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Showing 11 to 20 of 21 (0.096 seconds)Spelling suggestions: "subject:"tre improvement""
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Comportamento de clones de eucalipto em resposta a disponibilidade hídrica e adubação potássicaMendes, Hélio Sandoval Junqueira [UNESP] 15 February 2011 (has links) (PDF)
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mendes_hsj_me_jabo.pdf: 731818 bytes, checksum: c05e33da45557d9dcf34ed4a5e86509b (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O trabalho objetivou avaliar o efeito do suprimento de potássio no desempenho de clones de eucalipto submetidos a duas condições de disponibilidade hídrica em casa de vegetação utilizando características biométricas e fisiológicas. Cinco genótipos de eucalipto foram submetidos a dois níveis de adubação potássica (K0 – sem complementação potássica e K1 – adição de 166 mg.dm-3 de K) e a dois regimes de irrigação (RI1 – irrigação diária, até o solo atingir 60% dos poros preenchidos com água (PPA), ou seja, plantas sem restrição hídrica, e RI2 - plantas irrigadas até o solo atingir 60% PPA, com posterior suspensão da irrigação, até o aparecimento de sintomas iniciais de deficiência hídrica). Foram conduzidos sete ciclos de suspensão de irrigação, sendo a quantidade de água reposta em cada vaso determinada pelo método gravimétrico. No início e ao final do experimento, foram avaliados o diâmetro do coleto, a altura, o número de folhas, a área foliar e a massa de matéria seca de folhas, caule, raízes, da parte aérea e total. Nos momentos de máximo estresse hídrico, foram avaliadas as seguintes características fisiológicas: teor relativo de clorofila total (ICC), medida da eficiência quântica do fotossistema II (Fv/Fm), taxa de assimilação líquida (A), condutância estomática (gs), taxa de transpiração (E), eficiência intrínseca do uso da água (EUAintr=A/E), eficiência instantânea do uso da água (EUAinst=A/gs), conteúdo relativo de água (CRA) e, ao final do experimento foi determinado o potencial hídrico foliar ( f). O experimento foi estabelecido no delineamento de blocos ao acaso, em esquema fatorial 5 x 2 x 2 (5 genótipos, 2 regimes de irrigação e 2 níveis de adubação potássica), com cinco repetições por tratamento. As médias de tratamentos foram comparadas pelo teste de Tukey a 5% de probabilidade... / The present study aimed to evaluate the supply potassium effect on the performance of the five eucalypt clones subjected to two water availability conditions in greenhouse from biometric and physiological traits. Five eucalypt genotypes were subjected to two levels of potassium supply (K0 – no potassium supplementation and K1 – addition of 166 mg dm-3 K) and two irrigation regimes (RI1- daily irrigation until the soil reaches 60% of pores filled with water (PFW), that is plants no water restriction, and RI2 – plants watered until the soil reaches 60% (PFW), with subsequent water suspension until the appearance of early water stress symptoms). Seven cycles of irrigation suspension were conducted, and the amount water replaced in each pot was determined by gravimetric method. At the beginning and the end of the experiment, were measured the collar diameter, height, leaf number, leaf area and dry weight mass of leaves, stems, roots, aerial parts and total. In the moment of maximum water stress were evaluated the following physiological traits: the chlorophyll content index (CCI), the quantum efficiency of photosystem II (Fv/Fm), net assimilation rate (A), stomatal conductance (gs), transpiration (E), intrinsic water use efficiency (WUEintr = A/E) and instantaneous water use efficiency (WUEinst = A/gs), relative water content (RWC) and at the end of the experiment was determined the leaf water potential ( f). The design experiment was established in the randomized blocks in factorial scheme 5 x 2 x 2 (5 genotypes, two irrigation regimes and two levels of potassium supplies), with five replicates. The treatment means were compared by Tukey test at 5% probability. Eucalypt clones present reduction in the biometric and physiological traits values under water limitations. For the physiological traits, the potassium supply caused effect reduction of the water stress. To the biometric... (Complete abstract click electronic access below)
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Steps Toward Butternut (Juglans cinerea L.) RestorationBrosi, Sunshine L. 01 August 2010 (has links)
Butternut (Juglans cinerea L.), a lesser-known relative of black walnut (Juglans nigra L.), is a native tree species beneficial for wildlife, valuable for timber, and part of the great diversity of species in the eastern forests of North America. Populations of butternut are being devastated by butternut canker disease, caused by the fungus Sirococcus clavigignenti-juglandacearum (V.M.G. Nair, Kostichka, & Kuntz), which is thought to be introduced to North America. The disease causes multiple branch and stem cankers that eventually girdle trees. Small population sizes, lack of sprouting, and shade intolerance exacerbates the disease and results in permanent losses of butternut across the native range. Fortunately, healthy, canker-free butternut trees have been found proximal to diseased trees, indicating that a breeding approach could be a feasible strategy for producing and reintroducing resistant butternuts. A successful restoration program will require an understanding of genetic variation in open-pollinated seedlings, genetic basis of disease resistance, seedling establishment procedures, site requirements, and a greater understanding of disease development over time.
This dissertation is divided into six parts, with the overall goal of insight into butternut ecology and management techniques which could be used to guide restoration decisions for this important species. The first two parts are an introduction and a literature review. In the third section, butternut seedlings were propagated in nursery progeny plantings to determine the genetic and phenotypic variability among one-year-old seedlings in a controlled environment. Part four outlines the disease development of butternut seedlings across progeny in resistance screening plantings at various locations. Part five aims at aiding restoration techniques by determining the impact of phenotypic and genetic variables on establishment success across various planting sites with different silvicultural treatments. Part six describes the dynamics of a large population of healthy and diseased butternut trees including disease development across temporal scales. The information gained from this research will be directly used in gene conservation strategies, the construction of disease resistant breeding orchards, and in determining appropriate restoration techniques.
