Global ETD Search

61	Effect Of Drought And Salt Stresses On The Gene Expression Levels Of Antioxidant Enzymes In Lentil (lens Culinaris M.) Seedlings Aksoy, Emre 01 September 2008 (has links) (PDF) This study was carried out for understanding of antioxidant mechanisms of lentil under abiotic stress conditions. For this aim, 14 days old lentil seedlings (Lens culinaris Medik cv. Sultan-1) were subjected to drought (20% PEG 6000), and salt (150 mM NaCl ) stress for 6, 12 and 24 hours, for 3, 5 and 7 days. PCR conditions for Mn SOD, Cu/Zn SOD, chloroplastic/mitochondrial GR, CAT and chloroplast /stromal APX antioxidant enzymes were optimized. Then, total RNA was isolated from stressed and non-stressed plant roots and shoots. The gene expression levels of Mn SOD and Cu/Zn SOD were examined by semi-quantitative reverse transcription polymerase chain reaction (RT-PCR) technique. Arabidopsis 18S rRNA was used as internal control in multiplex PCR technique. Relative expression levels of Mn SOD were lower in shoots and roots under salt stress while no significant change was obtained under drought conditions in both tissues. Relative expression levels of Mn SOD were increased on 5th day of salt and drought applications in both shoots and roots. Relative expression levels of Cu/Zn SOD increased after 5th, and on 1st and 7th days of drough treatment in shoots and roots, respectively. On the other hand, expression levels of Cu/Zn SOD increased on 3rd and 5th days of salt treatment in shoot tissues. Although it is nearly impossible to understand the whole antioxidant mechanism of plants under environmental stresses, this study was the first step to learn about molecular background of antioxidant defence mechanisms in lentil. QH Genetics 426-470
62	Influence of grassland management on the abundance of the endophytic fungi Neotyphodium Dobrindt, Lana 15 November 2011 (has links) No description available. 630 Land- und Forstwirtschaft (PPN621302791)
63	Identificação de genes diferencialmente expressos em feijoeiro envolvidos na resistência ao estresse hídrico / Identification of differentially expressed genes in common bean involved in drought stress resistance Gustavo Henrique Recchia 03 June 2011 (has links) O Brasil é o segundo maior produtor de feijão, sendo a espécie mais cultivada o Phaseolus vulgaris L. Entre as três possíveis safras exploradas no Brasil, aquela que gera a maior produção é a da seca. Por outro lado, como a maioria das lavouras emprega pouca tecnologia, um dos problemas desta cultura é o estresse hídrico, que leva a uma redução na produtividade. Dessa forma, a identificação de genes que controlam os mecanismos de defesa e adaptação do feijoeiro à falta de água seria de grande utilidade. Nos últimos anos, muitas informações ômicas do feijoeiro foram geradas, criando uma visão integrada deste organismo e oferecendo uma complexa rede de interações entre genes e seus produtos. Este trabalho teve como objetivo central à identificação de genes diferencialmente expressos no sistema radicular de um genótipo de feijoeiro resistente ao estresse hídrico (BAT 477), quando submetido a uma interrupção de irrigação durante seu desenvolvimento. Foi construída uma biblioteca subtrativa de cDNA (SSH), que representou os genes diferencialmente expressos no genótipo resistente, utilizando-se como driver o genótipo Carioca 80SH (suscetível a seca). Foram obtidos 1572 reads válidos, sendo 931 destes singletons e 189 contigs com uma média de seis reads por cluster. A anotação das sequências foi conduzida via BLASTX, sendo consideradas para anotação somente os melhores resultados dos produtos gênicos similares com E- Value \'<OU=\' 10-5. A classificação funcional foi feita tendo-se como base modelos descritos para plantas (modelo CS e MIPS) e os resultados foram agrupados em seis classes funcionais distintas. As análises de bioinformática ajudaram na identificação de genes descritos como envolvidos na resposta da planta ao estresse hídrico. Entre eles: proteínas do grupo LEA; fatores de transcrição como DREB, NAC e proteínas ricas em leucina; enzimas sintetizadoras de carboidratos incluindo trehalose, sacarose e rhamnose; proteínas ricas em prolina; receptores de hormônios (ABA, etileno); aquaporinas; chaperonas; ubiquitinas; nodulinas; e