Reorganização estrutural e metabólica do intestino associada ao jejum e dormência sazonal em lagartos teiú Tupinambis merianae / Structural and metabolic reorganization of the gut during the fasting and seasonal dormancy in tegu lizards Tupinambis merianae

Nascimento, Lucas Francisco Ribeiro do

30 July 2009

A plasticidade fenotípica do intestino está presente em diferentes grupos de vertebrados e permite ajustes de caráter antecipatório ou de curto prazo na capacidade funcional do intestino frente a flutuações previsíveis e não previsíveis na disponibilidade de alimento no ambiente. No presente trabalho, avaliamos as alterações sazonais na morfologia e na capacidade de oxidação de substratos energéticos no intestino médio de lagartos teiú Tupinambis merianae. A resposta ao jejum associado à depressão metabólica na dormência de inverno foi contrastada com as alterações após 20 dias de jejum na fase ativa. Grupos de animais jovens foram mortos em diferentes fases do primeiro ciclo anual e o intestino médio foi removido e pesado. Amostras do terço proximal do órgão foram transferidas para frascos contendo formaldeído tamponado e o restante do tecido foi picotado e amostras aleatórias foram congeladas em N2 líquido e transferidas para freezer -80 oC. Variáveis morfológicas foram analisadas em cortes histológicos de 5 μm de espessura utilizando-se o método estereológico. O teor de água e o de proteína solúvel e total foi medido nas amostras por meio de ensaios padrão; as atividades máximas de enzimas foram medidas por espectrofotometria em condições saturantes de substrato e cofatores. No outono, a massa relativa do intestino é 1,04% e diminui 23% durante a dormência, junto a uma redução na densidade de volume da mucosa e de superfície do epitélio, da altura máxima dos vilos e do conteúdo protéico total. O epitélio altera sua conformação estrutural, passando de colunar simples para pseudo-estratificado, sugerindo intensa atividade proliferativa. Após o despertar na primavera, há um aumento de mais de duas vezes da massa do intestino, com um aumento da densidade de superfície epitelial e, possivelmente, do comprimento e/ou diâmetro do órgão. Em animais submetidos ao jejum, a massa intestinal relativa diminui 49% em relação a animais alimentados, porém, a atrofia da mucosa é menos intensa e o epitélio é mais preservado, além de um aumento da espessura da túnica muscular. O tecido possui elevado potencial para o uso de diferentes substratos energéticos e o tipo preferencial seria regulado em função do estado nutricional e metabólico do animal. As enzimas glicolíticas HK, PK e LDH não variam ao longo do ciclo anual, assim como a transaminase AspAT. Por outro lado, a GDH, enzima da oxidação de aminoácidos, a HOAD, enzima da β- oxidação lipídica e a CS, indicadora da capacidade aeróbia mitocondrial estão fortemente inibidas na dormência, acompanhando a depressão metabólica no animal. Em animais submetidos ao jejum na primavera, todas as enzimas tiveram suas atividades reduzidas e, em consonância com os dados da morfologia do tecido, os ajustes na capacidade funcional do órgão aparentemente se dão de maneira diferente em relação ao jejum associado à dormência sazonal, em função do caráter previsível e da existência de uma fase antecipatória neste fenômeno. / The gut phenotypic plasticity is widely documented in the vertebrates and would allow to either short term or anticipatory adjustments in the organ functional capacity, to cope with unpredictable and periodic changes of food availability in the environment. This study investigates seasonal changes of morphology and in the capacity for substrate oxidation in the midgut of the tegu lizard Tupinambis merianae, associated with prolonged fasting and metabolic depression in winter months. In addition, the pattern of change was compared with the adjustments induced by 20 days of fasting in spring active animals. Groups of young lizards were killed in distinct phases during the first annual cycle and the midgut was quickly excised and weighted. Tissue samples were removed from the organ proximal third and preserved in fixative solution for histology. The remaining tissue was cut in small pieces and aliquots were frozen in liquid N2 and stored at -80oC for the assays. The morphological changes were analyzed in 5μm thick slices using stereological methods. The content of water and of total and soluble proteins were measured using standard assays, and maximum activities of metabolic enzymes were measured by espectrophotometry. The mid-gut mass is 1.04% of body mass in autumn activity and decreases 23% during winter dormancy, combined with a reduction of mucosal volume and surface densities, of villus maximal height and of total protein content. The epithelial cells change conformation from columnar to pseudo-stratified, suggesting intense proliferative activity during dormancy. Later in spring activity, the mid-gut mass increases to 1.64% combined with an increase of epithelial surface density and possibly of midgut lenght and/or diameter. Atrophy during fasting was higher in active lizards, 49% in relation to fed animals, the mucosal density however is more preserved than during dormancy and the muscle layer increases thickness. High levels of enzyme activities suggest a potential to obtain energy from different substrates and the regulatory mechanisms of fuel selection would act as a function of the physiological context. HK, PK and LDH, and AspAT, acting on pathways of glucose and amino-acid oxidation respectively, do not change during the annual cycle, whereas GDH and HOAD (amino-acid and fatty acid oxidation respectively), and CS (indicator of mitochondrial aerobic capacity) are strongly inhibited in dormant and arousing animals. Fasting during spring activity caused all enzymes to be inhibited and this effect, together with large tissue atrophy, suggest that in the short term fasting the regulatory mechanisms allow to save glucose for glucose-dependent tissues, besides contributing to energy spare at the whole body level.