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Comportamento de clones de eucalipto em resposta a disponibilidade hídrica e adubação potássica /Mendes, Hélio Sandoval Junqueira. January 2011 (has links)
Resumo: O trabalho objetivou avaliar o efeito do suprimento de potássio no desempenho de clones de eucalipto submetidos a duas condições de disponibilidade hídrica em casa de vegetação utilizando características biométricas e fisiológicas. Cinco genótipos de eucalipto foram submetidos a dois níveis de adubação potássica (K0 - sem complementação potássica e K1 - adição de 166 mg.dm-3 de K) e a dois regimes de irrigação (RI1 - irrigação diária, até o solo atingir 60% dos poros preenchidos com água (PPA), ou seja, plantas sem restrição hídrica, e RI2 - plantas irrigadas até o solo atingir 60% PPA, com posterior suspensão da irrigação, até o aparecimento de sintomas iniciais de deficiência hídrica). Foram conduzidos sete ciclos de suspensão de irrigação, sendo a quantidade de água reposta em cada vaso determinada pelo método gravimétrico. No início e ao final do experimento, foram avaliados o diâmetro do coleto, a altura, o número de folhas, a área foliar e a massa de matéria seca de folhas, caule, raízes, da parte aérea e total. Nos momentos de máximo estresse hídrico, foram avaliadas as seguintes características fisiológicas: teor relativo de clorofila total (ICC), medida da eficiência quântica do fotossistema II (Fv/Fm), taxa de assimilação líquida (A), condutância estomática (gs), taxa de transpiração (E), eficiência intrínseca do uso da água (EUAintr=A/E), eficiência instantânea do uso da água (EUAinst=A/gs), conteúdo relativo de água (CRA) e, ao final do experimento foi determinado o potencial hídrico foliar ( f). O experimento foi estabelecido no delineamento de blocos ao acaso, em esquema fatorial 5 x 2 x 2 (5 genótipos, 2 regimes de irrigação e 2 níveis de adubação potássica), com cinco repetições por tratamento. As médias de tratamentos foram comparadas pelo teste de Tukey a 5% de probabilidade... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The present study aimed to evaluate the supply potassium effect on the performance of the five eucalypt clones subjected to two water availability conditions in greenhouse from biometric and physiological traits. Five eucalypt genotypes were subjected to two levels of potassium supply (K0 - no potassium supplementation and K1 - addition of 166 mg dm-3 K) and two irrigation regimes (RI1- daily irrigation until the soil reaches 60% of pores filled with water (PFW), that is plants no water restriction, and RI2 - plants watered until the soil reaches 60% (PFW), with subsequent water suspension until the appearance of early water stress symptoms). Seven cycles of irrigation suspension were conducted, and the amount water replaced in each pot was determined by gravimetric method. At the beginning and the end of the experiment, were measured the collar diameter, height, leaf number, leaf area and dry weight mass of leaves, stems, roots, aerial parts and total. In the moment of maximum water stress were evaluated the following physiological traits: the chlorophyll content index (CCI), the quantum efficiency of photosystem II (Fv/Fm), net assimilation rate (A), stomatal conductance (gs), transpiration (E), intrinsic water use efficiency (WUEintr = A/E) and instantaneous water use efficiency (WUEinst = A/gs), relative water content (RWC) and at the end of the experiment was determined the leaf water potential ( f). The design experiment was established in the randomized blocks in factorial scheme 5 x 2 x 2 (5 genotypes, two irrigation regimes and two levels of potassium supplies), with five replicates. The treatment means were compared by Tukey test at 5% probability. Eucalypt clones present reduction in the biometric and physiological traits values under water limitations. For the physiological traits, the potassium supply caused effect reduction of the water stress. To the biometric... (Complete abstract click electronic access below) / Orientador: Rinaldo Cesar de Paula / Coorientadora: Nádia Figueiredo de Paula / Banca: Mara Cristina Pessôa da Cruz / Banca: Miguel Luiz Menezes Freitas / Mestre
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MORPHO-PHYSIOLOGICAL AND GENOMICS ANALYSES REVEAL ADAPTATIONS OF HARDWOOD TREES TO ABIOTIC STRESSORSAziz Ebrahimi (14210135) 06 December 2022 (has links)
<p> </p>
<p>Rapid climate change on a global scale is posing a considerable threat to forest biodiversity. Assessing physiological and genomic backgrounds of each tree is crucial for informing conservation and mitigation strategies to evaluate species or populations' vulnerability and adaptive capacity under climate change. The goal of my dissertation research was to use morpho-physiological and molecular approaches in combination with genomic background, as a backbone knowledge for enhancing the restoration and conservation of different hardwood tree species. The same approaches also led to a better understanding of mitigation strategies of tree species to evaluate their vulnerability and adaptability under climate change. To do so, the native <em>Juglans</em> species (<em>J. cinerea</em> and <em>J. nigra</em>), local species (Arizona walnut<em>; J. major, </em>California walnut; <em>J. hindsii</em>), exotic species (Persian walnut, <em>J. regia</em>) and its F1 interspecific hybrids were used as a case study to evaluate the level of cold hardiness in <em>Juglans</em>. Hybridization can integrate biotic and abiotic tolerance in plants and could be a potential forest restoration and conservation tool. Evidence from past studies in some F1 interspecific hybrids indicates that naturalized hybrids of Persian walnut with black walnut or butternut have higher level of tolerance to lower temperature than Persian walnut. The potential cold tolerance of native, local, exotic <em>Juglans</em> species and F1 interspecific hybrid using field, electrolyte leakage, qPCR, and genome analysis was investigated, and results presented in chapter 2. Differences in cold hardiness were observed in tested <em>Juglans</em> species, <em>J. regia</em> as an exotic species and <em>J. major</em> from Arizona maladapted in West Lafayette, Indiana. No sign of cold damage was observed in F1 interspecific hybrids or native species. Using morpho-physiological, molecular, and genome data, we confirmed that molecular and morpho-physiological data were highly correlated and thus can be used to characterize cold hardy trait in <em>Juglans</em> species. </p>
<p>Although the native <em>Juglans</em> species are cold tolerant, with current trend of climate change and rapid tree migration to the northern range, it is not easy to predict how <em>Juglans</em> species may adapt to new environments and response to other biotic and abiotic stresses in future. A reference-genome assembly for nuclear and chloroplast genomes and cold hardy genes is presented in chapter 3. We used re-sequence genomes of 170 individuals collected from 20 <em>Juglans</em> species and <em>Carya</em> (as an outgroup) of the Juglandaceae family distributed in temperate-tropical forests of America and Asia. We integrate genome and temperature variables to identify a set of associated single-nucleotide polymorphisms (SNP), structural variations, and the geographical distribution of the variants in the genes related to local adaptation of <em>Juglans</em> across latitudes. Phylogeny analyses revealed that <em>Juglans</em> species were sorted based on their origin using the nuclear genome, cold-hardy genes, and organellar genome. <em>Juglans regia</em>, a native species of Asia and Europe, was distinct from other species and exhibited less genetic diversity than <em>Juglans</em> spp. of North America, based on whole genome and cold-hardy gene analysis. We identified the black walnut as a more diverse species and the California walnut and Persian walnut (<em>J. regia</em>) as less diverse species using selective sweep and heterozygosity analysis. Within <em>Juglans </em>species, those from colder areas exhibited higher diversity of cold hardy genes compared to the ones from warmer regions. Differences in genetic diversity among continents and latitudes did not follow a clear trend. Still, the level of gene diversity of <em>Juglans</em> from North America is higher than the species that originated in eastern Asia. We can use 65,000 nuclear SNPs variants in an ecological modeling system to predict genetic diversity and spatiotemporal shift of <em>Juglans</em> species in response to future climate change. These SNPs variants are helpful for forest tree breeding programs with aims such as marker-assisted selection (MAS), conservation or assisted migration in future. </p>