proteínas associadas à fotossíntese e à respiração. A fim de se obter a validação das ESTs anotadas, foi conduzido um experimento de PCR em tempo real confrontando os padrões de expressão de 15 genes sob quatro tratamentos: ambos os genótipos sob estresse e respectivos controles. Três replicatas biológicas foram adotadas e dois genes de referência (act e skip2) foram escolhidos para normalização interna dos dados. Os padrões de expressão gênica obtidos confirmam a hipótese de que tais genes são mesmo mais expressos no genótipo resistente, embora não sejam exclusivos já que uma quantidade menor de tais transcritos também foi detectada no genótipo suscetível / Brazil is the second biggest producer of common bean, being Phaseolus vulgaris L. the most cultivated species. Among the three possible harvests exploited in Brazil, drought is the one which generates the greatest production. On the other hand, as the majority of the households employees low technology, one of the problems of this culture is drought stress that leads to a reduction in the productivity. So, the identification of gene that controls the mechanisms of defense and adaptation of common bean to the lack of water would be very useful. In the past years, many omics information of common bean have been generated, creating an integrated view of this organism and providing a complex network between genes and its products. The main goal of this work was the identification of differentially expressed genes in a genotype of common bean resistant to drought stress (BAT 477), when submitted to a interruption of irrigation during its development. It was build a cDNA suppression subtractive hybridization library (SSH), which represented the differentially expressed genes, on the resistant genotype, having as driver the genotype Carioca 80SH (susceptible to drought). It was obtained 1572 valid reads, being 931 singletons and 189 contigs, with the average of 6 reads per cluster. The sequences annotation was conducted via BLAST X, considering only the best similarity results with E value \'<OU=\' 10-5. The functional classification was done adopting models described for plants (CS and MIPS) and the results were grouped into six different functional classes. Bioinformatic analyses contribuited to the identification of genes described as involved on plants response to drought stress. Among them: LEA proteins; transcription factors like DREB, NAC and leucine-rich proteins; carbohydrates synthesizers enzymes like the ones for trehalose, sucrose and rhamnose; proline-rich proteins; hormone receptors (ABA and ethylene); aquaporins; chaperones; ubiquitins; nodulins; and proteins associated with photosynthesis and respiration. In order to validate the ESTs annotated, a RT-qPCR experiment was conducted comparing the expression patterns of 15 genes under four treatments: both genotypes under stress and their respective controls. Three technical replicates were used and two reference genes (act and skip2) were chosen for intern data normalization. The gene expression patterns obtained confirm the hypothesis that such genes are more expressed on the resistant genotype although they are not exclusive since a lower levels of these transcripts were also detected in the susceptible genotype Biblioteca subtrativa por hibridização cDNA Estresse hídrico Phaseolus vulgaris L cDNA Drought stress Phaseolus vulgaris L. Suppressive hybridization library
64	Respostas de CAM às variações ambientais na bromélia Dyckia tuberosa (Vellozo) Beer / Environmental influence on CAM in the bromeliad Dyckia tuberisa (Vellozo) Beer Davi Roncoletta Nascimento 05 October 2012 (has links) Plantas com o tipo fotossintético CAM podem suportar condições de baixa disponibilidade de água através de um sistema de concentração de gás carbônico que aumenta a eficiência de uso da água através de uma fixação inicial do CO2 durante a noite, em condições de baixo déficit de pressão de vapor entre a folha e a atmosfera. Esse processo favorece a ocupação de regiões áridas e de sítios onde a água pode se tornar rapidamente indisponível. A ocorrência desse tipo fotossintético abrange uma grande amplitude de táxons, incluindo a família Bromeliaceae. Entre as espécies de Bromeliaceae que apresentam CAM encontra-se Dickya