Understanding the effects of drought upon carbon allocation and cycling in an Amazonian rain forest

Metcalfe, Daniel Benjamin

January 2007

The Amazon rain forest plays an important role in regional and global biogeochemical cycling, but the region may undergo an increase in the frequency and severity of drought conditions driven by global climate change, regional deforestation and fire. The effects of this drought on carbon cycling in the Amazon, particularly below-ground, are potentially large but remain poorly understood. This thesis examines the impacts of seasonal and longer-term drought upon ecosystem carbon allocation and cycling at an Amazon rain forest site with a particular focus upon below-ground processes. Measurements are made at three one-hectare forest plots with contrasting soil type and vegetation structure, to observe responses across a range of Amazon primary forest types. A fourth plot is subjected to partial rainfall exclusion to permit measurement of forest responses to a wider range of soil moisture levels than currently exists naturally. An analysis of the number of samples required to accurately quantify important ecosystem carbon stocks and fluxes is used to guide the sampling strategy at the field site. Quantifying root dynamics, in particular, presents methodological challenges. Thus, I critically review existing methods, and develop techniques to accurately measure root standing biomass and production. Subsequently, these techniques are used to record root responses, in terms of standing biomass, production, morphology, turnover and nutrient content, to variation in soil moisture across the four rain forest plots. There is substantial environmental variation in root characteristics. However, several responses remain consistent across plots: root production of biomass, length, and surface area, is lower where soil is dry, while root length and surface area per unit mass show the opposite pattern. The other major component of the below-ground carbon cycle is soil carbon dioxide efflux. I partition this efflux, on each plot, into contributions from organic ground surface litter, roots and soil organic matter, and investigate abiotic and biotic causes for observed differences within and between plots. On average, the percentage contribution of soil organic matter respiration to total soil carbon dioxide efflux declines during the dry season, while root respiration contribution displays the opposite trend. However, spatial patterns in soil respiration are not directly attributable to variation in either soil moisture or temperature. Instead, ground surface organic litter mass and root mass account for 44 % of observed spatial heterogeneity in soil carbon dioxide efflux. Finally, information on below-ground carbon cycling is combined with aboveround data, of canopy dynamics and stem wood production and mortality, to analyze the potential effects of drought upon carbon cycling in an Amazon forest ecosystem. Comparison of the rainfall exclusion plot with a similar, but unmodified, control plot reveals potentially important differences in tree carbon allocation, mortality, reproduction, soil respiration and root dynamics. The apparent net consequence of these changes is that, under drier conditions, the amount of CO2 moving out of the forest and into the atmosphere is diminished. This synthesis of above-ground and below-ground data advances understanding of carbon cycling in rain forests, and provides information which should allow more accurate modelling of the response of the Amazon region to future drought. Additional measurements at other sites, and of other ecosystem carbon fluxes, should further refine modelling predictions.

Divergent responses of vegetation cover in Southwestern US ecosystems to dry and wet years at different elevations

Herrmann, Stefanie M, Didan, Kamel, Barreto-Munoz, Armando, Crimmins, Michael A

01 December 2016

In the semiarid Southwestern United States, prolonged drought conditions since the early 2000s have resulted in widespread declines of the vegetation productivity in this water-constrained ecosystem, as revealed by analyses of the Normalized Difference Vegetation Index (NDVI). However, the spatial pattern of the NDVI response to dry years is not uniform: a divergent response of NDVI to precipitation is observed between the low-lying desert and the high montane forests at elevations above 2,500 meter. Weanalyzed relationships between 15 years of Moderate Resolution Imaging Spectroradiometer (MODIS) NDVI and gridded climate data (PRISM) along elevation gradients at scales from regional to local. Our elevation-explicit analysis captures the transition from water-limited to temperature-limited ecosystems, with a sign-reversal in the correlation coefficient between precipitation and NDVI observed at about 2,500-3,000m altitude. Wesuggest warmer temperatures and less snow cover associated with drier years as explanations for high elevation gains in vegetation productivity during dry years.