<p>Based on the findings of chapter 2 and 3, black walnut is the most diverse species with high genetic diversity in comparison with other <em>Juglans</em> species distributing across eastern forest of the USA. However, deeper knowledge of how this genetically diverse species will be affected by climate change is crucial. In chapter 3, we projected black walnut's current and future basal area. Utilizing machine learning, we tested different models using more than 1.4 million tree records from 10,162 Forest Inventory and Analysis (FIA) sample plots and 42 spatially explicit bioclimate and other environmental attributes. Ultimately, we used random forests (RF) model to estimate the basal area of black walnut under climate change. The mean of annual temperature and precipitation, potential evapotranspiration, topology, and human footprint were the most significant variables in prediction of basal area. Under two emission scenarios (Representative Concentration Pathway 4.5 and 8.5), the RF model projected that black walnut stocking will increase in the northern part of the current range in the USA by 2080, with a potential shift of species distribution range. However, uncertainty remains due to unpredictable events, including extreme abiotic (heat, drought) and biotic (pests, disease) occurrences. Our models can be adapted to other hardwood tree species to predict tree changes in the basal area based on future climate scenarios. </p>
<p>A similar approach of chapter 2, with a slightly different freeze test (whole plant freezing test) and use of cold-acclimated seedling was used in chapter 4. For cold acclimation, seedlings exposed to air temperatures progressively lowered for eight weeks (from 25.6/22.2 ºC to 8/4 ºC, day/night) and non-acclimated seedlings from sea level to 2,300 m, in tropical Hawaiʻi, USA to evaluate cold tolerance of koa. We also investigated gene expression using qPCR and wideseq sequencing in this study. Freezing tolerance varied significantly in non-acclimated versus cold-acclimated treatments across the elevation cline using the whole plant physiology-freezing test and gene expression. The level of freezing tolerance and the elevation at which seeds were collected were consistent with the frequency of freezing tolerance genes to facilitate variation interpretation in cold-hardy phenotypes. Findings of physiology and molecular data analysis for freezing tolerance of koa across the elevation gradient of the Hawaiian Islands provides insight into natural selection processes and will help to support forest restoration efforts. </p>
<p> </p>
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Disease resistance and productivity in genetically improved loblolly pine: Results from a resistance screening trial and a midrotation comparison of genetic improvement levelsGoodfellow, Stephen W. 09 December 2022 (has links)
Decades of tree improvement has resulted in genetic gains in loblolly pine productivity, form, and resistance to fusiform rust. The goal of this study was to advance the understanding and applied use of genetic improvement by analyzing inter- and intra-provenances hybrids’ rust resistance and evaluating midrotation performance of varying levels of genetically improved stock types. The first study compares 16 seedlots at the USDA Resistance Screening Center and evaluates rust resistance of controlled-pollinated inter- and intra-provenances crosses, and openpollinated seedlots from three provenances: Western Gulf, Atlantic Coastal, and Interior Piedmont. Post inoculation, one Coastal OP seedlot was resistant and ten of the seedlots were susceptible to the disease. The second study compares three levels of improved stock types: second-generation open-pollinated, controlled pollinated, and varietal material. After the fifteenth growing season, all three improved stock types were not significantly different from one another in defects, height, diameter, volume, and exhibited site index.
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EFFECTS OF COMPETITION, NICHE COMPLEMENTARITY, AND ENEMY ATTACK ON SPECIES CO-EXISTENCE AND PRODUCTIVITYKliffi Blackstone (16650540) 04 August 2023 (has links)
<p>Here, we seek to address the importance of biodiversity in plant ecosystems. We examined the productivity-diversity relationship through the lens of the modern coexistence theory, using a combination of both experimentation and mathematical simulation. We did this by tracking and comparing the productivity of mixed and monoculture plots, analyzing the growth responses of individual trees at forest plots (Chapter 1), confirming the productivity-diversity relationship in a greenhouse experiment using local herbaceous plants (Chapter 2), and finally simulating the productivity response of monoculture vs polyculture plantations to specialist enemy attack (Chapter 3).</p><p>It is no surprise that biodiversity has been decreasing at an exponential rate on the global scale because of effects such as habitat fragmentation, invasive species, spreading pathogens, and anthropogenic influences. Ecologists often found that plants in more species rich locations often exhibited higher productivity and stability in the face of stress. One such phenomenon is known as the productivity diversity relationship that implies biodiversity is key to sustaining ecosystems. Notably, while efforts are being put forth to address ecosystem destruction, much of the current tree planting strategy in the USA is based on timber profit rather than forest productivity and species coexistence with tree biology often being a secondary consideration. These thought processes are in opposition with historical experiments that indicate polyculture communities create more biomass making them significantly more productive than monocultures. However, we also acknowledge that it is not simply biodiversity that must be taken into consideration for a productive ecosystem but also species interaction through coexistence indicate whether or not a community will persevere. These interactions can be addressed using the modern coexistence theory which depends on these complementarity and fitness similarities for species to coexist through time. Here, we seek to address the importance of biodiversity in plant ecosystems. We examined the productivity-diversity relationship through the lens of the modern coexistence theory, using a combination of both experimentation and mathematical simulation. We did this by tracking and comparing the productivity of mixed and monoculture plots, analyzing the growth responses of individual trees at forest plots (Chapter 1), confirming the productivity-diversity relationship in a greenhouse experiment using local herbaceous plants (Chapter 2), and finally simulating the productivity response of monoculture vs polyculture plantations to specialist enemy attack (Chapter 3). Our research across the combination of approaches used found that species with overlapping niches and very different finesses will exclude one another due to high competition. Further, the productivity diversity correlation is necessary for ecosystem growth, but it is not sufficient for species coexistence. However, species can maintain this positive relationship despite a lack of coexistence if they maintain niche complementarity. Lastly, using a theoretic game model we were able to identify the impacts of a specialist pest on polyculture and monoculture forest. These results showed that a polyculture forest was more productive than that of a monoculture forest regardless of the presence of a specialist enemy. The results of the multiple threads of evidence found from these combined experiments indicate that while the productivity diversity correlation is important to ecosystems it is likely due to the impacts of niche complementarity that determine whether or not species will be productive within an ecosystem.</p>
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A Multidisciplinary Approach to Restoration of Butternut (Juglans cinerea)Andrea N Brennan (9390080) 16 December 2020 (has links)