Tupinambis merianae

Tupinambis merianae

Dormência sazonal

Fasting

Intestino

Jejum

Lagarto

Lizard

Midgut

Phenotypic plasticity

Plasticidade fenotípica

Seasonal dormancy

Efeitos do aquecimento global em populações do complexo de espécies Tropidurus torquatus (Squamata: Tropiduridae) no Brasil / The efects of global warming on populations of the species complex Tropidurus torquatus (Squamata:Tropiduridae) in Brazil

Piantoni, Carla

27 November 2015

Nos próximos 85, no Brasil, espera-se um aumento real de até 6°C na temperatura média do ar, além de uma queda de 5−20% nas taxas de precipitação. Neste sentido, o aquecimento do clima deve sobrepujar adaptações locais, e a sobrevivência dependerá da plasticidade fisiológica das espécies, além de sua capacidade de dispersão. Atualmente, a previsão das respostas ecológicas e fisiológicas dos os organismos a estas alterações compreende um dos principais desafios dos ecofisiologistas. Os lagartos são particularmente sensíveis ao aquecimento global, uma vez que alterações de temperatura podem alterar sua performance para níveis sub−ótimos, restringindo os períodos de atividade com impacto direto em sua história natural. Em lagartos de regiões com baixa variabilidade climática (próximas ao Equador), a baixa resiliência às alterações ambientais, associada a opções restritas de dispersão e habitats cuja temperatura do ar (Ta) seja superior aos seus ótimos termais, entre outros fatores, fazem destas populações as mais vulneráveis ao aquecimento. Neste estudo, foram realizadas análises espaciais e temporais no intuito de avaliar a vulnerabilidade de populações de lagartos do complexo Tropidurus torquatus no Cerrado brasileiro, e se a resiliência é influenciada pela magnitude da flexibilidade intrapopulacional de fisiologia termal e de performance. O estudo consta de três abordagens principais: (1) comparações de dados de temperatura corporal (Tb) e temperatura operativa (Te, temperaturas hipotéticas para termoconformadores); temperaturas corporais preferenciais (Tp média e amplitude dos valores de Tset), e índices quantitativos de regulação de temperatura e de qualidade do ambiente termal (db, de e E) de Tropidurus com dados de literatura para espécies dos gêneros Anolis, Liolaemus e Sceloporus, bem como de 60 populações pertencentes a 21 espécies de tropidurídeos dos domínios da Caatinga, Amazônia, Cerrado e Chaco, e outras regiões como a costa do Peru e as ilhas Galápagos; (2) análises dos padrões intra e interespecíficos de variabilidade das capacidades de performance para velocidade e resistência em populações de T. torquatus, T. oreadicus, T. etheridgei e T. catalanenis, e estimação do impacto de um aumento da Ta em 3°C sobre a performance e a atividade destes lagartos num cenário de aquecimento, e (3) examinar as variações temporais e geográficas de idade, taxas de crescimento, maturidade sexual e longevidade em espécimes de T. torquatus em duas regiões a distintas latitudes; a variação temporal foi estimada através do estudo de amostras coletadas em cada uma das regiões em épocas distintas (década de 1960 e 2012), enquanto as comparações geográficas foram feitas apenas com base nas amostras recentes destas regiões (2012). Os resultados confirmam as hipóteses sugerindo que o comportamento termorregulatório aumenta acompanhando os parâmetros de latitude e altitude e que os lagartos tropicais e de áreas situadas a baixas altitudes tendem a se comportar como termoconformadores. Estima-se que populações tropicais com pouco ou nenhum comportamento termorregulatório presentes em ambientes com restrições termais impostas por parâmetros altitudinais (de baixas ou elevadas altitudes) são os mais vulneráveis ao aquecimento do clima. Em contraste, as estepes e montanhãs da Patagônia, bem como outras áreas montanhosas, representam refúgios termais para populações de lagartos que serão progressivamente forçados a se deslocar para estes ambientes. Dentre os tropidurídeos, um padrão geral sugere que o comportamento termorregulatório ambiental diminui na direção do Equador, particularmente devido à menor variabilidade ambiental. Na maioria das linhagens, valores similares e mais elevados de Tb e Tp em relação a valores de Ta apontam para uma condição plesiomórfica, provavelmente relacionada à ocorrência em ambientes florestais. O comportamento termorregulatório limitado ou ausente, combinado com grandes proporções de Tb e Te acima dos ótimos termais aumentam os riscos de superaquecimento e limitam o tempo de atividade especialmente nas regiões central e setentrional do Cerrado. As curvas de performance demonstram que os intervalos termais de desempenho (B80’s) e as margens de segurança aumentaram com a variação de temperatura, mas diminuíram com a variação anual de precipitação. Os resultados das comparações entre os padrões de variação temporal e regional do crescimento das populações de T. torquatus sugerem que o aquecimento do clima afeta o crescimento dos indivíduos, que tendem a ser maiores em regiões de clima mais quente. O aumento nos valores de Ta das últimas décadas aceleraram as taxas de crescimento, anteciparam a maturação sexual e encurtaram a expectativa de vida nas duas regiões estudadas. Embora em