Anatomia de raízes de Eucalyptus grandis Hill ex Maiden em diferentes profundidades do solo sob um contexto de redução de chuvas

Gomide, Maëla Peron

January 2016

Orientador: Tatiane Maria Rodrigues / Resumo: Em espécies perenes de ambientes sazonais, o estabelecimento de um sistema radicular profundo é uma das estratégias de adaptação dessas espécies ao estresse hídrico. Nessas plantas, é bem estabelecido que a maior parte da absorção de água e íons ocorre em raízes finas não-suberizadas e que as porções mais jovens das raízes são as mais ativas nesse processo. Uma vez que modelos de mudança climática preveem uma redução de chuvas de até 20% entre a primeira e a última década do século XXI em grande faixa do globo terrestre, incluindo o Brasil, entender o efeito da redução da precipitação sobre a anatomia das raízes faz-se cada vez mais importante. O objetivo desse trabalho foi estudar a anatomia de raízes de Eucalyptus grandis em diferentes profundidades do solo e investigar o efeito da limitação da precipitação nos aspectos estruturais dessas raízes. Um delineamento experimental foi estabelecido em junho de 2010 com um clone de E. grandis em uma plantação da Estação Experimental de Ciências Florestais de Itatinga (EECFI), SP, Brasil. Dois tratamentos (dois regimes de água) foram aplicados em blocos separados de 2010 a 2014: tratamento TO (controle) sem a intercepção de chuvas e tratamento TR com interceptação de 37% das chuvas por lâminas de plástico transparente. Em 2014, trincheiras de até 17 metros de profundidade foram abertas no solo, sendo uma para cada tratamento. Cada trincheira foi centralizada entre quatro indivíduos de E. grandis. Raízes finas laterais foram coletada... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In perennial species the establishment of a deep root system is an adaptive strategy to water deficit. In these plants it is well established that most of the absorption of water and ions in perennial woody species occurs in fine non-suberized roots and that younger portions of roots are the most active in this process. Since models of climate changes predict a rainfall reduction in the next years of 20% until the first and the last decade of 21st century in global large scale, including Brazil, to understand the effect of rainfall reduction on the anatomy of these roots becomes even more important. This study aims to study the anatomy of Eucalyptus grandis roots at different soil depths investigating the effect of limiting the rainfall in structural aspects of these roots. An experiment was set up in June 2010 with a clone of Eucalyptus grandis used in commercial plantations by the Suzano Company in Estação Experimental de Ciências Florestais de Itatinga (EECFI), SP, Brazil. Two treatments (two water systems) were applied in separated blocks from 2010 to 2014: treatment TO (control) without rainfall interception and treatment TR (reduction) with 37% of rainfall interception by transparent plastic sheeting panels. In 2014, trenches of until 17 m of depth were opened in the soil, one for each treatment respectively. Each trench was centered between fours individuals of E. grandis. Fine lateral roots with were collected at 0-50cm and 12-16m of depth and separated in four catego... (Complete abstract click electronic access below) / Mestre

Desidratação (Hídrica)

Eucalipto.

Raízes profundas

Raízes superficiais

Xilema.

Drought stress

Eucalipto - Uso terapêutico.

Deep roots

Superficial roots

Xylem

Physiological responses of forest species to water stress / Respostas fisiológicas de espécies florestais ao estresse hídrico