<div>Anthropogenically driven global change is disrupting ecosystems and habitats of many plant species, straining the ability of native species to survive and reproduce. The overarching goal of this research was to holistically work towards restoration of a threatened tree species by connecting research from different disciplines. In order to do so, the threatened butternut tree (<i>Juglans cinerea</i>) and its hybrids were used as a case study. Hybridization can incorporate stress tolerance in plants and could be a potential restoration tool. Evidence in some wild butternut populations indicates that naturalized hybrids of butternut with Japanese walnut (<i>Juglans ailantifolia</i>) may be more tolerant to butternut canker disease (BCD) than butternut, but this has not been formally tested. Thus, chapter 2 examined potential BCD tolerance within and between unadmixed and hybrid butternut inoculated with two BCD fungal isolates. Differences in canker growth were observed by fungal isolate, which could help to explain some differences in BCD severity found among butternut populations. Smaller and fewer cankers and greater genetic gains were detected in hybrid families, demonstrating that hybrids warrant further evaluation as a possible breeding tool for developing BCD-resistant butternut trees.</div><div>However, even with increased disease tolerance, hybrids must possess similar ecophysiological tolerances to their native progenitor to be an effective replacement. Butternut is extremely cold hardy, but Japanese walnuts are native to a warmer ecosystem, indicating potential disparities in extreme temperature tolerances between the two species and their hybrids. Thus, samples from mature trees were subjected to cold and heat treatments to compare relative extreme temperature tolerances within butternut and between butternut, Japanese walnut, and their hybrids. Within butternut, trees from colder areas exhibited less cold damage than those from warmer areas. Differences in heat damage among provenances occurred but did not follow a clear trend. Butternut exhibited greatest cold tolerance, Japanese walnut exhibited greatest heat tolerance, and hybrids were intermediate. Thus, the utility of hybrids for restoration could be limited at the extremes of the species’ distributions.</div><div>A second, but different type of freeze test was conducted for chapter 4 using seedlings to gain a more nuanced understanding of cold tolerance within butternut and between butternut and its hybrids. No survival or damage differences were detected in butternut provenances, although seedlings from the coldest provenances experienced more delayed budbreak at the two warmest treatments than those from warmer provenances. Interspecific differences were not observed in dieback but were detected in survival and budbreak. The hybrids had greater survival than butternut from warmer provenances at the lowest temperature treatment (-38 °C), but given that temperatures that low are extremely unlikely to occur in those provenances, it is not anticipated to give the hybrids an advantage if planted in those areas. However, the hybrids’ earlier budbreak could limit the success of restoration with these hybrids in the coldest extents of butternut’s range. </div><div>If hybrids, as well as genetically modified (GM) trees, are successfully developed for effective disease tolerance and to serve as an ecologically suitable replacement, success of restoration using hybrids will ultimately depend on those directly responsible for replanting efforts. A survey was administered to land managers in 46 organizations in Indiana to gauge perceptions of hybrid and GM trees, as well as current use of hybrid trees. Land managers had stronger concern for ecological, rather than economic, issues. Agreement was highest for using hybrid and GM trees for “conservation and restoration of at-risk species”, “timber production”, and “non-timber products (fruit, syrup, etc.)”. However, perceptions varied by characteristics, such as concern type, age, and the type of land they managed. Ecological concern and the type of land being managed most strongly predicted current hybrid use. Overall, results indicate the majority of land managers in Indiana would likely be agreeable to recommendations towards using hybrids. However, most nonetheless had strong ecological concerns about their suitability as a native replacement. It is important to note, though, that consistent with the results of previous studies, great variation was seen within the performance and characteristics of the butternut hybrids in chapters 2-4. Thus, it may be possible with careful selection and breeding to harness this variation to develop disease tolerant and ecologically similar hybrids acceptable to land managers.</div>
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Trockenheitsreaktionen und holzanatomische Eigenschaften der Zitter-Pappel (Populus tremula L.) – Physiologie und QTL-Mapping / Water Deficit Reaction and Wood Anatomical Characteristics of European Aspen (Populus tremula L.) – Physiology and QTL-MappingMeyer, Matthias 10 June 2010 (has links) (PDF)
Holz aus Kurzumtriebsplantagen (KUP) mit Pappeln (Populus spp.) kann eine bedeutende Rolle im Mix der Bioenergieressourcen in Deutschland spielen. Trotz eines günstigen Energieinput-Energieoutput-Verhältnisses ist das Erreichen wirtschaftlich zufriedenstellender Ergebnisse mit KUP jedoch auf den meisten potenziellen Anbauflächen durch hohe Ansprüche der Pappeln an die Wasserversorgung erschwert. Hohe Produktivitätsraten der Pappeln sind an einen hohen Wasserverbrauch gebunden und viele Trockenheitsanpassungen führen zu deutlichen Ertragsrückgängen. In der vorgestellten Arbeit wurde eine sechsjährige Vollgeschwister-F1-Kartierungspopulation der Europäischen Zitter Pappel (Aspe, Populus tremula L., Wuchsperiode 1998-2003) physiologisch und genetisch untersucht, um mögliche Wege zu einer züchterischen Verbesserung der Trockenheitstoleranz von Pappeln diskutieren zu können. Dabei wurde das Zuchtziel der Trockenheitstoleranz als Minimierung der Ertragsrückgänge unter trockenen Bedingungen definiert.
Neben wuchsleistungsbezogenen Größen (Biomassegesamtleistung (BM, oberirdische Dendromasse), Biomassezuwachs (iBM), Radialzuwachs (ir), Baumhöhe (h)) wurden physiologisch holzanatomische Eigenschaften untersucht, die retrospektiv anhand der Jahrringe messbar sind und zur nicht direkt messbaren Eigenschaft der Trockenheitstoleranz in einer Beziehung stehen. Diese waren die Kohlenstoff- und Sauerstoffisotopsignatur (δ13C, δ18O), die Faser- und Gefäßgliedlänge (FL, GL), die Gefäßlumenquerschnittsfläche (AG), die Gefäßdichte (GD), der potenziell Saftstrom leitende Querschnittsflächenanteil (LQ), der hydraulisch gewichtete Gefäßlumendurchmesser (Dh) und die röntgendensitometrische Holzdichte (RD). Um trockenheitsbedingte physiologische Reaktionen vom Einfluss der Juvenilität der Kartierungspopulation unterscheiden zu können, wurden regionaltypische Juvenilitätstrends der RD, FL, GL, und des ir anhand eines zweiten, für das östliche Deutschland repräsentativen Aspen-Kollektivs aus natürlicher Sukzession ermittelt.
Bedingt durch Trockenheitsanpassungen bzw. eine bevorzugte Wurzelentwicklung nach dem Verpflanzen zeigte die Kartierungspopulation in den ersten drei Jahrringen Abweichungen von den regionaltypischen Juvenilitätstrends. In den Trendverläufen der Kartierungspopulation heben sich die beiden Trockenvegetationsperioden 2000 und 2003 ab, wobei bis zum Sommer 2003 infolge des Starkniederschlages 2002 (Flut) ein außergewöhnlich gutes Grundwasserangebot herrschte. Alle untersuchten phänotypischen Eigenschaften zeigten 2000 starke trockenheitsbedingte Abweichungen. Im Jahrring 2003 wichen nur die GL und die RD von ihren Juvenilitätstrends ab. Außerdem konnte anhand der δ13C und δ18O Werte eine signifikante Abnahme der Wassernutzungseffizienz bzw. eine Zunahme der Transpiration im Jahr 2003 gezeigt werden. Die übrigen Größen folgten ihren Juvenilitätstrends und stiegen an.
Die Jahrringdatensätze 2000 und 2003 der RD waren nicht signifikant mit der BM korreliert, dagegen zeigten die δ13C Datensätze 2002 und 2003 schwach positive Korrelationen mit der BM. Der trockenheitstoleranteste Genotyp verband seine überdurchschnittliche BM mit einer hohen Wassernutzungseffizienz (angezeigt durch überdurchschnittliche δ13C Werte), mit einer überdurchschnittlichen AG und mit einer nicht unterdurchschnittlichen RD in Höhe des Populationsmittels.
Aufgrund des Fehlens negativer Korrelationen zwischen BM und δ13C bzw. BM und RD in der vorliegenden Arbeit können δ13C und RD als nützliche Weiser für die Unterscheidung der Trockenheitstoleranz verschiedener Aspen zu züchterischen Zwecken vorgeschlagen werden. Außer der BM unter trockenen Bedingungen kann keine der untersuchten Eigenschaften als alleiniger Trockenheitstoleranzweiser empfohlen werden. Zu einer Trockenheitstoleranzbewertung sollten Merkmalspaare verwendet werden, von denen ein Merkmal positiv mit dem Ertrag korreliert ist und das andere eine Trockenheitsanpassung verkörpert. Dadurch werden sowohl das primäre Zuchtziel eines höchstmöglichen Ertrages als auch eine bessere Trockenheitsangepasstheit berücksichtigt.