curto prazo os efeitos do aumento nos valores de Ta possam parecer vantajosos no que tange o crescimento e a reprodução, é plausível estimar uma queda geral no desempenho de todas as populações a longo prazo. Devido às grandes proporções de valores de Te atualmente superando o limite superior de B80 e das preferenda termais de T. torquatus e T. etheridgei na região Central, à capacidade de dispersão restrita e à baixa variabilidade na biologia termal de T. torquatus nas matas quentes de galeria, espera-se que os maiores impactos devam se concentrar sobre as populações das regiões central e setentrional. / In Brazil, an increase in the mean air temperature (Ta) of up to 6°C and a trend of decreasing rainfall by 5−20% are expected within 85 years. Climate warming is expected to overrun local adaptation and survival will depend on the plasticity and dispersal options and abilities. Predicting how organisms will respond these changes is one of the most critical challenges for contemporary ecophysiologists. Lizards are particularly sensitive to global warming, as temperature changes could shift overall performance to suboptimal levels, restricting time for activity. The low resilience to environmental changes of lineages from regions of low climatic variability (close to the Equator) combined with low dispersal options and current habitats’ Ta that exceeds their thermal optima, among other factors, make these populations the most vulnerable to warming. We conducted spatial and temporal analyses to assess the vulnerability of populations of the Tropidurus torquatus species complex in the Brazilian Cerrado and whether resilience is influenced by the magnitude of flexibility in thermal physiology and performance that exists within populations using three different approaches: (1) we compare data on body (Tb) and operative temperatures (Te, “null temperatures” for nonregulating animals), preferred body temperatures (mean T/p and Tset Tet range), and quantitative indices of temperature regulation and quality of the thermal environment (b, d e and E) for Tropidurus with data from the literature for Anolis, Liolaemus, and Sceloporus, and for 60 populations of 21 species of tropidurids from the Caatingas, Amazonia, Cerrado, Chaco, and other regions as the coast of Peru and Galapagos Islands; (2) We analyze patterns of variability in the performance capacities for velocity and endurance within and among populations of T. torquatus, T. oreadicus, T. etheridgei and T. catalanenis, and estimate the impact of a Ta increase by 3°C on performance and activity of these lizards in a warming scenario; and (3) we examine the geographic and temporal variation of individual age, growth rates, age at sexual maturity and longevity in specimens of T. torquatus at two sites at different latitudes; temporal variation was estimated studying subsamples at each site collected in 1960s and 2012, whereas the geographical comparisons were performed between the two subsamples collected in 2012 both at the two sites. Our results confirm the hypotheses by suggesting that thermoregulatory behavior increases with latitude and altitude and that tropical and lowland lizards behave as thermoconformers. We estimate that tropical populations with poor or no thermoregulatory behavior that inhabit stressful environments (open and low elevation sites) are the most vulnerable to rising temperatures. In contrast, Patagonia steppe and mountains as well as other montane environments represent future thermal refuges for lizards that would eventually be forced to retreat to these environments. Within tropidurids, a general pattern suggests that the thermoregulatory behavior decreases towards the Equator, particularly due to environmental constrains and probably to the low environmental variation. In most lineages, similar and higher Tb and Tp with respect to Ta point to a plesiomorphic condition, probably related to earlier forested environments. Constraint or no thermoregulation combined with the large proportions of Tb and Te above the thermal optima augment the risk of overheating and preclude time of activity particularly in the central and northernmost regions of the Cerrado. Based on the thermal performance curves, thermal breadths (B80’s) and safety margins increased with the thermal variation and decreased with the variation of annual precipitation. The results on the temporal variation and between sites differences on the growth patterns suggest that warming positively affect growth in T. torquatus. The increase of Ta of the last decades accelerated growth rates, anticipated sexual maturity and shortened the life−span at both sites. Although short-term effects of an increasing Ta’s may seem beneficial with respect to growth and reproduction, we predict an overall decay in the fitness response in all populations in the long term. Due to the large proportions of T e ’s currently exceeding the upper limit of the B 80 and thermal preferenda of T. torquatus and T. etheridgei at the Central site and the limited dispersal capacity and low variability on the thermal biology of T. torquatus in the warm gallery forest, the northernmost and Central populations are expected to experience the highest impact.