drought

NDVI

elevation gradient

MODIS

vegetation productivity

climate dynamics

US Southwest

Analyse physiologique et génétique combinées pour améliorer le contenu en huile et la qualité du tournesol soumis à la sécheresse / Physiological and genetic analysis to improve quality and quantity of sunflower seed oil under drought stress

Haddadi, Parham

12 July 2010

Le tocophérol, le phytostérol, le pourcentage de protéines des graines, l'huile et les teneurs en acides gras ont été mesurés dans une population de lignées recombinantes (RILS) de tournesol, cultivées sous conditions de sécheresse, irrigation et semis tardif. Une analyse génétique de QTL a été réalisée à partir de ces mesures, en utilisant une carte génétique basée sur des marques SSR et avec des gènes candidats (1) impliqués dans la voie métabolique de tocophérol et phytostérol, (2) des gènes codant des antioxydants enzymatiques, (3) des gènes liés à la sécheresse et (4) des gènes homologues à SEC14 chez Arabidopsis. Trois gènes candidats importants (VTE4, VTE2 et HPPD), qui codent pour des enzymes impliquées dans la biosynthèse du tocophérol, ont été cartographiés sur les groupes de liaison LG8 et LG14. Quatre SNPs sont identifiés pour PAT2, le gène homologue chez Arabidopsis SEC14, entre les deux parents (PAC2 et RHA266) et un SNP, identifié par alignement de séquences est converti en marqueur CAPS pour permettre l'analyse génotypique des RIL. Les gènes homologues à SFH3, HPPD, CAT et CYP51G1 ont été cartographiés grâce à la mise au point de marqueurs dominants, tandis que des marqueurs co-dominants ont permis la cartographie des gènes homologues à SEC14-1, VTE4, DROU1, POD, SEC14-2 et AQUA. Les gènes POD, CAT et GST, codant pour des antioxydants enzymatiques, ont également été cartographiés sur les groupes de liaison 17, 8 et 1, respectivement. Le QTL majeur pour la teneur en tocophérol a été identifié sur le groupe de liaison 8, qui explique 59,5% de la variation phénotypique (6.TTC.8). Il colocalsie également avec le QTL identifié pour la teneur en phytostérol (7.TPC.8). Sous condition de semis tardif, un QTL spécifique de la teneur en acide palmitique a été identifié sur le groupe de liaison 6 (PAC-LS.6). Il est situé entre les marqueurs ORS1233 et SSL66_1. Les QTLs pour le pourcentage d'huile de graines et la teneur en acide stéarique colocalisent sur les groupes de liaison 10 (PSO-PI.10 et SAC-WI.10) et 15 (PSO-PI.15 et SAC-LS.15). Sept QTLs associés à teneur en acides palmitique, stéarique, oléique et linoléique sont identifiés sur le groupe de liaison 14. Ils sont liés à l’homologue du gène HPPD. Par ailleurs, les caractères agronomiques tels que les jours du semis à la floraison, la hauteur des plantes, le rendement et la morphologie foliaire ont été étudiés. Des analyses association génétique ont permis d’identifier des QTLs intérêts sur les groupes de liaison 2, 10 et 13 pour les caractères étudiés, d’autres QTLs identifies sur les groupes de liaison 9 et 12 mettent en avant l'importance de ces régions génomiques pour les caractères de morphologie foliaire. Nous avons finalement identifié des marqueurs AFLP et quelques gènes candidats liés aux caractères impliqués dans la qualité des graines sous conditions irriguée et stress hydrique chez une population de mutants (M8). Deux lignées mutantes, M8-826-2-1 et M8-39-2-1, produisent un niveau significativement élevé d'acide oléique peuvent être utilisées dans les programmes de sélection en raison de la haute stabilité à l'oxydation et des propriétés cardiovasculaire apportés par l’acide oléique qu’elles produisent. L'augmentation du niveau de tocophérol dans les lignées