Otto, Marina Shinkai Gentil

16 September 2015

Abiotic and biotic stresses affect tree growth and play a major role in determining the geographic distribution of species. The objective of this study is to elucidate the following questions: (1) are GABA aminoacid and stomatal control good indicators of tolerance to water stress in Eucalyptus clones? In addition, what are the anatomical differences between drought-tolerant and drought-sensitive clones of Eucalyptus? (2) Are there differences of xylem vulnerability to cavitation in Pinus flexilis families susceptible and resistant to white pine blister rust (WPBR) and with different origins (high and low altitudes)? Two studies were carried out to elucidate the issues above. On chapters 1, eight Eucalyptus clones from different geographical and climatological conditions, three drought-sensitive (CNB, FIB and JAR), three drought-tolerant (GG, SUZ and VM), and two plastics (VER and COP), were studied in normal water supply (control treatment) and in water stress conditions (stress treatment). The first chapter concluded that GABA is an aminoacid very sensitive to water stress, but there was no relation between GABA concentration and tolerance to water stress of the clones. In addition, all clones decreased stomatal conductance with increasing vapor pressure deficit, and plastics and drought-tolerant clones (except GG) presented lower stomatal sensitivity to vapor pressure deficit under stress conditions than drought-sensitive clones. Besides, all clones showed differences on the anatomical parameters between, and only COP (plastic) and SUZ (drought-tolerant) showed homogeneous mesophyll and amphi-hipostomatic leaves. All clones increased the number of stomata and reduced leaf thickness of the leaves formed after water stress period. On the chapter 2, we studied 12 families of Pinus flexilis originating from high and lower altitudes, in which six families previously shown to contain the dominant C4 allele (resistant to WPBR) and six families without C4 allele (susceptible to WPBR). This study showed that the mean cavitation pressure (MCP) of Pinus flexilis varying between 3.63 a -4.84 Mpa, although there was a significant difference in vulnerability to cavitation comparing all families, this variable was not related to WPBR and origin region. These studies highlight that the physiological responses of plants under water stress conditions are important tools that can be used to complement the strategies of genotype selection in forest breeding programs. / Estresses abióticos e bióticos podem afetar o crescimento das árvores e desempenham um papel importante na determinação da distribuição geográfica das espécies. O objetivo deste estudo, foi elucidar as seguintes questões: (1) o aminoácido GABA e o controle estomático são bons indicadores da tolerância ao estresse hídrico em clones de Eucalyptus? E quais são as diferenças anatômicas entre clones de Eucalyptus tolerantes e sensíveis ao estresse hídrico? (2) existem diferenças de vulnerabilidade a cavitação do xilema entre famílias de Pinus flexilis suscetíveis e resistentes à ferrugem do pinho branco (WPBR) e com diferentes procedências (elevada e baixa altitudes)? Dois estudos foram desenvolvidos para elucidar as questões acima descritas. No capítulo 1, oito clones de Eucalyptus de diferentes procedências e condições climáticas, sendo três clones sensíveis ao estresse hídrico (CNB, FIB e JAR), três clones tolerantes ao estresse hídrico (GG, SUZ e VM) e dois clones plásticos (VER e COP), foram estudados sob duas condições distintas: sob adequado suprimento de água (tratamento controle) e sob condições de estresse hídrico (tratamento estresse). Do primeiro capítulo concluiu-se que o GABA é um aminoácido que possui alta sensibilidade ao estresse hídrico, no entanto, não houve relação entre a concentração de GABA e os níveis de tolerância ao estresse hídrico dos clones. Além disso, todos os clones reduziram a condutância estomática em relação ao aumento do déficit de pressão de vapor (DPV), sendo que, sob condições de estresse hídrico, os clones plásticos e tolerantes à seca (exceto o clone GG) apresentaram menor sensibilidade estomática ao DPV do que os clones sensíveis ao estresse hídrico. Além disso, todos os clones apresentaram diferenças anatômicas, sendo que, diferentemente dos demais, os clones COP (plástico) e SUZ (tolerante) apresentaram mesofilo homogêneo e folhas anfi-hipoestomáticas. Todos os clones aumentaram a quantidade de estômatos e reduziram a espessura foliar das folhas formadas após períodos de estresse hídrico. No segundo capítulo foram avaliadas 12 famílias de Pinus flexilis procedentes de regiões de baixa e alta altitudes, sendo seis famílias contendo um alelo dominante C4 (resistente à WPBR) e seis famílias sem o alelo C4 (suscetíveis à WPBR). Este estudo apresentou uma variação da pressão média da cavitação (MCP) para Pinus flexilis de -3,63 a -4,84 Mpa, e embora tenha havido uma diferença significativa da susceptibilidade a cavitação entre todas as famílias estudadas, esta variável não relacionou-se com a susceptibilidade a doença WPBR e com a região de procedência das famílias. Estes estudos comprovam que a avaliação das respostas fisiológicas das plantas sob condições de estresse hídrico são importantes ferramentas que podem ser utilizadas para complementar as estratégias da seleção de genótipos em programas de melhoramento florestal.

Anatomia

Anatomy

Cavitação do xilema

Condutância estomática

GABA

GABA

Stomatal conductance

Stress tolerance

Tolerância ao estresse

Xylem cavitation

The effects of Phytophthora ramorum stem inoculation on aspects of tanoak physiology and xylem function in saplings and seedlings

Stamm, Elizabeth A.