Crescimento

Desempenho locomotor

Geographic and temporal variation

Growth

Locomotor performance

Phenotypic plasticity

Plasticidade fenotípica

Termorregulação

Thermoregulation

Variação geográfica e temporal

Impacto da intensidade de pastejo na produtividade da soja em integração com bovinos de corte / Impact of grazing intensity on soybean yield integrated with beef cattle

Caetano, Luis Augusto Martins

January 2017

A intensidade de pastejo pode ser reconhecida como primordial na formação do potencial produtivo da lavoura em sistemas integrados de produção agropecuária (SIPA). Neste estudo, objetivamos entender como diferentes intensidades de pastejo definem a produtividade da soja em SIPA. O trabalho está inserido em um protocolo experimental de longa duração iniciado em 2001, no estado do Rio Grande do Sul, Brasil. Os tratamentos são definidos durante a fase pastagem, arranjados em um delineamento de blocos completamente casualizados com três repetições em diferentes intensidades de pastejo por novilhos em pasto misto de azevém anual e aveia: pastejo intenso (P10), pastejo moderado (P20), pastejo moderado-leve (P30), pastejo leve (P40) e ausência de pastejo (SP) e ausência de pastejo (SP). A soja foi semeada após a saída dos animais e os dados coletadas durante a safra 2015/16. A inserção do animal não afetou a produtividade da soja (P=0,0570). Análises de cluster e discriminante foram utilizadas no estudo da variação na produtividade. O cluster hierárquico agrupou valores de produtividade em três grupos, alta (CA), intermediária (CI) e baixa (CB), baseado em suas similaridades. Os atributos químicos não foram limitantes da produtividade. O residual da pastagem exerceu papel central na construção do potencial produtivo (P<0,001). A maior população de plantas foi encontrada no CB (P<0,001), com número inferior de legumes por área, frente aos demais cluster (P<0,001). A plasticidade fenotípica da soja explica a compensação pela modificação da arquitetura do estande de plantas nos clusters CA e CI, resultando na maior formação de legumes por planta (P<0,05). Pela análise de cluster observou-se que o P10 não apresenta valores de alta produtividade ao contrário do SP que não possui valores de produtividade baixa. Quase metade dos valores observado no P40 são mais produtividade enquanto, o P20 e P30 tendem a apresentar maior homogeneidade na distribuição entre os clusters. A análise discriminante definiu parâmetros que mais explicam a variação entre os clusters Através da função stepwise encontramos cinco variáveis (residual da pastagem, fósforo, altura final - R8, nós por ramos, legumes por área) que explicam a maioria da variação. O modelo para predizer a produtividade da soja, a partir das variáveis explicativas avaliadas a campo selecionadas pela análise discriminante, demostrou a acurácia na predição da produtividade espacial, em sistemas integrados de produção agropecuária com diferentes intensidades de pastejo, sob plantio direto na palha. / Grazing intensity can be considered essential to the potential productivity of crops in integrated crop-livestock systems (ICLS). In this study, we aimed to understand how differents grazing intensity defines the subsequent productivity of soybeans in ICLS. The work forms part of a long-term experimental protocol dating from 2001 in Rio Grande do Sul state, Brazil. Treatments were defined during the pasture phase, arranged in a completely randomized block design with three replicates under different grazing intensities by steers on Italian ryegrass and black oat mixed pastures: intense grazing (G10), moderate grazing (G20), moderate-light grazing (G30), light grazing (P40), and an ungrazed control (UG). Soybean was planted after exit of the animals and data were collected during the 2015/16 season. The integration of animals did not affect soybean productivity (P=0.0570). Cluster and discrimination analyses were used to study variation in productivity. The cluster hierarchy returned three groups of productivity values: high (HC), intermediate (IC), and low (LC), based on their similarities. Chemical attributes were not limiting to productivity. Pasture residue played a central role in the determination of potential productivity (P<0.001). The greatest plant population was found in the LC (P<0.001), while more pods per plant were found in the HC and IC (P<0.001). This result is explained by the phenotypic plasticity of soybean, which allows it to compensate for lower plant population by modifying plant stand architecture. The cluster analysis revealed that G10 did not present high productivity values, as opposed to UG, which did not contain low productivity values. Nearly half of the values observed in G40 were more productive, while G20 and G30 tended to produce greater homogeneity in the distribution among clusters. A discrimination analysis defined the parameters that explain the greatest part of the variation among clusters. Using a stepwise function, we found five variables (pasture residue, phosphorus, final plant height at R8, nodes per branch, and pods per area) that explained most of the variation. The model to predict soybean productivity, using the explanatory field variables selected by the discrimination analysis, demonstrated accuracy in the prediction of spatial productivity in ICLS with different grazing intensities under no-till.

Pastejo

Soja

Produtividade

Rendimento

Bovino de corte

Soybean yield

Grazing intensity

Yield component

Phenotypic plasticity

Cluster

Discrimination analysis

Life History of Millepora Hydrocorals : New Ecological and Evolutionary Perspectives from Population Genetic Approaches / Stratégies d’Histoire de Vie des Coraux Hydrozoaires Millepora : Nouvelles Perspectives Écologiques et Évolutives par des Approches de Génétique des Populations