mutantes, M8-862-1N1 et M8-641-2-1, est justifiée par le polymorphisme observé pour le gène, MCT, impliqué dans la voie métabolique du tocophérol. Le marqueur le plus important pour le contenu en tocophérol total est E33M50_16 qui explique 33,9% de la variation phénotypique. Un des gènes candidats les plus importants concernant la biosynthèse des acides gras, FAD2 (FAD2-1), est lié à la teneur en acides oléique et linoléique. Il explique plus de 52% de la variation phénotypique. / The genetic control of tocopherol, phytosterol, percentage of seed protein, oil and fatty acids content in a population of recombinant inbred lines (RILs) of sunflower under various conditions are studied through QTL analysis using genetic-linkage map based on SSR markers and introducing some important tocopherol and phytosterol pathway-related genes, enzymatic antioxidant-related genes, droughtresponsive family genes and Arabidopsis SEC14 homologue genes. Three important candidate genes (HPPD, VTE2 and VTE4), which encode enzymes involved in tocopherol biosynthesis, are mapped to linkage group 8(LG8) and LG14. One of the most important candidate genes coding for sterol methyltransferase II (SMT2) enzyme is anchored to LG17 by CAPS marker. Four SNPs are identified for PAT2, Arabidopsis Sec14 homologue gene, between two parents (PAC2 and RHA266). PAT2 is assigned to LG2 by CAPS marker. Squalene epoxidase (SQE1) is also assigned to LG15 by InDel marker. Through other candidate genes, POD, CAT and GST encoding enzymatic antioxidants are assigned to LG17, LG8 and LG1, respectively. The major QTL for total tocopherol content on linkage group 8 accounted for 59.5% of the phenotypic variation (6.TTC.8), which is overlapped with the QTL of total phytosterol content (7.TPC.8). Under late-sowing condition, a specific QTL of palmitic acid content on linkage group 6 (PAC-LS.6) is located between ORS1233 and SSL66_1 markers. Common chromosomic regions are observed for percentage of seed oil and stearic acid content on linkage group 10 (PSO-PI.10 and SACWI. 10) and 15 (PSO-PI.15 and SAC-LS.15). Overlapping occurs for QTLs of oleic and linoleic acids content on linkage groups 10, 11 and 16. Seven QTLs associated with palmitic, stearic, oleic and linoleic acids content are identified on linkage group 14. These common QTLs are linked to HPPD homologue, HuCL04260C001. QTLs controlling various traits such as days from sowing to flowering, plant height, yield and leaf-related traits are also identified under well-, partial-irrigated and late-sowing conditions in a population of recombinant inbred lines (RILs). The results do emphasis the importance of the role of linkage group 2, 10 and 13 for studied traits. Genomic regions on the linkage group 9 and 12 are important for QTLs of leaf-related traits in sunflower. We finally identified AFLP markers and some candidate genes linked to seed-quality traits under well-irrigated and water-stressed conditions in gammainduced mutants of sunflower. Two mutant lines, M8-826-2-1 and M8-39-2-1, with significant increased level of oleic acid can be used in breeding programs because of their high oxidative stability and hearthealthy properties. The significant increased level of tocopherol in mutant lines, M8-862-1N1 and M8- 641-2-1, is justified by observed polymorphism for tocopherol pathway-related gene; MCT. The most important marker for total tocopherol content is E33M50_16 which explains 33.9% of phenotypic variance. One of the most important candidate genes involving fatty acid biosynthesis, FAD2 (FAD2-1), is linked to oleic and linoleic acids content and explained more than 52% of phenotypic variance.