tuberosa, uma espécie que apresenta uma grande abundancia nos afloramentos rochosos associados ao monumento natural da Pedra Grande - Atibaia - SP. Nesse local, D. tuberose apresenta um papel relevante na vegetação associada à superfície de rocha exposta como componente essencial das comunidades denominadas \"ilhas de vegetação\". As condições predominantes no afloramento rochoso da Pedra Grande são de grande escassez de solo e água, além de extrema exposição. As variações na disponibilidade de água no afloramento rochoso seriam devidas, entre outras causas, ao tamanho das ilhas de solo onde D. tuberose ocorre e as características de declividade e orientação da vertente da superfície rochosa onde a ilha esta instalada. A partir das observações no ambiente natural, pergunta-se se os padrões de assimilação em D. tuberose relacionados ao CAM apresenta variações associadas as características das ilhas de solo onde ocorre. Para investigar esta relação, plantas de D. tuberose foram estudadas em campo e em condições semi-controladas em casa de vegetação. A técnica utilizada para caracterização dos padrões de CAM foi a de titulação da acidez do mesofilo. Tanto em grupos experimentais submetidos a períodos distintos de suspensão da rega como em amostras obtidas diretamente do campo, observam-se padrões de variação da acidez que podem ser associados a variações no suprimento hídrico. As variações foram caracterizadas através da diferença na acidez entre o inicio da manha e o final da tarde. A redução na amplitude da variação coincidiu com a intensidade da restrição no suprimento hídrico. Entretanto, a variação foi associada a redução do valor da acidez no final do dia, o que estaria associado a uma redução na recaptura do CO2 durante o período de iluminação. A maior influencia detectada nas plantas em campo foi a umidade relativa do ar. Conjectura-se um papel da assimilação de água através das folhas de D. tuberose como um atributo essencial a ocupação do substrato rochoso na Pedra Grande - Atibaia / Plants with crassulacean acid metabolism are able to support conditions of low availability of water through a carbon dioxide concentration system which increases the efficiency of use of water through an overnight CO2 fixture under low deficit of vapor pressure between the leaf and the atmosphere. This process favors the occupation of arid regions and places where water can quickly become unavailable. The occurrence of this type photosynthetic covers a wide range of taxa, including the Bromeliaceae family. Among the species of Bromeliaceae presenting CAM is Dickya tuberose, a species that has a great abundance on rocky outcrops associated with natural monument of Pedra Grande - Atibaia - SP. At this site, D. tuberose has a role in vegetation associated with surface rock exposed as an essential component of communities called \"vegetation islands\". The conditions prevailing in the rocky outcrop of Pedra Grande are of great scarcity of land and water, and extreme exposure. The variations in water availability in rocky outcrop would be due, among other reasons, the size of the islands where vegetation D. tuberose occurs and the characteristics of inclination and orientation of the slope of the rocky surface where the island is installed. From the observations in the natural environment, wonders whether the patterns of assimilation in D. tuberose related to CAM presents variations associated characteristics of vegetation islands where it occurs. To investigate this relationship, plants of D. tuberose were studied in field and semi-controlled conditions in a greenhouse. The technique used to characterize patterns of CAM was the titration acidity of the mesophyll. In both experimental groups undergoing different periods of suspension of irrigation as in samples obtained directly from the field, there are patterns of variation in acidity that may be associated with variations in water supply. The changes were characterized by the difference in acidity between the early morning and late afternoon. The reduction in amplitude of the variation coincided with the intensity of the restriction in water supply. However, the variation was associated with reduced acidity value at the end of the day, which would be associated with a reduction in the recapture of CO2 during the illumination period. The major influence detected on plants in the field was the relative humidity. It is conjectured a part of the assimilation of water through the leaves of D. tuberose as an essential attribute of the occupation of substrate in Pedra Grande - Atibaia Afloramentos rochosos Ilhas de solo Metabolismo ácido de crassuláceas Stress hídrico Crassulacean acid metabolism Drought stress Rock outcrops Soil islands