16 March 2012

Phytophthora ramorum, an oomycete plant pathogen, is the causal agent of sudden oak death, a serious disease of Fagaceous trees in California and Oregon over the last decade. Tanoak (Notholithocarpus densiflorus) is one of the most susceptible host species, but the cause of host mortality is poorly understood. Previous research has implicated disruption in stem water transport, phloem girdling, and activity of a class of secreted proteins known as elicitins as possible mechanisms of pathogenesis. In this study I investigated certain physiological impacts of P. ramorum infection on tanoak saplings and tanoak seedlings. In growth chamber experiments, stems of plants were inoculated with isolates that differed in the amount of elicitin secreted in vitro. Stem-wounded, non-inoculated plants served as controls. Parameters measured included net photosynthetic rate, stomatal conductance, whole plant water usage, stem specific hydraulic conductivity, tylosis production, starch partitioning, and mortality. Inoculated saplings exhibited a reduction in whole plant water usage, followed by a reduction in stem specific hydraulic conductivity implicating an interruption in stem water transport as the primary symptom. A reduction in net photosynthetic rate and stomatal conductance occurred one week later. Experiments conducted on inoculated tanoak seedlings supported the hypothesis that a reduction in stem water transport is the primary disease symptom. Stem specific hydraulic conductivity was the only parameter that appeared to be significantly impacted when treatments were compared during each measurement period. There was, however, a significant difference between treatments over the course of the entire experiment. Due to differences in isolate growth rates and similar levels of elicitin secretion, symptom expression could not be tied to elicitin production. To determine where elicitins are produced in planta, an immunolabeling technique was tested utilizing an elicitin-specific fluorescent antibody. The elicitin protein was most apparent in paratracheal parenchyma cells, although nonspecific staining in control samples confounded interpretation. / Graduation date: 2012

Phytophthora

elicitin

xylem

Elicitins -- Pathophysiology

Plants, Motion of fluids in

Sudden oak death -- Pathophysiology

Carbon and Water Relations in Pinus Taeda: Bridging the Gap across Plant Physiology, Genomics, and Global Climate Change

Moura, Catarina

23 June 2008

<p>Plants respond to changes in their local environment and, at the same time, influence the environment at a global scale. The molecular and physiological mechanisms regulating this interaction are not completely understood and this limits our capacity to predict the response of vegetation to future environmental changes. This dissertation combined tools from genomics, physiology, and ecology to examine the response of plants to environmental change. Specifically, it focused on processes affecting carbon and water exchange in forest trees because (1) trees are long-lived species that might face repeated environmental challenges; (2) relatively little information exists about the genes and the molecular mechanisms regulating structural and physiological traits in adult, long-lived woody plants; and (3) forest trees exchange a significant amount of carbon and water with the atmosphere and are therefore major players in the global carbon and water cycles. </p><p>Water flux through forests depends both on environmental conditions (e.g., soil moisture) and on the hydraulic architecture of individual trees. Resistance to xylem cavitation is an important hydraulic trait that is often associated with drought tolerance but potentially at the cost of reduced carbon uptake. The second chapter of this dissertation evaluated the variation in resistance to xylem cavitation, hydraulic conductivity, wood anatomy traits, and leaf gas exchange across 14 co-occurring temperate tree species including both angiosperms and gymnosperms. The relationship between vulnerability to cavitation (ψ₅₀) and hydraulic conductivity within specific organs (i.e. stems and roots) was not significant when considering the phylogenetic association between species. However, even after phylogenetic correction, photosynthetic carbon uptake (A) was positively correlated with both stem and root ψ₅₀, and stomatal conductance (g_s) was strongly correlated with root ψ₅₀ . These results suggest that there is a trade-off between vulnerability to cavitation and water transport capacity at the whole-plant level, and that this functional relationship reflects an adaptive response to the environment. </p><p>Forests are an important component of the global carbon cycle that can be directly impacted by a rise in atmospheric CO₂ concentration.. The third chapter of this dissertation investigated the effects of long-term exposure to elevated CO2 on the gene expression of mature, field-grown loblolly pine trees. Using cDNA microarrays, I compared the expression of 1784 pine transcripts in trees growing under ambient and those under elevated CO₂ at monthly intervals throughout a growing season. Overall, more genes were upregulated than downregulated by elevated CO₂, although the total number of genes differentially expressed varied throughout the season. The pattern of increasing number of differentially expressed genes until the peak of the growing season (July and August) followed by a decrease in that number, matched the seasonal trend of tree growth and photosynthetic response to elevated CO₂ in this species. The seasonal trend also reflected the interaction among multiple abiotic factors intrinsic to field conditions and emphasized the relevance of evaluating the role of genes in their natural environment. Genes consistently upregulated by elevated CO₂ were functionally associated with environmental sensing, cellular signaling, and carbon metabolism, in particular the degradation of carbohydrates through respiration. An increase in carbohydrates degradation is particularly relevant in the context of carbon balance of forest trees because of the potential for enhanced leaf and tree respiration leading to a reduced sink capacity for CO₂. </p><p>Loblolly pine produces several flushes of needles throughout the year each with an average lifespan of 19 months. Each year, two age classes of needles contribute to the annual carbon sequestration of the loblolly pine forest. To address the impact of leaf age on the effects of elevated CO₂ in carbon metabolism regulation, I compared the gene expression profiles from trees under ambient and elevated CO₂ conditions in two needle cohorts: one-year-old and current-year. Differential expression under elevated CO₂ was seven times more frequent in current-year than in one-year-old needles. Despite differences in magnitude, many of the patterns within specific groups of genes were similar across age classes. For instance, there was a trend for downregulation of genes involved in the light-reactions of photosynthesis and those in photorespiration in both age classes, while genes associated with dark respiration were largely upregulated by elevated CO₂ in both cases. The difference between the two cohorts was particularly evident in the group of genes related to energy production (ATP synthesis) and the group associated with carbon partitioning (sucrose and starch metabolism). Because sucrose and starch metabolism categories included many genes known to be important regulators of gene expression and plant physiological processes, this suggests that this stage of carbon metabolism might be an important control point in age-dependent foliar responses to elevated CO₂.</p><p>This dissertation examined both structural and physiological components of plant water and carbon relations (Chapter 2) across different biological scales of organization (whole-plant level in Chapter 2; gene-level response to ecosystem-level changes in Chapters 3 and 4) and reflecting adjustments at distinct temporal scales (life-span of the organism vs. evolutionary selection of traits). An integrative approach was used to advance our understanding of how plants acclimate and adapt to their environment, and to provide a mechanistic framework for predictive models of plant response to environmental change. </p> / Dissertation