Tournesol

Gènes candidats

Tocophérol

Phytostérol

Sécheresse

Qtl

Sunflower

Candidate genes

Tocopherol

Phytosterol

Drought stress

Qtl

Sécheresse et incendies en Languedoc-Roussillon dans un contexte de changements globaux : approche régionale par modélisation / Drought and wildfires in Languedoc-Roussillon in a global change context : a regional modeling approach

Ruffault, Julien

03 July 2012

Les changements climatiques et socio-économiques dans la région méditerranéenne constituent une menace importante pour les écosystèmes forestiers en affectant leur fonctionnement direct (augmentation de la sècheresse) et le régime des perturbations (incendies). Les interactions entre végétation, sécheresse, régime des feux et activités anthropiques ont été étudiées à l'échelle régionale sur la région Languedoc-Roussillon (LR) à partir des observations durant les dernières décennies (1971-2006) et de scénarios climatiques pour la fin du 21ième siècle (2071-2100). Les résultats montrent que l'évolution récente du climat dans la région LR est caractérisée par une augmentation des conditions de sècheresse présentant une variabilité spatiale importante. Ces tendances climatiques ont entrainé des modifications des caractéristiques de la période de sècheresse des écosystèmes (augmentation de l'intensité, décalage de la saisonnalité). Malgré cette augmentation des conditions favorables à l'occurrence et au développement des incendies, un nouvelle politique de suppression des incendies initié en 1987 a entrainé une diminution du nombre de départs de feux et des surfaces brulées. Cette politique a également modifié les facteurs explicatifs du développement des feux qui, auparavant majoritairement contrôlés par l'état hydrique de la végétation, sont désormais déterminés par la cooccurrence de la sècheresse et d'épisodes venteux. D'autre part, nos résultats ont pu quantifier la contribution relative des caractéristiques spatiales des activités humaines (densité des infrastructures, interface habitat forêt), de la végétation (composition, continuité) et des conditions météorologiques sur la distribution spatiale des incendies. Ainsi, les prédictions de l'évolution du régime des feux sur le siècle prochain sont fortement dépendantes des futures trajectoires de l'activité anthropique, des stratégies d'occupation du territoire mais également de l'incertitude liée à la régionalisation des modèles climatiques. / Climate and socio-economic changes in the Mediterranean region are expected to affect the functioning of forested ecosystems (increased drought) and the disturbance regime (wildfire). The interactions between vegetation, drought, fire regime and human activities were studied at regional scale in the Languedoc-Roussillon region (LR; Southern France) from observations over recent decades (1971-2006) and climate scenarios for the end of the 21st century (2071-2100). Recent climate changes in the LR region are characterized by an increase in drought conditions with a high spatial variability. These climate changes modified the features of the major drought period in forested ecosystems (increasing intensity, shifting seasonality). However, despite this increase in fire prone conditions, a new policy of fire suppression started in 1987 led to a decrease in the number of fire starts and burnt areas in LR region. This policy also changed the relative contribution of factors explaining fire spread, which previously mainly controlled by the water status of vegetation, are now determined by the co-occurrence of drought and windy events. Furthermore, our results could quantify the relative contribution of the spatial patterns of human activities (infrastructure density, forest habitat interface), vegetation (composition, fuel continuity) and weather on the regional distribution of fires. Thus, predictions on the future fire regime in the region should be mainly controlled by changes in human activities and settlements, as well as climate forecasts and their related uncertainty in downscaling methods, which have a significant impact on predictions of drought of forested ecosystems.

Changements globaux

Ecosystèmes méditérranéens

Sécheresse

Modélisation

Régime des feux

Global changes

Mediterranean ecosystems

Drought

Modeling

Widfire regime

How smallhoder farmers cope with climate variability : case study of the Eastern slope of Mount Kenya / Agricultures familiales et variabilité climatique sur le versant est du Mont Kenya