Zwei verschiedene Trockenheitstoleranzindizierungen wurden angewendet, um die Kartierungsnachkommen entsprechend ihrer Trockenheitstoleranz einem Ranking zu unterziehen. Dabei wurden in beiden Fällen Bäume mit einem höheren Ertrag besser platziert.
Der zweite Schwerpunkt der Arbeit lag auf der genetischen Kartierung von Quantitative Trait Loci (QTL) für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz. Als Basis für das QTL Mapping wurden, der Pseudo-Testcross-Mapping-Strategie folgend, genetische Kopplungskarten für die Elternbäume der Kartierungspopulation konstruiert. Die maternale Karte (P. tremula, „Schandau 4“) deckte mit 157 Markern (144 AFLP, 13 SSR) in 30 Kopplungsgruppen 1.369 cM ab, die 21 paternalen Kopplungsgruppen mit 148 Markern (132 AFLP, 16 SSR) überspannten 1.079 cM des Genoms (P. tremula, „Lichtenhain 1“). Die im Vergleich zur haploiden Chromosomenzahl der Pappeln (19) hohen Zahlen an Kopplungsgruppen sowie die hohen Zahlen an Doublets und unkartierten Markern zeigten eine geringe Genomabdeckung an. So konnte nur eine begrenzte Zahl, höchstens zwei QTL für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz, kartiert werden.
Ein QTL Bereich mit pleiotropem Effekt auf mehrere wachstumsbezogene Größen wurde auf der maternalen Kopplungsgruppe 1 (dem Populus Chromosom I zuzuordnen) detektiert. Die Signifikanz der Effekte dieses QTL auf den Radialzuwachs entwickelte sich steigend mit zunehmendem Baumalter. / Wood production in short rotation coppices (SRC) with poplar (Populus spp.) can contribute significantly to the future bio energy supply mix in Germany. Although the energy-input to energy-output ratio is rather good, SRC often do not meet cost effectiveness due to high water demand of poplar species. High biomass productivity depends on optimal water supply. Also, numerous adaptations to water deficits result in an undesirable decrease of yield.
Combined physiological and genetic investigations were conducted within a six-year old F1-full-sib crossbred population of European aspen (Populus tremula L., growing period 1998-2003). Possible implications on selection, breeding or improvement of poplar cultivars showing a high tolerance to water deficits are discussed. For the work presented here, the breeding goal of higher water deficit tolerance was defined as the minimisation of yield losses under dry conditions.
Beyond growth related traits (aggregate yield (BM), aboveground woody biomass), biomass increment (iBM) and radial increment (ir), physiological and wood anatomical traits were included; these are related to reactions to water deficit and are measurable on tree rings retrospectively.
These traits were the Carbon- and Oxygen isotope ratios (δ13C, δ18O), the fibre length and vessel element length (FL, GL), the vessel lumen cross sectional area (AG), the vessel density (GD), the cumulative vessel lumen area to cross sectional area ratio (LQ), the hydraulically weighted mean vessel lumen diameter (Dh) and wood density assessed by X-ray densitometry (RD).
To distinguish the drought induced physiologic reactions from juvenile developmental patterns of the mapping population, juvenile trends of RD, FL, GL, and ir, which are representative of habitats in south-eastern Germany, were investigated in a second aspen collective that was selected from natural succession. During the first three years, the mapping population showed deviations from the juvenile trends due to water deficit adaptations or preferential root development, respectively. Due to drought in the growing seasons of 2000 and 2003, the juvenile trends show outstanding values for both years, although ground water supply in 2003 was exceptionally good following the intense rain event of 2002 (Elbe flood 2002). The tree ring traits of both years stand out from the juvenile trends due to drought adaptations.
In 2000, all phenotypic traits showed a significant deviation from their respective trends. In 2003, only GL and RD showed an adaptation to drought as observable by a deviation from their juvenile trends. A significant decrease in water use efficiency (WUE) and an increase in net transpiration, respectively, were shown for 2003 by means of δ13C or δ18O values. All other traits showed an increase following their juvenile trends.
RD data for 2000 and 2003 were not significantly correlated with BM, but δ13C data (and therefore WUE) for 2002 and 2003 revealed a weakly positive correlation with BM.
The genotype that was most tolerant to water deficits showed a combination of a superior growth with a superior WUE (by means of δ13C), a superior AG, and an RD close to but not less than the population average.
Due to the lack of negative correlation between BM and δ13C or BM and RD in the present work, δ13C and RD can be valuable proxies for the determination of drought tolerance of aspen trees for tree improvement purposes. Aside from BM under dry conditions, no other traits that were investigated can be recommended as a stand-alone proxy for water deficit tolerance. For a water deficit tolerance evaluation, pairs of traits should be used, of which one trait is positively correlated with yield and the other represents a water deficit adaptation. Both the primary breeding goal of the highest possible yield as well as a better water deficit tolerance should always be considered in this context.
Two different drought tolerance indices were used to rank the individuals of the mapping population according to their water deficit tolerance. In both cases, trees with higher BM were ranked better.
The second focus of the present work is on genetic mapping of Quantitative Trait Loci (QTL) for the investigated tree-ring traits that refer to water deficit reaction. As a basis for the QTL-mapping approach, genetic linkage maps were constructed for each parental tree of the F1-full-sib crossbred mapping-population following the two-way pseudo-testcross mapping strategy. The maternal map (P. tremula, “Schandau 4”) consisted of 157 markers (144 AFLP, 13 SSR) in 30 linkage groups and covered 1,369 cM. The 21 linkage groups of the paternal map (P. tremula, “Lichtenhain 1”) covered 1,079 cM of the genome (144 AFLP, 13 SSR). Compared with the haploid chromosome number (19) of the Populus genome, the high number of linkage groups, doublets and unlinked markers indicated low genome coverage. Only a low number of QTL was detected, maximal two per in¬vesti¬gated phenotypic trait with a relation to water deficit tolerance.
One QTL having a pleiotropic effect on several growth related traits was detected on the maternal linkage group 1 (corresponding to the Populus Chromosome I). The significance of the QTL effects seemed to increase with tree age.
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| 19 |
Trockenheitsreaktionen und holzanatomische Eigenschaften der Zitter-Pappel (Populus tremula L.) – Physiologie und QTL-Mapping / Water Deficit Reaction and Wood Anatomical Characteristics of European Aspen (Populus tremula L.) – Physiology and QTL-MappingMeyer, Matthias 09 August 2010 (has links) (PDF)
Holz aus Kurzumtriebsplantagen (KUP) mit Pappeln (Populus spp.) kann eine bedeutende Rolle im Mix der Bioenergieressourcen in Deutschland spielen. Trotz eines günstigen Energieinput-Energieoutput-Verhältnisses ist das Erreichen wirtschaftlich zufriedenstellender Ergebnisse mit KUP jedoch auf den meisten potenziellen Anbauflächen durch hohe Ansprüche der Pappeln an die Wasserversorgung erschwert. Hohe Produktivitätsraten der Pappeln sind an einen hohen Wasserverbrauch gebunden und viele Trockenheitsanpassungen führen zu deutlichen Ertragsrückgängen. In der vorgestellten Arbeit wurde eine sechsjährige Vollgeschwister-F1-Kartierungspopulation der Europäischen Zitter Pappel (Aspe, Populus tremula L., Wuchsperiode 1998-2003) physiologisch und genetisch untersucht, um mögliche Wege zu einer züchterischen Verbesserung der Trockenheitstoleranz von Pappeln diskutieren zu können. Dabei wurde das Zuchtziel der Trockenheitstoleranz als Minimierung der Ertragsrückgänge unter trockenen Bedingungen definiert.