Biology, Ecology

Biology, Plant Physiology

Environmental Sciences

Global Environmental Change

Elevated CO2

Gene expression

Microarrays

Xylem cavitation

Hydraulic architecture

Biochemical studies of matured xylem of Cryptomeria japonica　- Attempts to detect the enzymes involved in the biosyntheses of the heartwood extractives -

IMAI, Takanori, 今井, 貴規, ITO, Eriko, 伊藤, 恵理子, FUKUSHIMA, Kazuhiko, 福島, 和彦

12 1900

農林水産研究情報センターで作成したPDFファイルを使用している。

biochemistry

Cryptomeria japonica

heartwood extractives

mature xylem

norlignan

生化学

心材成分

成熟木部

ノルリグナン

Embolie dans les plantes : dynamique de l'invasion d'air dans des réseaux hydrauliques naturels et artificiels sous pression négative / Embolism in plants : dynamics of air invasion in natural and artificial hydraulic networks under negative pressure

Bienaime, Diane

07 October 2016

Pour assurer le transport de la sève des racines vers les feuilles, les plantes vasculaires génèrent de très fortes dépressions dans le liquide, pouvant atteindre -200 bar, au niveau des feuilles. Cette dépression « tire » sur la colonne d'eau contenue dans l'appareil vasculaire de l'arbre. La cohésion de l'eau maintient la sève sous forme liquide. Cet état métastable peut se rompre : des bulles de cavitation apparaissent. Elles créent un « bouchon » d'air dans le réseau hydraulique de la plante et gênent la circulation de la sève. C'est ce que l'on appele l'embolie. Si ce phénomène se généralise, il peut provoquer la mort de la plante.Ce travail de thèse est consacré à 'invasion d'air dans des réseaux hydrauliques naturels ou artificiels initialement à pression négative. Nous avons d'abord étudié l'embolie dans les feuilles. Nous avons développé une technique novatrice permettant de relever la propagation spatiale de l'embolie dans le réseau hydraulique des feuilles. Nous montrons que l'embolie, quelque soit l'espèce, se propage par à-coups des plus grosses nervures aux plus petites.Afin de comprendre les lois physiques sous-jacentes, nous utilisons deux systèmes modèles. Nous réalisons d'abord des réseaux artificiels dans un hydrogel reproduisant les caractéristiques de la circulation de la sève ascendante. Après la relaxation de la tension dans le réseau par l'apparition de la bulle, nous observons des oscillations de surface et une croissance lente de la bulle, liée à l'évacuation de l'eau à travers l'hydrogel. Cette croissance peut atteindre un régime quasi-stationnaire. Ce systèmes ne nous permettant pas de reproduire toutes les caractéristiques géométriques du xylème, nous présentons une modélisation informatique reposant sur l'analogie entre réseaux hydrauliques et électrocinétique. Nous reproduisons les caractéristiques du xylème dans lequel circule la sève : les éléments conducteurs sont reliées par les ponctuations, des valves protégeant la plante de l'embolie. Nous retrouvons les à-coups caractéristiques de la propagation de l'embolie dans les feuilles.Enfin, nous discutons l'application des résultats précèdents dans le cas du bois et nous présentons quelques résultats obtenus sur du pin sylvestre. / To assure the transport from the roots to the leaves, vascular plants create strong depressions in the sap, next to -200 bars. This depression pulls the water column contained by the tree vascular system. The water cohesion keeps the sap under liquid state. This metastable state can breaks: cavitation bubbles appear. They create an air plug inside the plant hydraulic network and impede sap flow. This phenomena called embolism could lead to the plant death by preventing the sap transport.This thesis is dedicated to the air invasion into hydraulics networks under negative pressure. First, we study the leaf embolism. We developed a new technique which allows us to record the spatial propagation of embolism in leaves hydraulic network. We show that the embolism propagates by steps from biggest veins to smallest veins.Next, in order to understand the underlying physical laws, we use two model systems. We build artificial networks in a hydrogel which mimics the sap flow characteristics. After the relaxation of the negative pressure in the network by the nucleation of a bubble, we observe surface oscillations and the slow growth of the bubble. This growth is linked to the water transport through the hydrogel and can reach a stationary regime.As we are not able to reproduce all the characteristics of the leaf network with the hydrogel, we create a computer modeling based on the Ohm analogy between hydraulics networks and electrical circuits. We reproduce the specific features of the xylem which transport the sap: the conduits are linked by pits, small valves which limit the progression of the embolism. We were able to recover the distinctiveness steps in embolism.Finally, we discuss the application of the preceding results to wood and we present some results on Pinus sylvestris.