Mugambi, Caroline

17 December 2012

Pour plusieurs sociétés de part le monde, la sécurité alimentaire repose encore aujourd'hui sur une agriculture familiale. L'objectif de cette thèse est de décrire et d'analyser comment les agriculteurs font face à la variabilité climatique. Le versant est du Mont Kenya est caractérisé par une forte variabilité climatique, sociale et culturelle. Les systèmes agricoles intègrent une diversité d'espèces et de variétés. Sans irrigation, ils dépendent exclusivement de la pluviométrie. Une double approche comparative a été utilisée pour isoler les facteurs sociaux et environnementaux dans notre analyse, en comparant trois altitudes (750 m, 950 m et 1100 m) et deux sociétés (Mwimbi et Tharaka). La diversité au niveau inter et intra spécifique est structurée en fonction de l'altitude et des communautés. Le savoir traditionnel des agriculteurs concernant les climats passés s'avère précis lorsqu'on le compare aux données pluviométriques. Avec l'adoption du maïs au détriment du sorgho et du mil, l'évolution des systèmes de cultures a induit un risque plus élevé aujourd'hui qu'auparavant de perdre des variétés lors des sécheresses. Cependant, l'effet négatif de la variabilité climatique n'est pas homogène; les agriculteurs, par leur savoir et leurs pratiques, atténuent l'effet de la variabilité climatique sur les plantes cultivées. Les dates de semis sont variables pour garantir l'humidité adéquate pour la germination des graines en début de saison des pluies. L'adaptabilité génétique des semences diffèrent fort probablement selon les communautés, certaines évoluant depuis plusieurs années en zones très arides (Tharaka à 750 m) alors que d'autres sont plus familières avec des climats plus cléments (Mwimbi à 1100 m). Les agriculteurs font donc face à la variabilité climatique avec des ressources génétiques qu'ils gèrent et reproduisent historiquement. L'interaction des facteurs sociaux, écologiques, historiques et génétiques devraient davantage être considérée dans les programmes d'amélioration variétale pour faire face à la variabilité climatique. / Smallholder systems are fundamental to food security for many societies but have largely remained under considered. The aim of this study was to describe how farmers in smallholder farming systems cope with climate variability. The eastern slope of Mount Kenya is characterized by high climate, social and cultural variability. Farmers practice rain-fed agriculture favouring multi-crops. A double comparative approach was implemented in order to isolate environmental and social factors, by comparing three altitudinal levels and two societies (Mwimbi and Tharaka). Crop diversity is both environmentally and socially structured. Farmers' climate knowledge is highly accurate in the light of climate rainfall records. Farming systems are also highly dynamic over time, in favor of maize and at the expense of sorghum and millet. This cropping system dynamic has induced an increasing risk of losing local farmers' varieties during drought from 1961 to 2006. However, rainfall variations and droughts do not cause seed losses homogenously, as societies interfere between crop and climate. Various sowing dates are practiced to favour the moisture conditions for the crop at germination. Seed genetic adaptability probably differs between communities, as some are usually exposed to droughts (Tharaka at 750 m) whereas others usually evolve in more favorable climatic environment (Mwimbi at 1100 m).Smallholder farmers thus cope with climatic variability with the crop genetic resources that they historically manage. Interaction between social, ecological, historical and genetic factors must be better reflected in crop genetic sampling strategies used in breeding programs to foster genetic adaptation to climate variability.

Variabilité climatique

Sécheresses

Erosion génétique

Kenya

Sorgho

Maïs

Climate variability

Drought

Genetic erosion

Kenya

Sorghum

Maize

Projevy a dopady hydrologického sucha v povodí Rakovnického potoka / Signs and impacts of hydrological drought in the Rakovnicky stream basin

Maroušková, Kateřina

January 2016

This thesis deals with the signs and impacts of the hydrological drought in the Rakovnicky stream basin. Its aim is to evaluate trends of the selected hydroclimatic variables, to analyze drought periods and land cover changes as one of the factors influencing a runoff regime in the catchment. The main methods used for the long-term and seasonal trends are Man-Kendall test, IHA analysis, flow duration curves and mass curves. Dry periods are evaluated based on Streamflow drought index (SDI), Low Flow index and runoff Q95 exeedance. Land use changes are analyzed using historical maps and index of change. Basic indices of ecological stability are calculated. According to the results the frequency and intensity of the hydrological drought in the Rakovnicky stream basin is increasing. Although the amount of a rainfall is consistent, its distribution throughout the year is changing. In addition the constantly increasing temperature and land use changes cause a significant runoff decreasing. To improve a water retention capacity in the cathment, it would be convenient to apply adaptation measures in the river channels and floodplains. Key words: rainfall, runoff, drought, ecological status, Rakovnicky stream

Climate change vulnerability and coping mechanisms among farming communities in Northern Ghana