Neben wuchsleistungsbezogenen Größen (Biomassegesamtleistung (BM, oberirdische Dendromasse), Biomassezuwachs (iBM), Radialzuwachs (ir), Baumhöhe (h)) wurden physiologisch holzanatomische Eigenschaften untersucht, die retrospektiv anhand der Jahrringe messbar sind und zur nicht direkt messbaren Eigenschaft der Trockenheitstoleranz in einer Beziehung stehen. Diese waren die Kohlenstoff- und Sauerstoffisotopsignatur (δ13C, δ18O), die Faser- und Gefäßgliedlänge (FL, GL), die Gefäßlumenquerschnittsfläche (AG), die Gefäßdichte (GD), der potenziell Saftstrom leitende Querschnittsflächenanteil (LQ), der hydraulisch gewichtete Gefäßlumendurchmesser (Dh) und die röntgendensitometrische Holzdichte (RD). Um trockenheitsbedingte physiologische Reaktionen vom Einfluss der Juvenilität der Kartierungspopulation unterscheiden zu können, wurden regionaltypische Juvenilitätstrends der RD, FL, GL, und des ir anhand eines zweiten, für das östliche Deutschland repräsentativen Aspen-Kollektivs aus natürlicher Sukzession ermittelt.
Bedingt durch Trockenheitsanpassungen bzw. eine bevorzugte Wurzelentwicklung nach dem Verpflanzen zeigte die Kartierungspopulation in den ersten drei Jahrringen Abweichungen von den regionaltypischen Juvenilitätstrends. In den Trendverläufen der Kartierungspopulation heben sich die beiden Trockenvegetationsperioden 2000 und 2003 ab, wobei bis zum Sommer 2003 infolge des Starkniederschlages 2002 (Flut) ein außergewöhnlich gutes Grundwasserangebot herrschte. Alle untersuchten phänotypischen Eigenschaften zeigten 2000 starke trockenheitsbedingte Abweichungen. Im Jahrring 2003 wichen nur die GL und die RD von ihren Juvenilitätstrends ab. Außerdem konnte anhand der δ13C und δ18O Werte eine signifikante Abnahme der Wassernutzungseffizienz bzw. eine Zunahme der Transpiration im Jahr 2003 gezeigt werden. Die übrigen Größen folgten ihren Juvenilitätstrends und stiegen an.
Die Jahrringdatensätze 2000 und 2003 der RD waren nicht signifikant mit der BM korreliert, dagegen zeigten die δ13C Datensätze 2002 und 2003 schwach positive Korrelationen mit der BM. Der trockenheitstoleranteste Genotyp verband seine überdurchschnittliche BM mit einer hohen Wassernutzungseffizienz (angezeigt durch überdurchschnittliche δ13C Werte), mit einer überdurchschnittlichen AG und mit einer nicht unterdurchschnittlichen RD in Höhe des Populationsmittels.
Aufgrund des Fehlens negativer Korrelationen zwischen BM und δ13C bzw. BM und RD in der vorliegenden Arbeit können δ13C und RD als nützliche Weiser für die Unterscheidung der Trockenheitstoleranz verschiedener Aspen zu züchterischen Zwecken vorgeschlagen werden. Außer der BM unter trockenen Bedingungen kann keine der untersuchten Eigenschaften als alleiniger Trockenheitstoleranzweiser empfohlen werden. Zu einer Trockenheitstoleranzbewertung sollten Merkmalspaare verwendet werden, von denen ein Merkmal positiv mit dem Ertrag korreliert ist und das andere eine Trockenheitsanpassung verkörpert. Dadurch werden sowohl das primäre Zuchtziel eines höchstmöglichen Ertrages als auch eine bessere Trockenheitsangepasstheit berücksichtigt.
Zwei verschiedene Trockenheitstoleranzindizierungen wurden angewendet, um die Kartierungsnachkommen entsprechend ihrer Trockenheitstoleranz einem Ranking zu unterziehen. Dabei wurden in beiden Fällen Bäume mit einem höheren Ertrag besser platziert.
Der zweite Schwerpunkt der Arbeit lag auf der genetischen Kartierung von Quantitative Trait Loci (QTL) für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz. Als Basis für das QTL Mapping wurden, der Pseudo-Testcross-Mapping-Strategie folgend, genetische Kopplungskarten für die Elternbäume der Kartierungspopulation konstruiert. Die maternale Karte (P. tremula, „Schandau 4“) deckte mit 157 Markern (144 AFLP, 13 SSR) in 30 Kopplungsgruppen 1.369 cM ab, die 21 paternalen Kopplungsgruppen mit 148 Markern (132 AFLP, 16 SSR) überspannten 1.079 cM des Genoms (P. tremula, „Lichtenhain 1“). Die im Vergleich zur haploiden Chromosomenzahl der Pappeln (19) hohen Zahlen an Kopplungsgruppen sowie die hohen Zahlen an Doublets und unkartierten Markern zeigten eine geringe Genomabdeckung an. So konnte nur eine begrenzte Zahl, höchstens zwei QTL für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz, kartiert werden.
Ein QTL Bereich mit pleiotropem Effekt auf mehrere wachstumsbezogene Größen wurde auf der maternalen Kopplungsgruppe 1 (dem Populus Chromosom I zuzuordnen) detektiert. Die Signifikanz der Effekte dieses QTL auf den Radialzuwachs entwickelte sich steigend mit zunehmendem Baumalter. / Wood production in short rotation coppices (SRC) with poplar (Populus spp.) can contribute significantly to the future bio energy supply mix in Germany. Although the energy-input to energy-output ratio is rather good, SRC often do not meet cost effectiveness due to high water demand of poplar species. High biomass productivity depends on optimal water supply. Also, numerous adaptations to water deficits result in an undesirable decrease of yield.
Combined physiological and genetic investigations were conducted within a six-year old F1-full-sib crossbred population of European aspen (Populus tremula L., growing period 1998-2003). Possible implications on selection, breeding or improvement of poplar cultivars showing a high tolerance to water deficits are discussed. For the work presented here, the breeding goal of higher water deficit tolerance was defined as the minimisation of yield losses under dry conditions.
Beyond growth related traits (aggregate yield (BM), aboveground woody biomass), biomass increment (iBM) and radial increment (ir), physiological and wood anatomical traits were included; these are related to reactions to water deficit and are measurable on tree rings retrospectively.
These traits were the Carbon- and Oxygen isotope ratios (δ13C, δ18O), the fibre length and vessel element length (FL, GL), the vessel lumen cross sectional area (AG), the vessel density (GD), the cumulative vessel lumen area to cross sectional area ratio (LQ), the hydraulically weighted mean vessel lumen diameter (Dh) and wood density assessed by X-ray densitometry (RD).