Dubé, Caroline Eve

29 November 2016

Évaluer les stratégies d’histoire de vie d’espèces est indispensable à leur conservation. Un total de 3651 colonies de corail de feu, Millepora platyphylla, ont été mesurées, géoréférencées et collectées dans 5 habitats différents à Moorea afin d’évaluer le contexte biologique et écologique du maintien et du renouvellement des populations. Ce travail de thèse a démontré que la structure des populations diverge entre le lagon et la pente externe. À l’aide de marqueurs microsatellites nouvellement développés, nous avons démontré que cette espèce se reproduit principalement par fragmentation (80%) et que les fragments sont distribués en parfait alignement avec la dispersion des vagues. Les clones d’une même lignée clonale partagés entre habitats expriment différents phénotypes selon leur exposition aux vagues. Surprenamment, M. platyphylla affiche une morphologie vulnérable à la fragmentation dans les habitats exposés à la houle. L’analyse de parenté a révélé une forte contribution de l'autorecrutement (58%), une faible dispersion des propagules sexuées et une tendance à l’agrégation d’individus issus de mêmes parents. Enfin, nous avons démontré de la variabilité génétique intracoloniale, principalement due aux mutations somatiques (mosaïcisme), qui contribue ainsi à augmenter la diversité génétique dans la population. L’interaction de ces processus engendre une diversité génétique et phénotypique élevée dans la population et permet également le renouvellement local et la persistance de cette espèce à Moorea; habitat marginal. Ces stratégies d’histoire de vie augmentent ainsi le potentiel d’adaptation et la résilience de M. platyphylla face aux changements environnementaux. / Evaluating life history of species carries important implications for conservation biology. A total of 3651 colonies of the fire coral Millepora platyphylla was measured, georeferenced and collected in 5 different habitats in Moorea to evaluate the biological and ecological context of the population maintenance and renewal. This thesis has demonstrated that the population structure of this species varies greatly between lagoonal and fore reef habitats. Using newly developed microsatellite markers, we have shown that M. platyphylla relies heavily on clonal reproduction via fragmentation (80%) and that the fragments are distributed in perfect alignment with wave energy dispersal. Clonal lineages with clones shared among habitats revealed the ability of a single genotype to express different phenotypes depending on its exposure to swell wave energy. Surprisingly, M. platyphylla invests in a vulnerable morphology to wave-induced breakage in high energy reef habitats. Furthermore, parentage analysis revealed a high contribution from self-seeding (58%), limited dispersal of sexual propagules and sibling aggregations. At last, we have demonstrated intracolonial genotypic variability, mostly from somatic mutations (mosaicism), which creates novel genetic diversity within the population. The interaction of these processes generates a high level of genetic and phenotypic variation within the population and allows for local replenishment and the persistence of this fire coral species in Moorea, a marginal habitat. These life history strategies thus increase the adaptive potential and resilience of M. platyphylla in response to rapid and unpredictable environmental changes.

Millepora

Reproduction

Plasticité phénotypique

Dispersion

Diversité génétique

Potentiel d’adaptation

Millepora

Reproduction

Phenotypic plasticity

Dispersion

Genetic Diversity

Adaptive potential

Características morfogênicas e estruturais de amendoim forrageiro (Arachis pintoi krapovickas &amp; Gregory cv. Belmonte) submetido a intensidades de pastejo sob lotação contínua / Morphogenetic and structural characteristics of forage peanut (Arachis pintoi Krapovickas & Gregory cv.Belmonte) subjected to grazing intensities under continuous stocking

Fialho, Cleunice Auxiliadora

10 April 2015

A natureza e a magnitude das respostas morfogênicas em plantas forrageiras variam com a disponibilidade de fatores climáticos de crescimento e com as metas de manejo utilizadas, modificando as características estruturais do dossel forrageiro. Nesse cenário, intensidades de desfolhação determinam alterações de forma e função nas plantas forrageiras que, por sua vez, definem e caracterizam estratégias de crescimento e perenização e a resistência das plantas ao pastejo. O objetivo deste estudo foi descrever e caracterizar as respostas morfogênicas e as características morfológicas do amendoim forrageiro (Arachis pintoi cv. Belmonte) submetido a intensidades de pastejo sob lotação contínua de janeiro de 2013 a março de 2014. Os tratamentos corresponderam a quatro níveis de intensidade de pastejo (severo - S, moderado - M, leniente - L, e muito leniente - ML) representados pelas alturas de pasto de 5, 10, 15 e 20 cm, e foram alocados às unidades experimentais (piquetes de 210 m2) segundo um delineamento de blocos completos casualizados, com 4 repetições. Foram identificados dez estágios de desenvolvimento das folhas de amendoim forrageiro que foram utilizados como referência para a realização das avaliações das respostas morfogênicas. Os folíolos apresentaram simetria dentro dos pares, não havendo a necessidade de mensuração dos quatro folíolos, apenas de um dos folíolos de cada par. A relação relativamente estável entre comprimento e largura dos folíolos permitiu que a área foliar fosse calculada de forma direta desde que um fator de correção (0,71) para a forma elíptica dos folíolos fosse utilizado. Estratégias distintas de crescimento foram utilizadas pelo amendoim forrageiro ao longo do ano. Estas foram caracterizadas por uma relação inversa entre as variáveis indicadoras de tamanho das plantas (comprimento do estolão, comprimento médio entre nós, entre pontos de crescimento e de enraizamento) e aquelas indicadoras de número de indivíduos (densidade de estolões, de nós, de pontos de crescimento e de pontos de enraizamento), com as maiores diferenças registradas nos pastos submetidos aos tratamentos L e VL. De forma geral, o aumento nas variáveis indicadoras de tamanho esteve associado com a diminuição daquelas indicadoras de número de indivíduos. Essa relação parece descrever um processo de segmentação das plantas caracterizado pela formação de unidades menores e autônomas durante o outono que voltam a aumentar de tamanho durante a primavera e verão. Esse processo viabiliza a reprodução clonal das plantas e contribui para a persistência da espécie na área. Pastos submetidos aos tratamentos S e M apresentaram maior taxa de aparecimento de folhas, menor filocrono e menor tamanho final de folhas que pastos submetidos aos tratamentos L e ML. Esse padrão de crescimento resultou em valores relativamente estáveis de IAF para as intensidades de pastejo. O IAF dos pastos variou apenas com a época do ano, refletindo a estacionalidade natural de crescimento das plantas. O amendoim forrageiro apresenta elevada plasticidade fenotípica e capacidade de adaptação ao pastejo, mas é preciso evitar estresses que possam interromper o processo de segmentação durante o outono, uma vez que isso poderia interferir com a perenização das plantas e favorecer o início de processo de degradação da área. / The nature and the magnitude of morphogenetic responses of forage plants vary with the availability of climatic growth factors and with management targets, modifying sward structural characteristics. In this context, defoliation intensity determines changes in plant form and function, which, in turn, define and characterise growth and perennation mechanisms and plant resistance to grazing. The objective of this study was to describe and characterise morphogenetic responses and morphological characteristics of forage peanut (Arachis pintoi cv. Belmonte) subjected to grazing intensities under continuous stocking from January 2013 to March 2014. Treatments corresponded to four levels of grazing intensity (severe - S, moderate - M, lenient - L, and very lenient - VL) represented by the sward management heights of 5, 10, 15 and 20 cm, and were allocated to experimental units (210 m2 paddocks) according to a complete randomised block design with four replications. Ten stages of leaf development were identified and used as reference for evaluations of plant morphogenetic responses. Leaflets were symmetrical within pairs, indicating the possibility of measuring leaf expansion in just one leaflet of each pair. The relatively stable leaflet length:width ratio allowed direct calculations of leaf area since a correction factor (0.71) for the elliptical form of the leaflets was used. Forage peanut used different growth mechanisms throughout the year. These were characterised by an inverse relationship between plant size (stolon length, internode length, distance between growing points and between rooting points) and plant number (stolon density, node density, growing point density and rooting point density), with greater differences recorded on swards subjected to treatments L and VL. In general, the increase in plant size was associated with a reduction in plant number. This relationship seems to describe a plant segmentation process that results in small autonomous units during autumn, that increase again in size during spring and summer. This process ensures plant clonal reproduction and favours persistence. Swards subjected to treatments S and M showed higher rates if leaf appearance, smaller phyllochron and smaller leaves than swards subjected to treatments L and VL. This resulted in LAI values relatively stable across treatments. LAI values varied only with season of the year, reflecting the seasonality of plant growth. Forage peanut is highly phenotypically plasticand adaptated to grazing, but stresses may interrupt the segmentation process during autumn, and this may interfere with plant perennation and favour the beginning of a degradation process.