65	MudanÃas na expressÃo de proteÃnas induzidas por estresses isolados e combinados de seca e temperatura elevada de folhas de cajueiro / Protein expression changes as induced by specific and combined heat and drought stressess in cashew leaves Cristina Silva de Lima 24 March 2009 (has links) FundaÃÃo Cearense de Apoio ao Desenvolvimento Cientifico e TecnolÃgico / Um importante mecanismo de sobrevivÃncia celular, realizada pelas espÃcies vegetais em resposta a situaÃÃes adversas ou estressantes, Ã o acÃmulo de proteÃnas, principalmente as solÃveis, alÃm de aminoÃcidos e outros compostos nitrogenados. Nesse estudo, foi determinada distribuiÃÃo de compostos nitrogenados durante o estresse tÃrmico nas diversas partes da planta. Pode-se observar que com o aumento da temperatura de 25 ÂC para 45 ÂC, houve maior acumulo da fraÃÃo solÃvel em folhas (40%), enquanto que o aumento na fraÃÃo insolÃvel foi de aproximadamente 20% ao passo que o acÃmulo de prolina foi de cerca de cinco vezes nas folhas de cajueiro enquanto que nas raÃzes este aumento foi de apenas uma vez. A concentraÃÃo de aminoÃcidos livres totais foi elevada tanto nas folhas (5%) como nas raÃzes (9%). O conteÃdo de amÃnio sofreu acrÃscimo tanto nas raÃzes (30%) como nas folhas (60%) com a elevaÃÃo da temperatura de 25 ÂC para 45 ÂC. O aumento do conteÃdo de proteÃnas de folhas de cajueiro, induzido pelo calor estÃ relacionado com a mobilizaÃÃo de reservas nitrogenadas a partir de raÃzes e caules e/ou com sÃntese protÃica no tecido foliar. Baseado nessas observaÃÃes, alÃm da deposiÃÃo protÃica durante o estresse tÃrmico, nÃs identificamos padrÃes especÃficos de expressÃo protÃica do cajueiro frente aos estresses abiÃticos isolados e combinados. O padrÃo protÃico de folhas de cajueiro foi comparada por eletroforese bi-dimensional (2D) apÃs os tratamentos: condiÃÃo controle, irrigadas com soluÃÃo Hoagland & Arnon diluÃda a Â, ou submetidas Ã seca por suspensÃo da rega por 20 dias, e posteriormente tanto as plÃntulas controle como as prÃ-expostas Ã seca foram submetidas a 25 ÂC ou 45 ÂC. As mudanÃas na expressÃo de proteÃnas foram observadas em 80 proteÃnas de folhas de cajueiro. Na condiÃÃo de calor, 7 proteÃnas aumentaram sua expressÃo e 3 foram aparentemente sintetizadas de novo. Na condiÃÃo de seca, 10 proteÃnas aumentaram sua expressÃo e 2 proteÃnas foram identificadas como plastocianina e ferredoxina. A anÃlise tambÃm mostrou que 17 proteÃnas foram modificadas pelo efeito da combinaÃÃo dos estresses e assim como no estresse tÃrmico, 14 proteÃnas aumentaram sua expressÃo e 2 foram encontradas somente na combinaÃÃo dos estresses. Assim, nossos resultados sugerem que a combinaÃÃo dos estresses deve ser considerada como um novo estado de estresse abiÃtico em plantas, e nÃo simplesmente uma combinaÃÃo de fatores abiÃticos / An important mechanism for survival cell, carried out by the plant species response to adverse or stressful situations, is the accumulation of proteins,especially the soluble proteins as well as amino acids and other nitrogen compounds. In this study, was determined distribution of nitrogen compounds during heat stress in different parts of the plant. It can be observed that with increasing temperature of 25 ÂC to 45 ÂC, there was greater accumulation of soluble fraction in leaves (40%), while the increase in the insoluble fraction was approximately 20% while the accumulation of proline was about five times in the leaves of cashew while this increase in the roots was only once. The concentration of total free amino acids was high both in leaves (5%) and roots (9%). The content of ammonium has increased both in roots (30%) and leaves (60%) with increasing temperature of 25 ÂC to 45 ÂC. Increasing the protein content in the cashew leaves, induced by heat is related to the mobilization of nitrogen reserves