Embolie

Dynamique de bulle

Cavitation

Xylème

Plante

Pression négative

Embolism

Bubble dynamics

Cavitation

Xylem

Plant

Negative pressure

530

580

Anatomia caulinar de Zanthoxylum rhoifolium Lam. (Rutaceae) e Moquiniastrum polymorphum (Less.) G. Sancho (Asteraceae) que ocorrem em Cerrado e Mata Atlântica

Nascimento, Marcela Blagitz Ferraz do

January 2017

Orientador: Carmen Regina Marcati / Resumo: Avaliar a estrutura anatômica de plantas que crescem em diferentes ambientes é uma maneira de compreender como as plantas se adaptam às variações destes ambientes. Algumas destas adaptações influenciam no transporte de água e de fotoassimilados, na proteção dos tecidos internos, na força mecânica e na capacidade de armazenamento dos tecidos, que são funções associadas ao caule das plantas. Assim, neste trabalho, avaliamos a estrutura caulinar de duas espécies, Moquiniastrum polymorphum e Zanthoxylum rhoifolium que ocorrem simultaneamente em diferentes tipos vegetacionais: o cerrado sensu stricto, o cerradão, a floresta estacional semidecídua e a floresta ombrófila densa. Os três primeiros tipos vegetacionais têm um período de seca durante o ano, enquanto que na floresta ombrófila densa o regime pluviométrico é relativamente constante ao longo do ano. Os solos de cada local apresentam diferentes propriedades físicas e químicas e no cerrado sensu stricto o fogo é um fator ambiental que pode ocorrer naturalmente. Estes fatores podem influenciar a estrutura anatômica dos tecidos vegetais. Para a descrição anatômica coletamos amostras do caule (a 1,30 m do solo) contendo xilema secundário e casca, pelo método não destrutivo, de cinco indivíduos de cada tipo vegetacional, que foram processadas conforme técnicas usuais em anatomia da madeira. Para verificar as diferenças entre os tipos vegetacionais, nós comparamos as características anatômicas por meio de uma análise de variância. ... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor

Xilema secundário

Floema secundário

Periderme

Anatomia ecológica

Sazonalidade pluviométrica

Secondary xylem

Secondary phloem

Periderm

Ecological anatomy

Seasonal rainfall

Estudos sobre o bloqueio do xilema na pós-colheita das inflorescências de ave-do-paraíso (Strelitzia reginae Aiton) / Studies on the blockage of the xylem in the post-harvest of the bird-of-paradise inflorescences (Strelitzia reginae Aiton)