Estratégias de crescimento

growth strategies

Índice de área foliar

leaf area index

Morfogênese de plantas

phenotypic plasticity

Plant morphogenesis

Plasticidade fenotípica

Da teoria sintética da evolução à síntese estendida: o papel da plasticidade fenotípica / From the modern synthesis to the extended synthesis: the role of phenotypic plasticity

Santos, Cíntia Graziela

15 October 2015

O objetivo desta pesquisa histórica é inicialmente descrever um importante evento (A Síntese moderna) que ocorreu na biologia no período entre guerras. Os biólogos evolutivos chegaram a um acordo sob vários aspectos tais como: o gradualismo do processo evolutivo, o conceito de população e fatores ecológicos, dentre outros. Em segundo lugar, introduzir a chamada Síntese expandida analisando um de seus pressupostos a plasticidade fenotípica e seus antecedentes históricos. Procurará elucidar se algumas ideias relacionadas à plasticidade fenotípica já estavam presentes no início do século XX como alegam alguns autores. Além disso, se essas ideias estavam presentes em trabalhos publicados durante o período da Síntese. Esta tese compreende uma Introdução e seis capítulos. A Introdução apresenta o escopo, metodologia e objetivos da pesquisa. O Capítulo 1 apresenta a Síntese evolutiva e suas relações com a Síntese expandida, introduzindo a plasticidade fenotípica. O Capítulo 2 discute os antecedentes históricos da plasticidade fenotípica. O Capítulo 3 descreve alguns experimentos relacionados à plasticidade fenotípica realizados no início do século XX, focalizando as contribuições de Richard Woltereck. O Capítulo 4 analisa as pesquisas relacionadas ao assunto, desenvolvidas nas décadas de 1940 e 1950 por Ivan I. Schmalhausen e Conrad Waddington. O Capítulo 5 lida principalmente com as pesquisas voltadas à plasticidade fenotípica desenvolvidas na década de 1960 por Anthony D. Bradshaw. O Capítulo 6 esboça um panorama das pesquisas relacionadas ao assunto desenvolvidas após a década de 1960. O Capítulo 7 apresenta algumas considerações sobre o que foi discutido nesta tese. Esta pesquisa leva à conclusão de que algumas ideias que podem ser relacionadas à concepção de plasticidade fenotípica já estavam presentes no final do século XIX. A partir daí, houve mudanças em relação à sua abrangência e terminologia. Concepções relacionadas à plasticidade fenotípica também podem ser encontradas durante o período da Síntese em alguns autores como Schmalhausen, por exemplo. Talvez devido a razões de ordem política elas não foram propagadas. Além disso, é possível que não tenham sido compreendidas completamente pela comunidade científica da época. / The aim of this historical research is firstly to describe an important event (The Modern synthesis) that took place in biology in the inter-war-years. The evolutionary biologists reached agreement to several respects such as the gradualism of the evolutionary process, the concept of population and ecological factors, among others. Secondly, to introduce the so-called extended synthesis analyzing one of its features - the phenotypic plasticity - and its historical antecedents. It will try to elucidate whether some ideas that could be related to phenotypic plasticity were already present in the beginning of the 20th century as it was claimed by some authors. Besides that, whether such ideas were not present in the works published during the Synthesis period. This thesis comprises an Introduction and six chapters. The Introduction presents the scope of the research, the research method and the aim of the research. Chapter 1 presents the Evolutionary synthesis and its relationship with the Extended synthesis, introducing the phenotypic plasticity. Chapter 2 discusses the historical antecedents of the phenotypic plasticity. Chapter 3 describes some experiments related to phenotypic plasticity performed in the beginning of the 20th century, focusing Richard Woltereck contributions. Chapter 4 analyzes the researches related to the subject performed in the 1940s and 1950s by Ivan I. Schmalhausen and Conrad Waddington. Chapter 5 mainly focuses the inquiries related to phenotypic plasticity made by Anthony D. Bradshaw during the 1960s. Chapter 6 presents an outlook of the researches concerning the subject performed after 1960s. Chapter 7 presents the final remarks concerning the subject of this thesis. This research leads to the conclusion that some ideas that could be related to the conception of phenotypic plasticity were already present in the end of 19th century. From this time onwards there were been made changes mainly related to its scope and terminology. Conceptions related to phenotypic plasticity can also be found during the Synthesis period in some authors such as Schmalhausen. In this case, perhaps due to political reasons they were not propagated. Besides that, it is possibly that they were not completely understood by the scientific community of that time.