from roots and stems and/or protein synthesis in leaf tissue. Based on these observations, in addition to protein deposition during heat stress, we identified specific patterns of protein expression of cashew against specific and combined to abiotic stresses. The protein pattern in cashew leaves was compared by twodimensional electrophoresis (2D) after to the treatments: control conditions, irrigated with Hoagland & Arnon solution diluted to Â, or subjected to drought by suspension of irrigation for 20 days, and then both the control seedlings as the pre-exposed to drought were subjected to 25 ÂC or 45 ÂC. The protein expression changes were in 80 proteins leaves of cashew. In the condition of heat, 7 protein increased the expression and 3 proteins were apparently synthesized de novo. In dry condition, 10 proteins increased their expression and 2 proteins were identified as plastocyanin and ferredoxin. The analysis also showed that 17 proteins were altered by the effect of the stress combination and as well as heat stress, 14 increased expression and 2 were found only in the stress combination. Thus, our results suggest that the stresses combination should be considered as a new state of abiotic stress in plants, and not only as a combination of abiotic factors Anacardium occidentale estresse hÃdrico estresse tÃrmico padrÃes protÃicos Anacardium occidentale drought stress heat stress proteins patterns BIOQUIMICA
66	Expressão de genes ortólogos relacionados à tolerância à seca em arroz / Expression of orthologs genes related to drought tolerance in rice Abreu, Fernanda Raquel Martins 04 April 2014 (has links) Submitted by Cláudia Bueno (claudiamoura18@gmail.com) on 2016-04-05T19:37:55Z No. of bitstreams: 2 Dissertação - Fernanda Raquel Martins Abreu - 2014.pdf: 2480777 bytes, checksum: f8c50ff359945dffab56d7874ad25086 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-04-06T11:34:39Z (GMT) No. of bitstreams: 2 Dissertação - Fernanda Raquel Martins Abreu - 2014.pdf: 2480777 bytes, checksum: f8c50ff359945dffab56d7874ad25086 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2016-04-06T11:34:39Z (GMT). No. of bitstreams: 2 Dissertação - Fernanda Raquel Martins Abreu - 2014.pdf: 2480777 bytes, checksum: f8c50ff359945dffab56d7874ad25086 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2014-04-04 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Drought, a major problem concerning a sustainable rice production in Brazil and worldwide, is responsible for a series of plant responses, including modification in gene expression, accumulation of metabolites and protein synthesis. In order to verify the correspondence between five Arabidopsis genes (PLDα1, LEW2, GluR2, Lsi1 e EIN2), previously related to drought tolerance, and their respective orthologs in rice, the present study analyzed two contrasting rice genotypes for drought, Douradão, the tolerant genotype, and Primavera, the susceptible one. The genotypes were submitted to drought stress and subsequently evaluated for gene expression by quantitative real-time Polymerase Chain Reaction (qPCR). The comparison of gene expression, between leaf and root tissues, showed a greater expression in roots, within their vegetative stage, and leaves, within their reproductive stage. Differential expression were observed mainly among the genes whose orthologs in Arabidopsis encode phospholipase Dα1 (PLDα1) and ethylene-insensitive protein (EIN2); these proteins are directly related to abscisic acid (ABA), a phytohormone that when identified in higher concentration in cells triggers the expression of drought stress-responsive genes, besides it is also responsible for the regulating the water loss (by transpiration) by controlling of stomatal movement. The results suggested that orthologs genes were in fact drought stress-responsive genes in rice, and emphasized the feasibility of PLDα1 and EIN2 overexpression in rice plants, supporting plant breeding programs in the development of drought tolerant genotypes. / A seca, um dos principais problemas para a sustentabilidade do cultivo de arroz no Brasil e no mundo, é responsável por uma série de respostas em plantas, incluindo mudanças na expressão gênica, acúmulo de metabólitos e síntese de proteínas. No intuito de verificar a