Marques, Ana Ermelinda

27 February 2008

Made available in DSpace on 2015-03-26T13:36:33Z (GMT). No. of bitstreams: 1 texto completo.pdf: 356172 bytes, checksum: 1bf067e3c244857d7b3d148e43e244b1 (MD5) Previous issue date: 2008-02-27 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The Strelitzia reginae Aiton is known popularly by bird-of-paradise and due to its wide use as cut flower there are still few the studies to evaluate the post-harvest handling and longevity. With the objective of evaluating the vascular occlusion that might take place at the base of the stem, post-harvest solutions containing inhibitors polyphenoloxidase and peroxidase, and reduction of bacterial population were applied. Flowers were pulsed with 10 mM 2-mercaptoethanol, 1 mM AgNO3, 5 mM catechol, 5 mM p-nitrophenol, 10 mM sodium metabissulfite and distilled water without pH adjustment or the pH of the solutions was adjusted for 6.0. Flowers were pulsed with AgNO3 at concentrations of 0.5, 1, 1.5 and 2 mM, sodium metabissulfite and ascorbic acid, both containing 2.5, 5, 7.5 and 10 mM and distilled water. The floral stems of each treatment were evaluated at every 48 hours, period in which were submitted to cuts of 2 cm in their stem base, until the end of the longevity of the flowers. At this time, it was determined the activity polyphenoloxidase and peroxidase. The total fresh matter, relative water content of the sepals, number of open flowers, longevity of the flowers and number of colony forming units per mL (CFU/mL) were evaluated. The activity of the polyphenoloxidase and peroxidase measured from the second to the eighth day after harvest showed that the sodium metabissulfite at 10 mM presented the highest reduction of enzymes activities at the second day of analysis. It was also observed that the solutions containing AgNO3 was not capable to inhibit the growth of the bacterial population in the base of floral stem. Together, the activity of the oxidative enzymes and the high number of colonies of bacteria influenced negatively in the weight of the fresh matter, in the relative water content, in the number of open flowers and in its longevity, because they promoted the precocious senescence of the flowers due to the water stress happened by the low hydraulic conductance of the elements of vase of the xylem. / A Strelitzia reginae Aiton é popularmente conhecida como ave-do-paraíso e devido ao seu amplo uso como flor de corte ainda são poucos os estudos realizados na avaliação dos problemas ocorridos em sua pós-colheita. Com o objetivo de avaliar a oclusão vascular ocorrida no local cortado dos escapos florais, soluções pós-colheita contendo inibidores da atividade das enzimas polifenoloxidase e peroxidase e do crescimento da população bacteriana foram aplicadas em três etapas. Aplicou-se 2-mercaptoetanol 10 mM, AgNO3 1 mM, catecol 5 mM, p-nitrofenol 5 mM, metabissulfito de sódio 10 mM e água destilada sem correção do pH, ou com pH ajustado para 6,0. Aplicou-se também AgNO3 às concentrações 0,5; 1; 1,5 e 2 mM, metabissulfito de sódio e ácido ascórbico, ambos às concentrações 2,5; 5; 7,5 e 10 mM, e água destilada. Os escapos florais de cada tratamento foram avaliados a cada 48 horas, período no qual eram submetidos a cortes de 2 cm em suas bases, até o fim da longevidade das flores. Nesse material coletado avaliou-se a atividade das enzimas polifenoloxidase e peroxidase. As outras observações foram: peso da matéria fresca, teor relativo de água, número de flores abertas, longevidade das flores e número de unidades formadoras de colônias por mL (UFC/mL). A atividade da polifenoloxidase e da peroxidase foi determinada do segundo ao oitavo dia após a colheita e, dos tratamentos aplicados, o metabissulfito de sódio 10 mM apresentou a maior redução da atividade das enzimas após o segundo dia da aplicação. As soluções contendo AgNO3 não foram capazes de inibir o crescimento da população bacteriana nos escapos florais. Em conjunto, a atividade das enzimas oxidativas e o alto número de colônias de bactérias influenciaram negativamente no peso da matéria fresca, no teor relativo de água, no número de flores abertas e na sua longevidade, pois promoveram a senescência precoce das flores devido ao estresse hídrico ocorrido pela baixa condutância hidráulica dos elementos de vaso do xilema.

Xilema

Ave-do-paraíso

Oclusão vascular

Strelitzia reginae

Xylem

Bird-of-paradise

Vascular occlusion

Strelitzia reginae

Transpiração e eficiência do uso da água em árvores clonais de Eucalyptus aos 4 anos em áreas com e sem irrigação em Eunápolis, Bahia / Transpiration and water use efficiency in clonal 4 years-old Eucalyptus trees in irrigated and no irrigated areas in Eunápolis, Bahia