Extended synthesis

História da Evolução

História da Genética

History of Evolution

History of Genetics

Modern synthesis

Phenotypic plasticity.

Plasticidade fenotípica.

Síntese estendida

Síntese moderna

Genetic Variation in Long-Term and Short-Term Physiological Changes in Daphnia magna During Acclimation to High Temperature

coggins, bret l

01 May 2016

The aquatic zooplankton crustacean Daphnia magna must be able to tolerate thermal stress in order to survive their native shallow ponds that are susceptible to drastic seasonal and diurnal temperature fluctuations as well as to globally increasing temperatures. Survival in such variable environments requires plastic responses that must include fundamental aspects of Daphnia biochemistry and physiology. Adaptive response to selection favoring such plastic phenotypes requires the presence of genetic variation for plastic response in natural populations. Adverse effects of elevated temperature on aquatic organisms are diverse and so are their plastic responses; among the most severe challenges aquatic organisms face when exposed to heat is the elevated oxidative stress. In this work we focused on short-term and long-term responses of Daphnia to temperature changes that increase its resistance to oxidative stress. Daphnia acclimated to stressful but non-lethal temperature (28ºC) show longer survive during exposure to a lethal temperature (37ºC) than those acclimated to the optimal temperature (18ºC). Short-term reciprocal switches between 18ºC and 28ºC result in intermediate temperature tolerance. These changes are accompanied by mirroring changes in total antioxidant capacity indicating the increased antioxidant capacity as a possible causative mechanism for heat tolerance gained from acclimation. The analysis of 6 geographically distinct genotypes representing a range of temperature tolerance levels shows a genetic difference in response to short-term and long-term acclimation as well as in the effect of antioxidant capacity on temperature tolerance. These results indicate a significant degree of local adaptation in heat and oxidative stress defenses in Daphnia and provide a better understanding of adaptive responses of this zooplankton crustacean to rising temperatures.

daphnia

oxidative stress

thermal tolerance

Lipid peroxidation

antioxidants

phenotypic plasticity

Biochemistry

Systems and Integrative Physiology

Terrestrial and Aquatic Ecology

Investigation of the role of insulin receptor genes in wing polyphenism using gene knockdown and differential gene expression analysis in the non-model organism Gerris buenoi

Iggström, Sofia

January 2019

Wing polyphenism is a type of phenotypic plasticity present in several insect species whereby a genotype have the ability to develop alternative wing morphs when exposed to different environmental cues. One organism demonstrating a clear case of wing polyphenism is the water strider species, Gerris buenoi, which develop long- or short wings depending on exposure to different photoperiods (the time the organism is exposed to light during a 24 h period). The molecular mechanism behind wing polyphenism in insects in general, and in water striders in particular, is largely unknown. From a study on wing polyphenism in the Brown planthopper (Nilaparvata lugens), some candidate genes have been identified and include two insulin receptor genes and the Forkhead transcription factor (FOXO). Since these genes have been demonstrated to affect wing polyphenism in Brown planthopper (BPH) and since G. buenoi contains an additional insulin receptor homolog, the potential role of these genes in regulating wing polyphenism in G. buenoi have in this project been investigated. The functional genetic technique RNA interference (RNAi) was used to evaluate the function of the genes. This method knock down gene expression in the genes mentioned above, one at a time, to investigate if they have a function in wing polyphenism in G. buenoi. DsRNA with specific homology to each target gene was successfully produced. However, when attempting to inject the dsRNA through micro injection all injected liquid leaked out from the body cavity, and the RNAi was therefore not successful. Further optimisation of the injection protocol has to be done to be able to perform RNAi properly in the future. Thereafter, RT-qPCR was used to evaluate whether the insulin receptor genes and FOXO are differentially expressed between the two photoperiods giving rise to the different wing morphs. The differential gene expression experiment showed differences between the mRNA levels of all target genes between G. buenoi being reared in the two different photoperiods. More specific upregulation of the genes FOXO and insulin receptor 2 in short winged G. buenoi were demonstrated. Further, insulin receptor 1-like, was also demonstrated to be upregulated in the short winged morph. Results presented in this project are in line with the previously identified regulation pattern in BPH, still the results need further evaluation. Since gene expression differences were present for all candidate genes between G. buenoi reared in the different photoperiods, theses genes could still be seen as potential candidate genes in wing polyphenism in water striders.

