortalidade dos cabritos, do nascimento até ao desmame, foi de 15,7%, na Serpentina e de 6,6%, na Chamequeira. Os pesos das cobrições ao parto, na Serpentina aumentaram 17% e 13,6% na Chamequeira, apresentando variações significativas na raça, mas não entre raças. Os cabritos de partos simples obtiveram maiores ganhos médios diários do nascimento ao desmame. Não houve variações significativas nos pesos entre machos e fêmeas. Analisaram-se 24 carcaças de cabritos, machos inteiros. O Rendimento Corrigido foi de 52% para as duas e a relação Músculo/Osso de 2,13 (Charnequeira) e 2,12 (Serpentina). O Índice Compacidade para a Charnequeira foi de 11,78 e 11,29 para a Serpentina, evidenciando esta melhor conformação. Definiram-se os seguintes cortes nas carcaças: I-Pá; II-Perna; III- Costela+Sela; IV-Aba; V-Pescoço. Analisou-se o músculo quanto à gordura, proteína, cálcio e fósforo. ABSTRACT: This dissertation retrieves a study involving 49 goats and 45 kids of Serpentina breed, 24 goats and 28 kids of Chamequeira breed exploited in an extensive management. It is intended as a contribution to the characterization of these breeds. To this end, various reproductive parameters were calculated. The fertility stood at 92% in both breeds and the prolificacy in the breed Serpentina was 160% (62.5% in twin births) and in the breed of Chamequeira was 141% (57.1% in twin births). We noted a mortality rate in kids from birth to weaning higher in the Serpentina breed (15.7%), while the Chamequeira breed recorded 6.6%. The evolution of the weights during the mating period to childbirth, increasing 17% in the Serpentina breed and 13.6% in Chamequeira breed. We noted significant variations in each breed, but not between each other. The kids resulting of simple birth had higher average daily weight gain from birth to weaning. We did not note significant variations of weight between males and females. We analysed the carcasses of 24 male kids. The corrected yield was 52% for both breeds and the muscle-bone ratio was 2,13 (Chamequeira) and 2,12 (Serpentina). The compactness index for the Chamequeira breed was 11.78 and 11.29 for the Serpentina breed, showing Serpentina breed had better conformation. We proposed the following cuts in the carcass: I-Shovel, II Leg, III- Rib +Sela, IV-Aba and V-Neck. We also analysed the muscle according to their fat, protein, calcium and phosphorus, aiming to show the dietary interest of this muscle.

Improving multivariate data streams clustering.

Clustering data streams is an important task in data mining research. Recently, some algorithms have been proposed to cluster data streams as a whole, but just few of them deal with multivariate data streams. Even so, these algorithms merely aggregate the attributes without touching upon the correlation among them. In order to overcome this issue, we propose a new framework to cluster multivariate data streams based on their evolving behavior over time, exploring the correlations among their attributes by computing the fractal dimension. Experimental results with climate data streams show that the clusters' quality and compactness can be improved compared to the competing method, leading to the thoughtfulness that attributes correlations cannot be put aside. In fact, the clusters' compactness are 7 to 25 times better using our method. Our framework also proves to be an useful tool to assist meteorologists in understanding the climate behavior along a period of time.

Effects and Modes od Action of Canopy Management Practices on Vine Physiology and Berry Composition in Organically-Cultivated cv. Sangiovese (Vitis Vinifera L.)