correspondência entre cinco genes de Arabidopsis (PLDα1, LEW2, GluR2, Lsi1 e EIN2), previamente relacionados com a tolerância à seca, e seus respectivos genes ortólogos em arroz, o presente estudo analisou dois genótipos de arroz contrastantes no nível de tolerância à seca, Douradão, genótipo tolerante, e Primavera, genótipo susceptível. Os genótipos foram submetidos a experimento de seca e posterior avaliação de expressão gênica via PCR quantitativa em tempo real, qPCR (real time quantitative-Polimerase Chain Reaction). Ao se comparar os níveis de expressão entre os tecidos foliar e radicular, desses genótipos, foi observado, de uma forma geral, que houve maior expressão em raízes no estádio vegetativo e em folhas no estádio reprodutivo. Níveis diferenciais de expressão entre os genótipos foram observados principalmente para os genes ortólogos responsáveis por produzir fosfolipase Dα1 (PLDα1) e proteína etileno insensitiva (EIN2); estes produtos estão diretamente relacionados ao ácido abscísico (ABA), um fito hormônio induzido por estresse de seca que, quando em alta concentração nas células, além de acionar a expressão de muitos genes, desempenha um papel vital na regulação da perda de água por transpiração ao controlar os movimentos estomáticos. Os resultados apresentados nesta pesquisa sugeriram que os genes ortólogos estariam de fato atuando em resposta à tolerância à seca em arroz, e reforçaram a hipótese de que a superexpressão desses genes, em especial, PLDα1 e EIN2, pode auxiliar programas de melhoramento genético de arroz no desenvolvimento de cultivares mais tolerantes à seca. ABA Arabidopsis Genes de referência Genes responsivos à seca qPCR ABA Arabidopsis Drought stress-responsive genes qPCR Reference genes. CIENCIAS AGRARIAS::AGRONOMIA
67	Analysis of Vegetation Vulnerability Dynamics and Driving Forces to Multiple Drought Stresses in a Changing Environment Wei, Xiaoting, Huang, Shengzhi, Huang, Qiang, Liu, Dong, Leng, Guoyong, Yang, Haibo, Duan, Weili, Li, Jianfeng, Bai, Qingjun, Peng, Jian 15 January 2024 (has links) Quantifying changes in the vulnerability of vegetation to various drought stresses in different seasons is important for rational and effective ecological conservation and restoration. However, the vulnerability of vegetation and its dynamics in a changing environment are still unknown, and quantitative attribution analysis of vulnerability changes has been rarely studied. To this end, this study explored the changes of vegetation vulnerability characteristics under various drought stresses in Xinjiang and conducted quantitative attribution analysis using the random forest method. In addition, the effects of ecological water transport and increased irrigation areas on vegetation vulnerability dynamics were examined. The standardized precipitation index (SPI), standardized precipitation-evapotranspiration index (SPEI), and standardized soil moisture index (SSMI) represent atmospheric water supply stress, water and heat supply stress, and soil water supply stress, respectively. The results showed that: (1) different vegetation types responded differently to water stress, with grasslands being more sensitive than forests and croplands in summer; (2) increased vegetation vulnerability under drought stresses dominated in Xinjiang after 2003, with vegetation growth and near-surface temperature being the main drivers, while increased soil moisture in the root zone was the main driver of decreased vegetation vulnerability; (3) vulnerability of cropland to SPI/SPEI/SSMI-related water stress increased due to the rapid expansion of irrigation areas, which led to increasing water demand in autumn that was difficult to meet; and (4) after ecological water transport of the Tarim River Basin, the vulnerability of its downstream vegetation to drought was reduced. info:eu-repo/classification/ddc/551 ddc:551