To distinguish the drought induced physiologic reactions from juvenile developmental patterns of the mapping population, juvenile trends of RD, FL, GL, and ir, which are representative of habitats in south-eastern Germany, were investigated in a second aspen collective that was selected from natural succession. During the first three years, the mapping population showed deviations from the juvenile trends due to water deficit adaptations or preferential root development, respectively. Due to drought in the growing seasons of 2000 and 2003, the juvenile trends show outstanding values for both years, although ground water supply in 2003 was exceptionally good following the intense rain event of 2002 (Elbe flood 2002). The tree ring traits of both years stand out from the juvenile trends due to drought adaptations.
In 2000, all phenotypic traits showed a significant deviation from their respective trends. In 2003, only GL and RD showed an adaptation to drought as observable by a deviation from their juvenile trends. A significant decrease in water use efficiency (WUE) and an increase in net transpiration, respectively, were shown for 2003 by means of δ13C or δ18O values. All other traits showed an increase following their juvenile trends.
RD data for 2000 and 2003 were not significantly correlated with BM, but δ13C data (and therefore WUE) for 2002 and 2003 revealed a weakly positive correlation with BM.
The genotype that was most tolerant to water deficits showed a combination of a superior growth with a superior WUE (by means of δ13C), a superior AG, and an RD close to but not less than the population average.
Due to the lack of negative correlation between BM and δ13C or BM and RD in the present work, δ13C and RD can be valuable proxies for the determination of drought tolerance of aspen trees for tree improvement purposes. Aside from BM under dry conditions, no other traits that were investigated can be recommended as a stand-alone proxy for water deficit tolerance. For a water deficit tolerance evaluation, pairs of traits should be used, of which one trait is positively correlated with yield and the other represents a water deficit adaptation. Both the primary breeding goal of the highest possible yield as well as a better water deficit tolerance should always be considered in this context.
Two different drought tolerance indices were used to rank the individuals of the mapping population according to their water deficit tolerance. In both cases, trees with higher BM were ranked better.
The second focus of the present work is on genetic mapping of Quantitative Trait Loci (QTL) for the investigated tree-ring traits that refer to water deficit reaction. As a basis for the QTL-mapping approach, genetic linkage maps were constructed for each parental tree of the F1-full-sib crossbred mapping-population following the two-way pseudo-testcross mapping strategy. The maternal map (P. tremula, “Schandau 4”) consisted of 157 markers (144 AFLP, 13 SSR) in 30 linkage groups and covered 1,369 cM. The 21 linkage groups of the paternal map (P. tremula, “Lichtenhain 1”) covered 1,079 cM of the genome (144 AFLP, 13 SSR). Compared with the haploid chromosome number (19) of the Populus genome, the high number of linkage groups, doublets and unlinked markers indicated low genome coverage. Only a low number of QTL was detected, maximal two per in¬vesti¬gated phenotypic trait with a relation to water deficit tolerance.
One QTL having a pleiotropic effect on several growth related traits was detected on the maternal linkage group 1 (corresponding to the Populus Chromosome I). The significance of the QTL effects seemed to increase with tree age.
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| 20 |
Trockenheitsreaktionen und holzanatomische Eigenschaften der Zitter-Pappel (Populus tremula L.) – Physiologie und QTL-MappingMeyer, Matthias 14 July 2009 (has links)
Holz aus Kurzumtriebsplantagen (KUP) mit Pappeln (Populus spp.) kann eine bedeutende Rolle im Mix der Bioenergieressourcen in Deutschland spielen. Trotz eines günstigen Energieinput-Energieoutput-Verhältnisses ist das Erreichen wirtschaftlich zufriedenstellender Ergebnisse mit KUP jedoch auf den meisten potenziellen Anbauflächen durch hohe Ansprüche der Pappeln an die Wasserversorgung erschwert. Hohe Produktivitätsraten der Pappeln sind an einen hohen Wasserverbrauch gebunden und viele Trockenheitsanpassungen führen zu deutlichen Ertragsrückgängen. In der vorgestellten Arbeit wurde eine sechsjährige Vollgeschwister-F1-Kartierungspopulation der Europäischen Zitter Pappel (Aspe, Populus tremula L., Wuchsperiode 1998-2003) physiologisch und genetisch untersucht, um mögliche Wege zu einer züchterischen Verbesserung der Trockenheitstoleranz von Pappeln diskutieren zu können. Dabei wurde das Zuchtziel der Trockenheitstoleranz als Minimierung der Ertragsrückgänge unter trockenen Bedingungen definiert.
Neben wuchsleistungsbezogenen Größen (Biomassegesamtleistung (BM, oberirdische Dendromasse), Biomassezuwachs (iBM), Radialzuwachs (ir), Baumhöhe (h)) wurden physiologisch holzanatomische Eigenschaften untersucht, die retrospektiv anhand der Jahrringe messbar sind und zur nicht direkt messbaren Eigenschaft der Trockenheitstoleranz in einer Beziehung stehen. Diese waren die Kohlenstoff- und Sauerstoffisotopsignatur (δ13C, δ18O), die Faser- und Gefäßgliedlänge (FL, GL), die Gefäßlumenquerschnittsfläche (AG), die Gefäßdichte (GD), der potenziell Saftstrom leitende Querschnittsflächenanteil (LQ), der hydraulisch gewichtete Gefäßlumendurchmesser (Dh) und die röntgendensitometrische Holzdichte (RD). Um trockenheitsbedingte physiologische Reaktionen vom Einfluss der Juvenilität der Kartierungspopulation unterscheiden zu können, wurden regionaltypische Juvenilitätstrends der RD, FL, GL, und des ir anhand eines zweiten, für das östliche Deutschland repräsentativen Aspen-Kollektivs aus natürlicher Sukzession ermittelt.
Bedingt durch Trockenheitsanpassungen bzw. eine bevorzugte Wurzelentwicklung nach dem Verpflanzen zeigte die Kartierungspopulation in den ersten drei Jahrringen Abweichungen von den regionaltypischen Juvenilitätstrends. In den Trendverläufen der Kartierungspopulation heben sich die beiden Trockenvegetationsperioden 2000 und 2003 ab, wobei bis zum Sommer 2003 infolge des Starkniederschlages 2002 (Flut) ein außergewöhnlich gutes Grundwasserangebot herrschte. Alle untersuchten phänotypischen Eigenschaften zeigten 2000 starke trockenheitsbedingte Abweichungen. Im Jahrring 2003 wichen nur die GL und die RD von ihren Juvenilitätstrends ab. Außerdem konnte anhand der δ13C und δ18O Werte eine signifikante Abnahme der Wassernutzungseffizienz bzw. eine Zunahme der Transpiration im Jahr 2003 gezeigt werden. Die übrigen Größen folgten ihren Juvenilitätstrends und stiegen an.
Die Jahrringdatensätze 2000 und 2003 der RD waren nicht signifikant mit der BM korreliert, dagegen zeigten die δ13C Datensätze 2002 und 2003 schwach positive Korrelationen mit der BM. Der trockenheitstoleranteste Genotyp verband seine überdurchschnittliche BM mit einer hohen Wassernutzungseffizienz (angezeigt durch überdurchschnittliche δ13C Werte), mit einer überdurchschnittlichen AG und mit einer nicht unterdurchschnittlichen RD in Höhe des Populationsmittels.