Marina Shinkai Gentil

29 March 2010

Conhecer o uso da água pelas árvores é fundamental para entender as interações entre o ambiente e as florestas e compreender seu crescimento por meio do entendimento dos processos que o governa. Objetivou-se com o trabalho determinar as taxas de transpiração, o crescimento e a eficiência do uso da água de árvores de Eucalyptus, por meio do método de Granier, em parcelas com e sem irrigação, além de compará-lo ao modelo de Penman-Monteith para estimativa da transpiração. O experimento foi realizado em um plantio de clone de Eucalyptus, instalado em março de 2001, no município de Eunápolis, BA. Para determinação da transpiração, foi avaliado o fluxo xilemático no período de agosto a dezembro de 2005, por meio de sondas instaladas no tronco das árvores. Para avaliação do crescimento das plantas, estimouse o incremento de biomassa nos tratamentos a cada quatro meses, enquanto que a eficiência do uso da água (EUA) foi obtida pela razão entre o incremento de biomassa e quantidade de água transpirada no período. Adicionalmente, foi avaliada a variação da umidade no perfil do solo pelo sistema TDR nos dois tratamentos. Foi necessário calibrar o método de Granier, pois se observou que a equação original subestimou significativamente o uso de água. A densidade mensal do fluxo de seiva variou de 16,4 a 35,5 cm³ cm-2 hora-1, sem diferir entre os tratamentos. Enquanto a transpiração média das árvores irrigadas foi igual ou superior às não irrigadas, atingindo valores da ordem de 68 a 79 L arv-1 dia-1, o incremento de biomassa foi superior no tratamento irrigado (16 kg planta-1) em relação ao não irrigado (10 kg planta-1), ou seja, o eucalipto não apresentou consumo de luxo de água, pois a água a mais transpirada pela árvores irrigadas foi efetivamente usada para auxiliar a fixação de carbono no tronco. A EUA não diferiu entre os tratamentos, com média de 1,0 g L-1. Observou-se que, independentemente do tratamento, árvores com maior biomassa inicial apresentaram EUA superior às árvores de menor porte durante o período do estudo. Obteve-se uma relação não linear entre condutância da copa e déficit de pressão de vapor, indicando que o eucalipto apresenta um controle estomático que limita a transpiração. Quando avaliado na escala mensal, o modelo de Penman-Monteith estimou com precisão a transpiração do eucalipto. / Estimating the water use by trees is fundamental to understand the interactions between environment and plants and to know more about the processes that governs it. This work aimed to determine the transpiration rates, the growth and the water use efficiency of clonal Eucalyptus trees, using the Granier method, with or without irrigation, besides comparing it to the Penman-Monteith model for estimating transpiration. The experiment was accomplished in a Eucalyptus clonal plantation installed in March of 2001, in Eunapolis city, State of Bahia, Brazil. For determination of transpiration, the sap flow was evaluated in the period of August to December of 2005, using probes installed in the trees stems. To evaluate tree growth the biomass increment was considered in the treatments every four months, while the water use efficiency (WUE) was obtained by the ratio between the biomass increment and amount of water transpired in the period. Additionally, the variation of humidity was evaluated in the soil profile by the TDR system in both treatments. It was necessary to calibrate the Granier method because it was observed that the original equation underestimated the water use. The monthly sap flow density ranged from 16,4 to 35,5 cm³ cm-2 hour-1 and not differing between treatments. While the average transpiration of the irrigated trees was equal or superior to the no irrigated ones, with values varying from 68 to 79 L day-1 per tree, the biomass increment was superior in the irrigated treatment (16 kg tree-1) in relation to the no irrigated (10 kg tree-1). This results points that the Eucalyptus did not present luxury consumption of water, because the additional water transpired by the irrigated trees was used to allocate more carbon to the stem. The WUE did not differ between treatments, with average of 1,0 g L-1. It was observed that, independently of the treatment, trees with larger initial biomass presented highest WUE in relation to the smaller trees during the studied period. It was obtained a no linear relationship between canopy conductance and vapor pressure deficit, indicating that Eucalyptus presents a strong stomatal control that limit the transpiration. When used at monthly scale, Penman-Monteith model evaluated the transpiration of the Eucalyptus accurately.

Água

Ecofisiologia vegetal

Eucalipto - Crescimento

Irrigação

Transpiração vegetal

Xilema.

Eucalypt growth

Irrigation

Vegetal ecophysiology

Vegetal transpiration

Water

Xylem.

Physiological responses of forest species to water stress / Respostas fisiológicas de espécies florestais ao estresse hídrico