Nti, Frank Kyekyeku

January 1900

Master of Science / Department of Agricultural Economics / Andrew Barkley / This study examines the effect of extreme climatic conditions (drought, flood, and bushfires) on the livelihood of households in the Bawku West district of Ghana. The research identified the mechanisms with which households cope in such situations, and analyzed factors influencing the adoption of coping strategies for flood, coping strategies for drought, and coping strategies for bushfires. Data for the study were collected in selected villages across the district in the aftermath of the 2007/2008 extreme climatic events (a prolonged drought period followed by an erratic rainfall). A binary logit regression (BLR) model was then specified to estimate factors that influence the adoption of a given coping mechanisms. Results from the BLR model indicate that literacy level, membership with an FBO, household income, and location of households had positive and significant impacts on adaptation to drought. Similarly, source of seeds for planting, membership with an FBO, household income, and farm size had positive significant influence on adaptation to flood. Adaption to bushfire was positively influenced by radio ownership, seed source and income. The main effect of these climatic extreme events on households included destruction of crops, livestock and buildings; food and water shortage; poor yield or harvest and limited fields for livestock grazing. Therefore, government policies should be geared towards creating revenue generating channels and in strengthening institutions that provide access to farm credit, readily available improve seeds and extension. Additionally, policies that expedite information dissemination through radio and other public media will enhance households’ adaptive capacity.

Climatic Conditions

Coping

Binary Logit

Drought

Flood

Bushfires

Economics, Agricultural (0503)

Environmental economics (0438)

Establishment, drought tolerance and recovery, and canopy analysis of turfgrasses in the transition zone

Goldsby, Anthony Lee

January 1900

Doctor of Philosophy / Department of Horticulture, Forestry, and Recreation Resources / Dale J. Bremer / Jack Fry / Increasing water scarcity may result in greater irrigation restrictions for turfgrass. Drought tolerance and recovery of Kentucky bluegrasses (Poa. pratensis L.) (KBG) were evaluated during and after 88 and 60 day dry downs in 2010 and 2011, respectively, under a rainout shelter. Changes in green coverage were evaluated with digital images. Green coverage declined slowest during dry downs and increased fastest during recoveries in the cultivar ‘Apollo’, indicating it had superior drought tolerance. Electrolyte leakage, photosynthesis, and leaf water potential were evaluated in 7 KBG cultivars during and after the dry downs. Soil moisture at 5 and 20 cm was measured. There were generally no differences in physiological parameters among cultivars during or after dry down. The highest reduction in soil moisture at 5 and 20 cm was in Apollo, suggesting it had a better developed root system for mining water from the profile during drought. Weed prevention and turfgrass establishment of ‘Legacy’ buffalograss (Buchloe dactyloides [Nutt.] Engelm.) and ‘Chisholm’ zoysiagrass (Zoysia japonica Steud.) grown on turf reinforcement mats (TRM) was evaluated. ‘Chisholm’ zoysiagrass stolons grew under the TRM; as such, use of TRM for this cultivar is not practical. Buffalograss had 90% or greater coverage when established on TRM in 2010 and 65% or greater coverage in 2011; coverage was similar to that in oxadiazon-treated plots at the end of each year. ‘Legacy’ buffalograss plugs were established on TRM over plastic for 3 weeks, stored in TRM under tree shade for 7, 14, or 21 days, and evaluated for establishment after storage. In 2010, plugs on mats stored for 7 days had similar coverage to the control, but in 2011 displayed similar coverage to plugs stored on TRM for 14 or 21 day treatments. Green leaf are index (LAI) is an important indicator of turfgrass performance, but its measurement is time consuming and destructive. Measurements using hyperspectral radiometry were compared with destructive measurements of LAI. Results suggest spectral radiometry has potential to accurately predict LAI. The robustness of prediction models varied over the growing season. Finding one model to predict LAI across and entire growing season still seems unrealistic.

Bluegrass

Drought

Zoysiagrass

Buffalograss

Spectral radiometry

Environmental Sciences (0768)

Horticulture (0471)

Remote Sensing (0799)

Agronomical, physiological and biochemical approaches to characterize sweet sorghum genotypes for biofuel production

Subramanian, Satheesh K.