Aufgrund des Fehlens negativer Korrelationen zwischen BM und δ13C bzw. BM und RD in der vorliegenden Arbeit können δ13C und RD als nützliche Weiser für die Unterscheidung der Trockenheitstoleranz verschiedener Aspen zu züchterischen Zwecken vorgeschlagen werden. Außer der BM unter trockenen Bedingungen kann keine der untersuchten Eigenschaften als alleiniger Trockenheitstoleranzweiser empfohlen werden. Zu einer Trockenheitstoleranzbewertung sollten Merkmalspaare verwendet werden, von denen ein Merkmal positiv mit dem Ertrag korreliert ist und das andere eine Trockenheitsanpassung verkörpert. Dadurch werden sowohl das primäre Zuchtziel eines höchstmöglichen Ertrages als auch eine bessere Trockenheitsangepasstheit berücksichtigt.
Zwei verschiedene Trockenheitstoleranzindizierungen wurden angewendet, um die Kartierungsnachkommen entsprechend ihrer Trockenheitstoleranz einem Ranking zu unterziehen. Dabei wurden in beiden Fällen Bäume mit einem höheren Ertrag besser platziert.
Der zweite Schwerpunkt der Arbeit lag auf der genetischen Kartierung von Quantitative Trait Loci (QTL) für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz. Als Basis für das QTL Mapping wurden, der Pseudo-Testcross-Mapping-Strategie folgend, genetische Kopplungskarten für die Elternbäume der Kartierungspopulation konstruiert. Die maternale Karte (P. tremula, „Schandau 4“) deckte mit 157 Markern (144 AFLP, 13 SSR) in 30 Kopplungsgruppen 1.369 cM ab, die 21 paternalen Kopplungsgruppen mit 148 Markern (132 AFLP, 16 SSR) überspannten 1.079 cM des Genoms (P. tremula, „Lichtenhain 1“). Die im Vergleich zur haploiden Chromosomenzahl der Pappeln (19) hohen Zahlen an Kopplungsgruppen sowie die hohen Zahlen an Doublets und unkartierten Markern zeigten eine geringe Genomabdeckung an. So konnte nur eine begrenzte Zahl, höchstens zwei QTL für die untersuchten phänotypischen Jahrringeigenschaften mit Bezug zur Trockenheitstoleranz, kartiert werden.
Ein QTL Bereich mit pleiotropem Effekt auf mehrere wachstumsbezogene Größen wurde auf der maternalen Kopplungsgruppe 1 (dem Populus Chromosom I zuzuordnen) detektiert. Die Signifikanz der Effekte dieses QTL auf den Radialzuwachs entwickelte sich steigend mit zunehmendem Baumalter. / Wood production in short rotation coppices (SRC) with poplar (Populus spp.) can contribute significantly to the future bio energy supply mix in Germany. Although the energy-input to energy-output ratio is rather good, SRC often do not meet cost effectiveness due to high water demand of poplar species. High biomass productivity depends on optimal water supply. Also, numerous adaptations to water deficits result in an undesirable decrease of yield.
Combined physiological and genetic investigations were conducted within a six-year old F1-full-sib crossbred population of European aspen (Populus tremula L., growing period 1998-2003). Possible implications on selection, breeding or improvement of poplar cultivars showing a high tolerance to water deficits are discussed. For the work presented here, the breeding goal of higher water deficit tolerance was defined as the minimisation of yield losses under dry conditions.
Beyond growth related traits (aggregate yield (BM), aboveground woody biomass), biomass increment (iBM) and radial increment (ir), physiological and wood anatomical traits were included; these are related to reactions to water deficit and are measurable on tree rings retrospectively.
These traits were the Carbon- and Oxygen isotope ratios (δ13C, δ18O), the fibre length and vessel element length (FL, GL), the vessel lumen cross sectional area (AG), the vessel density (GD), the cumulative vessel lumen area to cross sectional area ratio (LQ), the hydraulically weighted mean vessel lumen diameter (Dh) and wood density assessed by X-ray densitometry (RD).
To distinguish the drought induced physiologic reactions from juvenile developmental patterns of the mapping population, juvenile trends of RD, FL, GL, and ir, which are representative of habitats in south-eastern Germany, were investigated in a second aspen collective that was selected from natural succession. During the first three years, the mapping population showed deviations from the juvenile trends due to water deficit adaptations or preferential root development, respectively. Due to drought in the growing seasons of 2000 and 2003, the juvenile trends show outstanding values for both years, although ground water supply in 2003 was exceptionally good following the intense rain event of 2002 (Elbe flood 2002). The tree ring traits of both years stand out from the juvenile trends due to drought adaptations.
In 2000, all phenotypic traits showed a significant deviation from their respective trends. In 2003, only GL and RD showed an adaptation to drought as observable by a deviation from their juvenile trends. A significant decrease in water use efficiency (WUE) and an increase in net transpiration, respectively, were shown for 2003 by means of δ13C or δ18O values. All other traits showed an increase following their juvenile trends.
RD data for 2000 and 2003 were not significantly correlated with BM, but δ13C data (and therefore WUE) for 2002 and 2003 revealed a weakly positive correlation with BM.
The genotype that was most tolerant to water deficits showed a combination of a superior growth with a superior WUE (by means of δ13C), a superior AG, and an RD close to but not less than the population average.
Due to the lack of negative correlation between BM and δ13C or BM and RD in the present work, δ13C and RD can be valuable proxies for the determination of drought tolerance of aspen trees for tree improvement purposes. Aside from BM under dry conditions, no other traits that were investigated can be recommended as a stand-alone proxy for water deficit tolerance. For a water deficit tolerance evaluation, pairs of traits should be used, of which one trait is positively correlated with yield and the other represents a water deficit adaptation. Both the primary breeding goal of the highest possible yield as well as a better water deficit tolerance should always be considered in this context.
Two different drought tolerance indices were used to rank the individuals of the mapping population according to their water deficit tolerance. In both cases, trees with higher BM were ranked better.
The second focus of the present work is on genetic mapping of Quantitative Trait Loci (QTL) for the investigated tree-ring traits that refer to water deficit reaction. As a basis for the QTL-mapping approach, genetic linkage maps were constructed for each parental tree of the F1-full-sib crossbred mapping-population following the two-way pseudo-testcross mapping strategy. The maternal map (P. tremula, “Schandau 4”) consisted of 157 markers (144 AFLP, 13 SSR) in 30 linkage groups and covered 1,369 cM. The 21 linkage groups of the paternal map (P. tremula, “Lichtenhain 1”) covered 1,079 cM of the genome (144 AFLP, 13 SSR). Compared with the haploid chromosome number (19) of the Populus genome, the high number of linkage groups, doublets and unlinked markers indicated low genome coverage. Only a low number of QTL was detected, maximal two per in¬vesti¬gated phenotypic trait with a relation to water deficit tolerance.
One QTL having a pleiotropic effect on several growth related traits was detected on the maternal linkage group 1 (corresponding to the Populus Chromosome I). The significance of the QTL effects seemed to increase with tree age.
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