68	Pre-harvest sprouting tolerance in hard white winter wheat Pisipati, Sudha R. January 1900 (has links) Master of Science / Department of Agronomy / P. V. Vara Prasad / In many countries producers have been growing varieties of hard white winter (HWW) wheat since decades. The cause of concern is most varieties of HWW wheat are susceptible to pre-harvest sprouting (PHS) which affects grain quality. Environmental conditions like high humidity, precipitation, heavy dew and hormonal activity at physiological maturity stimulate PHS in HWW. To alleviate these conditions research was carried out at KSU. KS01HW163-4, a sprouting tolerance line was crossed with Heyne, a sprout susceptible cultivar. A total of 224 doubled haploid (DH) lines thus produced were phenotyped in the present study through experiments conducted in controlled environments. The objectives of this research were to (i) characterize and phenotype the doubled haploid lines for PHS in controlled environments; (ii) understand the impact of growth environment (high temperature and/or drought) and; (iii) impact of exogenous application of growth hormones on tolerance to pre-harvest sprouting in the parental lines of the doubled haploid population. The phenotypic data collected from this research will be ultimately combined with the genotypic data to identify DNA markers related to PHS tolerance and provide DNA markers for marker assisted selection. Based on my results of the germination percentages from the 224 DH lines, the population was distributed as susceptible, and tolerant to PHS showing a bimodal distribution and X[superscript]2 analysis indicating a complimentary gene action. From the study of the influence of environmental factors on PHS, my results confirmed a definite influence of stress on sprouting. Under optimum temperature (OT), KS01HS163-4 was tolerant to PHS, but at HT and/or drought it became susceptible to PHS. Growth under stressed conditions changed the tolerance levels to PHS. Seed dry-weight, and harvest index were also influenced negatively due to stress. Therefore multi-location tests must be conducted with variable environments to test the stability of a variety to PHS. From the study of the influence of phytohormones on PHS, the results suggest that tolerance to sprouting was seen in seeds from plants sprayed with abscisic acid (ABA) and paclobutrazol (GA-inhibitor) treatments where as those from gibberellic acid (GA) treatment showed susceptibility to sprouting. Hard white winter wheat Preharvest sprouting tolerance Heat/Drought stress Gibberellic Acid (GA) Abscisic Acid (ABA) Phytohormone Agriculture, Agronomy (0285) Agriculture, General (0473) Biology, Plant Physiology (0817)
69	Effects of tree species diversity and soil drought on productivity, water consumption and hydraulic functioning of five temperate broad-leaved tree species Lübbe, Torben 15 July 2015 (has links) No description available. 570 Biodiversity Tree species richness Transpiration Forest growth hydraulic functioning physiological adjustment drought stress leaf hydration wood anatomy vulnerability to cavitation xylem embolism Biologie (PPN619462639)
70	Climate response of above- and belowground productivity and allocation in European beech Müller-Haubold, Hilmar 16 July 2014 (has links) Die Rotbuche (Fagus sylvatica L.) ist die bestimmende Baumart der potentiell natürlichen Vegetation in den Wäldern Mittel- und Westeuropas die ökonomisch bedeutsamste Laubbaumart Deutschlands. Obwohl diese spät-sukzessionelle Baumart über eine hohe physiologische Toleranz gegenüber einem weiten Spektrum klimatischer Wuchsbedingungen verfügt, wird die Buche gegenüber anderen temperaten Laubbaumarten als relativ trockensensitiv eingeschätzt. Da im Zuge des globalen Klimawandels mit einer Verschlechterung der klimatischen Wasserbilanz und mit einer Zunahme sommerlicher Trockenperioden gerechnet wird, wird die zukünftige Rolle der Rotbuche in der europäischen Forstwirtschaft derzeit intensiv diskutiert. Diese Studie hatte zum Ziel, hydrologische und klimatische Einflüsse auf die Produktivität und die Vitalität der Rotbuche zu untersuchen. Hierdurch sollen grundlegende Mechanismen der Trockenstressantwort bei dieser trocken-sensitiven Art identifiziert, und Rückschlüsse auf zukünftige Klimaantworten von Buchenbeständen ermöglicht werden. Zu diesem Zweck wurde die ober- und unterirdische Biomasseproduktion von 12 Buchenaltbeständen im Norddeutschen Tiefland entlang eines natürlichen Niederschlagsgradienten (543-816 mm a-1) auf einheitlichem geologischen Substrat ermittelt. Um den zusätzlichen Einfluss der Wasserspeicherkapazität der Böden zu berücksichtigen, wurden Paare von Buchenbeständen