In organic and biodynamic vineyards, canopy management practices should be carefully and timely modulated, particularly in a context of climate change, for successfully achieving balanced plants, ventilated and exposed berries, elevated grape and wine quality. In 2013 and 2014, characterized by contrasting climatic conditions, the implications of post-veraison (late) or pea-size trimming, post-veraison or pre-harvest late defoliations and shoot-positioning (post-veraison) were assessed against long-shoots non treated controls, under field conditions on organically-cultivated cv. Sangiovese. The key agronomic and enological relevance of late trimming and defoliations clearly emerged in both seasons. Berry skin phenolics (e.g. anthocyanins, flavonols) increased markedly, without changes in technological parameters. In case of early trimming, such positive effects were observed only in 2013. Maintaining long shoots for shading decreased anthocyanins, flavonols and total phenolics concentrations and promoted the production of compact bunches. Experimental data strongly designated late trimming, a practice proved to contain yield and bunch compactness, as a valuable alternative to cluster thinning. Late trimming, defoliations and shoot positioning reduced the severity of Botrytis cluster rot. The highest levels of berry skins phenolic compounds in late trimmed and defoliated plants could have contributed control the severity of this pathogen. The enological benefits induced by late trimming and defoliations and shoot positioning emerged in both young and aged wines. For the first time, cell cultures from cv. Sangiovese berry tissues were obtained and enabled to investigate, in controlled conditions, the relations between mechanisms regulating secondary metabolism in grapevine cells and changes induced by environmental and agronomic factors. The Doctoral Dissertation strongly highlights the need to consider, for a proper interpretation of the multiple modifications induced by canopy management strategies, physiological mechanisms other than the canonic source-sink relationships, in particular their impact on the vine hormonal status.

Geometrico-static modelling of continuum parallel robots

In this thesis, we explore three methods for the geometrico-static modelling of continuum parallel robots. Inspired by biological trunks, tentacles and snakes, continuum robot designs can reach confined spaces, manipulate objects in complex environments and conform to curvilinear paths in space. In addition, parallel continuum manipulators have the potential to inherit some of the compactness and compliance of continuum robots while retaining some of the precision, stability and strength of rigid-links parallel robots. Subsequently, the foundation of our work is performed on slender beam by applying the Cosserat rod theory, appropriate to model continuum robots. After that, three different approaches are developed on a case study of a planar parallel continuum robot constituted of two connected flexible links. We solve the forward and inverse geometrico-static problem namely by using (a) shooting methods to obtain a numerical solution, (b) an elliptic method to find a quasi-analytical solution, and (c) the Corde model to perform further model analysis. The performances of each of the studied methods are evaluated and their limits are highlighted. This thesis is divided as follows. Chapter one gives the introduction on the field of the continuum robotics and introduce the parallel continuum robots that is studied in this work. Chapter two describe the geometrico-static problem and gives the mathematical description of this problem. Chapter three explains the numerical approach with the shooting method and chapter four introduce the quasi-analytical solution. Then, Chapter five introduce the analytic method inspired by the Corde model and chapter six gives the conclusions of this work.

Incompressible limit and well-posedness of PDE models of tissue growth

Both compressible and incompressible porous medium models are used in the literature to describe the mechanical aspects of living tissues. Using a stiff pressure law, it is possible to build a link between these two different representations. In the incompressible limit, compressible models generate free boundary problems where saturation holds in the moving domain. Our work aims at investigating the stiff pressure limit of reaction-advection-porous medium equations motivated by tumor development. Our first study concerns the analysis and numerical simulation of a model including the effect of nutrients. A coupled system of equations describes the cell density and the nutrient concentration and the derivation of the pressure equation in the stiff limit was an open problem for which the strong compactness of the pressure gradient is needed. To establish it, we use two new ideas: an L3-version of the celebrated Aronson-Bénilan estimate, and a sharp uniform L4-bound on the pressure gradient. We further investigate the sharpness of this bound through a finite difference upwind scheme, which we prove to be stable and asymptotic preserving. Our second study is centered around porous medium equations including convective effects. We are able to extend the techniques developed for the nutrient case, hence finding the complementarity relation on the limit pressure. Moreover, we provide an estimate of the convergence rate at the incompressible limit. Finally, we study a multi-species system. In particular, we account for phenotypic heterogeneity, including a structured variable into the problem. In this case, a cross-(degenerate)-diffusion system describes the evolution of the phenotypic distributions. Adapting methods recently developed in the context of two-species systems, we prove existence of weak solutions and we pass to the incompressible limit. Furthermore, we prove new regularity results on the total pressure, which is related to the total density by a power law of state.