Phenotypic plasticity

RNAi

RT-qPCR

wing polyphenism

water striders

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Evolutionary Biology

Evolutionsbiologi

Interplay Between Environment and Genes on Morphological Variation in Perch – Implications for Resource Polymorphisms

Olsson, Jens

January 2006

Recent research has suggested that individual specialization within populations could be substantial and more common than previously acknowledged. Eurasian perch is one of many species of fish in lakes of postglacial origin that displays a morphological and dietary variation tightly coupled to the littoral and pelagic habitats of the lake. The occurrence of such resource polymorphisms might have important consequences for local adaptation and might also be an important initial step in speciation. I have investigated the importance of a number of factors for the development of resource polymorphisms using perch as a study organism. I found a weak genetic basis for morphological differences, and the environmental influence on morphology was of such a magnitude that an induced morphology could be reversed. The results nevertheless suggested that genetic differentiation could be substantial at small spatial and temporal scales, even within habitats. Several environmental factors were shown to influence the morphological development, and the results also suggest that behavioral differences could mediate a morphological response. I also found evidence for that competition-driven divergence might only occur when divergence in resource use is favoured at the same time as growth rates are kept sufficiently high for character divergence to be effective. The results finally indicate that divergence in the gut length of individuals might co-vary with habitat and diet use in resource polymorphic populations. This might enhance habitat fidelity and possibly also facilitate the persistence of resource polymorphisms since individuals should experience a cost of switching diets due to a too specific digestive system. Based on these findings I conclude that small scaled genetic differentiation might be more common than currently acknowledged, that more multi-factorial studies are needed if we are to fully understand the mechanisms behind trait diversity, and that competition not always favors divergence.

Ecology

Perch

Resource polymorphism

Genetic differentiation

Phenotypic plasticity

Morphology

Competition

Character divergence

Behavior

Growth rate

Resource level

Gut lenght

Ekologi

Evolutionary consequences of ecological interactions

Nonaka, Etsuko

January 2014

Eco-evolutionary dynamics integrates the reciprocal interactions betweenecology and evolution. These two branches of biology traditionally assumethe other as static for simplicity. However, increasing evidence shows thatthis simplification may not always hold because ecology and evolution canoperate in similar timescales. This thesis theoretically explores how thereciprocal interactions may influence ecological and evolutionary outcomesin four different eco-evolutionary contexts.Many species of non-social animals live in groups. Aggregating ingroups often has both benefits and costs that depend on group size. Thanksto the benefits of aggregation, population growth likely depends positivelyon population density when it is small. This phenomenon, the Allee effect,has been hypothesized to explain the evolution of aggregation behavior. Ifind that the Allee effect alone does not lead to the evolution whenpopulation dynamics is explicitly accounted for. Some other mechanisms,such as frequent needs for colonizing new patches or anti-aggregation,should be invoked to explain why aggregation behavior could evolve.Phenotypic plasticity is the ability of a genotype to express distinctphenotypes when exposed to different environments. Although it is oftenshown to be adaptive and not costly, highly plastic organisms are rare. Paststudies demonstrated some potential reasons. I test another possibility; costsmay arise from sexual selection because highly plastic individuals may beless preferred as a mate. I show that, even in the absence of the direct cost ofplasticity, the level of plasticity remained low at intermediate strengths ofassortative mating. This pattern is robust across wide ranges of parametervalues.Ecological speciation occurs when ecologically divergent selectionbetween environments causes reproductive isolation between divergingsubpopulations. Several verbal models of ecological speciation emphasizethe roles of phenotypic plasticity in promoting speciation. The complexprocesses involved in speciation, however, are difficult to be evaluated byverbal accounts. I quantitatively test the proposed idea in a mechanisticmodel of ecological speciation in the presence and absence of plasticity. Ifind conditions under which plasticity can promote or hinder ecologicalspeciation. Plasticity facilitates speciation by producing a gap in thedistributions of expressed phenotypes, which serves as a barrier to gene flowin an assortatively mating population.Ecosystem ecology and evolutionary biology are the least integratedfields in ecology and evolution. Natural selection operating at the individuallevels on traits governing ecosystem functions may affect ecosystemproperties, which may feedback to individuals. I reviewed this idea anddemonstrate the feedback loop by using a simple consumer-resource model.

adaptive dynamics

eco-evolutionary dynamics

ecological speciation

ecosystem

individual based

population dynamics

phenotypic plasticity

predator-prey

sexual selection