untersucht, die unter nahezu identischen klimatischen Bedingungen, jedoch auf Böden unterschiedlicher Textur (sandige versus lehmig-sandige Böden) stockten. Einflüsse der Wasserverfügbarkeit und klimatischer Variationen auf das Wachstum wurden untersucht unter Berücksichtigung (i) der gesamten ober- und unterirdischen Biomasseproduktion, (ii) der Dynamik von Ressourcen-Allokation und Kohlenstoff-Partitionierung, sowie (iii) der Morphologie wasseraufnehmender und -abgebender Oberflächen. Unerwarteterweise zeigte sich die gesamte Produktivität von Buchen-Altbeständen nur geringfügig von Veränderungen der hydrologischen Regime entlang des Gradienten beeinflusst. Trotz deutlicher Unterschiede in der jährlichen Wasserverfügbarkeit nahmen die oberirdische und die gesamte Biomasseproduktion auf den trockeneren Flächen des Transektes nicht ab. Allerdings führten ausgeprägte früh-sommerliche Wasserdefizite (in den Monaten Juni und Juli) zu deutlichen Einbußen der oberirdischen Biomasseproduktion, und insbesondere der Stammholzproduktion. Entlang des untersuchten Gradienten konnte eine ausgeprägte, kontinuierliche Verschiebung der Allokationsmuster festgestellt werden: Mit abnehmender Wasserverfügbarkeit nahm die Feinwurzelproduktion zu und das Verhältnis von oberirdischer:unterirdischer Biomasseproduktion ab. Anders als oberirdische Komponenten zeigte die Feinwurzelproduktion eine hohe Sensibilität gegenüber Unterschieden hinsichtlich hydrologischer Regime. In Übereinstimmung mit der Optimalitätstheorie der pflanzlichen Ressourcennutzung konnte dieses Allokationsverhalten in sowohl in Reaktion auf veränderte Niederschläge, als auch in Antwort auf auch veränderte Wasserspeicherkapazitäten beobachtet werden. Allokative Anpassungsmechanismen an Wassermangel wurden im Feinwurzelbereich zusätzlich durch morphologische Plastizität (Zunahme im Verhältnis von Oberfläche: Biomasse) und durch Regulierung der räumlichen Verteilung (zunehmende Konzentrierung von Feinwurzeln in der organischen Auflage) komplementiert. Im Gegensatz zu diesen komplexen unterirdischen Trockenheits-Antworten konnten keinerlei Anpassungen der Blattmorphologie an veränderte hydrologische Bedingungen festgestellt werden. Neben Reaktionen auf Wasserverfügbarkeit wurde die Fruchtbildung als zweiter wesentlicher Einfluss auf das Allokationsverhalten der Buche erkannt. Eine deutliche Ressourcen-Allokation zu Gunsten der Fruchtentwicklung beeinträchtigte maßgeblich das oberirdische vegetative Wachstum, insbesondere den Stammholzzuwachs. Auf Grund einer hohen Attraktionsstärke der Früchte gegenüber C und N führte zunehmende Fruktifizierung auch zu einer Gewichts- (und Größen-) Abnahme der Einzelblätter und somit zu reduzierter Bildung von Blattmasse und Bestandesblattfläche (LAI). Neben dieser Abnahme an assimilierender Blattoberfläche führte auch eine deutliche Senkung der Blatt-Stickstoffgehalte in Folge der reproduktiven Ressourcenwidmung mutmaßlich zu einer Verschlechterung der C-Bilanz, sowohl im Mast- als auch im Folgejahr. Eine Analyse klimatischer Einflussfaktoren auf das Mastverhalten legt nahe, dass die Blütenbildung der Buche durch Überschreitung eines Schwellenwertes der Kohlenstoffassimilation im Frühsommer (Juni-Juli) induziert wird. Sofern diese Schlüsse zutreffen, unterliegt das zeitliche Muster der Fruktifikations-Antwort auf Witterungsauslöser einer Rückkopplungskontrolle durch pflanzliche Stickstoff-Dynamik. Vor dem Hintergrund anhaltend erhöhter Stickstoffdepositionen ergäbe sich aus diesem Mechanismus eine zusätzliche Belastung für das zukünftige vegetative Wachstum der Buche. Es ist anzunehmen, dass die in dieser Studie belegte hohe allokative Plastizität in Altbäumen Fagus sylvatica dazu befähigt, ihre hohe Konkurrenzkraft in einem breiten Spektrum hydrologischer Regime zu entfalten. Darüber hinaus werden die hier dargestellten Mechanismen einer langfristigen Trockenheitsanpassung mutmaßlich zu einer gesteigerten Resistenz und Resilienz von Buchen-Altbeständen gegenüber Ereignissen extremer Sommertrockenheit beitragen. 570 Fagus sylvatica plant–climate interactions net primary production drought stress carbon allocation shift precipitation gradient study resource dynamics climatic masting cues reproductive ecology Biologie (PPN619462639)

Search results