January 1900

Doctor of Philosophy / Department of Agronomy / P. V. Vara Prasad / Sweet sorghum (Sorghum bicolor L. Moench) is an important bioenergy crop. There is a wide array of genetic diversity in sweet sorghum germplasm collections. However, information on traits associated with sugar yield, optimum harvesting time for maximum sugar yield, effects of abiotic stresses on sugar yield is scarce. The objectives of the present study were: to identify traits that are associated with sugar yield, to determine the optimum harvesting time for maximum sugar yield and to understand the physiological responses of different sweet sorghum genotypes to drought and high temperature. In order to meet these objectives, five independent field and greenhouse studies were conducted. Field experiments were conducted using 280 sweet sorghum germplasm and were evaluated for 2 years. From this study, 30 genotypes representing high and low sugar yielders were selected for the subsequent experiment. We observed a significant variation in physiological, morphological and sugar yield traits associated with biofuel production. In the selection experiment, investigations on the morphological, physiological attributes helped to identify those characters which influence or limit sugar yield in the sweet sorghum. Another field study was conducted to optimize the harvesting time for obtaining highest sugar and juice yields in sweet sorghum. Sweet sorghum variety M81E was harvested at ten growth stages. Our results suggest that the optimum time for harvesting of sweet sorghum cultivar M81E is between milk and hard dough stages when highest sugar yield was observed. Studies on different levels of water stress were studied under greenhouse conditions. Four sweet sorghum genotypes (Awanlek, Smith, Tracy and Wray) were subjected to three water stress treatments (100% pot capacity (PC); 70% PC and 30% PC) for 20 days at early seed filling (Milk) stage. The results showed that genotypes differed significantly for all growth and yield, biochemical and physiological traits. Severe water stress significantly decreased juice and sugar yields by decreasing net photosynthetic rate, transpiration rate, stomatal conductance and sucrose content in the stem juice. Genotypes Tracy and Wray produced significantly highest brix, stem fresh weight, juice and sugar yield under both irrigated and water stress conditions. In another greenhouse study, we quantified the effects of drought, high temperature, and their combinations on growth, physiology and yield of sweet sorghum genotypes. The same four genotypes above were subjected to four treatments, T1 - control, T2 - drought stress, T3 - high temperature stress and T4 - combination of drought and high temperature for 16 days after anthesis. The result showed that significant difference was observed for growth and yield traits, physiological traits and non-reducing and total sugar content in juice for genotypes and treatments. Among the genotypes Tracy recorded higher juice and sugar yield. Among the various treatments, combination of drought and high temperature was found to be more deleterious in reducing most of the biofuel traits followed by drought and high temperature stress. The above studies gave significant findings with regards to the identification of superior sweet sorghum germplasm, their tolerance capacity to different abiotic stresses, which allows better selection for the use of bioenergy production.

Sweet sorghum

Drought stress

Harvest timing

Juice yield

Brix

Agronomy (0285)

The relative controls on forest fires and fuel source fluctuations in the Holocene deciduous forests of southern Wisconsin, USA

Mueller, Joshua Robert

January 1900

Master of Arts / Department of Geography / Kendra K. McLauchlan / Reconstructing fire regimes and fuel characteristics is an important aspect of understanding past forest ecosystem processes. Fuel sources and disturbance regimes throughout the upper Midwestern United States have been shown to be sensitive to regional climatic variability such as drought periods on millennial timescales. Yet, records documenting the complex connections between disturbance activity and the corresponding fuel source fluctuations in mesic deciduous forests and oak savanna forests in this region are limited. Thus, it has been difficult to provide a framework to evaluate drought conditions on fire activity and the relationships with fuel source fluctuations in this region. Here, I conducted high-resolution charcoal analyses of lake sediments from four sites in southeastern-southcentral Wisconsin (USA) to characterize fire activity and fuel source fluctuation in mesic deciduous forests and prairie-oak savanna over the last 10,000 years. I found that fire regimes across the four study sites have been asynchronous throughout the Holocene, due to site-specific differences that have strongly influenced local fire regimes. I also found that during periods of high fire activity the primary fuels were from arboreal sources, and during periods of low fire activity the primary fuels were from non-arboreal sources. However, fluctuations in fuel sources did not always correspond to changes in vegetation, or changes in fire frequency.

Fire

Vegetation

Fuels

Moisture

Drought

Biology (0306)

Forestry (0478)

Geography (0366)