Marina Shinkai Gentil Otto

16 September 2015

Abiotic and biotic stresses affect tree growth and play a major role in determining the geographic distribution of species. The objective of this study is to elucidate the following questions: (1) are GABA aminoacid and stomatal control good indicators of tolerance to water stress in Eucalyptus clones? In addition, what are the anatomical differences between drought-tolerant and drought-sensitive clones of Eucalyptus? (2) Are there differences of xylem vulnerability to cavitation in Pinus flexilis families susceptible and resistant to white pine blister rust (WPBR) and with different origins (high and low altitudes)? Two studies were carried out to elucidate the issues above. On chapters 1, eight Eucalyptus clones from different geographical and climatological conditions, three drought-sensitive (CNB, FIB and JAR), three drought-tolerant (GG, SUZ and VM), and two plastics (VER and COP), were studied in normal water supply (control treatment) and in water stress conditions (stress treatment). The first chapter concluded that GABA is an aminoacid very sensitive to water stress, but there was no relation between GABA concentration and tolerance to water stress of the clones. In addition, all clones decreased stomatal conductance with increasing vapor pressure deficit, and plastics and drought-tolerant clones (except GG) presented lower stomatal sensitivity to vapor pressure deficit under stress conditions than drought-sensitive clones. Besides, all clones showed differences on the anatomical parameters between, and only COP (plastic) and SUZ (drought-tolerant) showed homogeneous mesophyll and amphi-hipostomatic leaves. All clones increased the number of stomata and reduced leaf thickness of the leaves formed after water stress period. On the chapter 2, we studied 12 families of Pinus flexilis originating from high and lower altitudes, in which six families previously shown to contain the dominant C4 allele (resistant to WPBR) and six families without C4 allele (susceptible to WPBR). This study showed that the mean cavitation pressure (MCP) of Pinus flexilis varying between 3.63 a -4.84 Mpa, although there was a significant difference in vulnerability to cavitation comparing all families, this variable was not related to WPBR and origin region. These studies highlight that the physiological responses of plants under water stress conditions are important tools that can be used to complement the strategies of genotype selection in forest breeding programs. / Estresses abióticos e bióticos podem afetar o crescimento das árvores e desempenham um papel importante na determinação da distribuição geográfica das espécies. O objetivo deste estudo, foi elucidar as seguintes questões: (1) o aminoácido GABA e o controle estomático são bons indicadores da tolerância ao estresse hídrico em clones de Eucalyptus? E quais são as diferenças anatômicas entre clones de Eucalyptus tolerantes e sensíveis ao estresse hídrico? (2) existem diferenças de vulnerabilidade a cavitação do xilema entre famílias de Pinus flexilis suscetíveis e resistentes à ferrugem do pinho branco (WPBR) e com diferentes procedências (elevada e baixa altitudes)? Dois estudos foram desenvolvidos para elucidar as questões acima descritas. No capítulo 1, oito clones de Eucalyptus de diferentes procedências e condições climáticas, sendo três clones sensíveis ao estresse hídrico (CNB, FIB e JAR), três clones tolerantes ao estresse hídrico (GG, SUZ e VM) e dois clones plásticos (VER e COP), foram estudados sob duas condições distintas: sob adequado suprimento de água (tratamento controle) e sob condições de estresse hídrico (tratamento estresse). Do primeiro capítulo concluiu-se que o GABA é um aminoácido que possui alta sensibilidade ao estresse hídrico, no entanto, não houve relação entre a concentração de GABA e os níveis de tolerância ao estresse hídrico dos clones. Além disso, todos os clones reduziram a condutância estomática em relação ao aumento do déficit de pressão de vapor (DPV), sendo que, sob condições de estresse hídrico, os clones plásticos e tolerantes à seca (exceto o clone GG) apresentaram menor sensibilidade estomática ao DPV do que os clones sensíveis ao estresse hídrico. Além disso, todos os clones apresentaram diferenças anatômicas, sendo que, diferentemente dos demais, os clones COP (plástico) e SUZ (tolerante) apresentaram mesofilo homogêneo e folhas anfi-hipoestomáticas. Todos os clones aumentaram a quantidade de estômatos e reduziram a espessura foliar das folhas formadas após períodos de estresse hídrico. No segundo capítulo foram avaliadas 12 famílias de Pinus flexilis procedentes de regiões de baixa e alta altitudes, sendo seis famílias contendo um alelo dominante C4 (resistente à WPBR) e seis famílias sem o alelo C4 (suscetíveis à WPBR). Este estudo apresentou uma variação da pressão média da cavitação (MCP) para Pinus flexilis de -3,63 a -4,84 Mpa, e embora tenha havido uma diferença significativa da susceptibilidade a cavitação entre todas as famílias estudadas, esta variável não relacionou-se com a susceptibilidade a doença WPBR e com a região de procedência das famílias. Estes estudos comprovam que a avaliação das respostas fisiológicas das plantas sob condições de estresse hídrico são importantes ferramentas que podem ser utilizadas para complementar as estratégias da seleção de genótipos em programas de melhoramento florestal.

Anatomia

Cavitação do xilema

Condutância estomática

GABA

Tolerância ao estresse

Anatomy

GABA

Stomatal conductance

Stress tolerance

Xylem cavitation