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Morphological and Physiological Responses of Senegalia senegal (L.) Britton Provenances to Drought, Salinity, and Fertility

dc.contributor.authorSarr, Mame Sokhnaen
dc.contributor.committeechairSullivan, Bradley J.en
dc.contributor.committeememberMunsell, John F.en
dc.contributor.committeememberSeiler, John R.en
dc.contributor.committeememberStrahm, Brian D.en
dc.contributor.departmentForest Resources and Environmental Conservationen
dc.date.accessioned2018-11-14T07:00:50Zen
dc.date.available2018-11-14T07:00:50Zen
dc.date.issued2017-05-22en
dc.description.abstractIncreasing drought and salinity tolerances in economically important trees adapted to dry land areas is key challenge for maintaining the socioeconomic welfare of dry land areas. Strategies to improve drought and salt tolerance must examine the tree physiological mechanisms that link to the trees survival and growth. This study examined physiological adaptive traits allowing Senegalia senegal to grow better in both saline and dry lands. We conducted two greenhouse experiments and one field study to characterize growth, photosynthetic capacity, water use efficiency (WUE) and gum arabic yield potential among different Senegalia senegal provenances. In the first experiment, we tested early growth and photosynthetic response of seed sources to a cyclic drought treatment. The second greenhouse study examined seed source response to drought, salinity and fertility conditions. Gum yield assessment, growth and WUE of mature trees were determined from a field trial. In general, results showed a high intra genetic variability of Senegalia senegal on gum yield, biomass accumulation and growth. Ngane provenance presented superior growth characteristics as both mature trees and seedlings and exhibited a more conservative water use strategy under drought. Both greenhouse studies revealed similar photosynthetic capacity among Senegalia senegal genotypes when conditions are not limiting. However, when factors such as salinity, fertility and severe drought are involved, different physiological and morphological responses appear and at times this was dependent on seed source. But, at moderate drought stress (chapter 2), no drought by provenance interaction was found. Results of chapter 3 revealed that Ngane has larger stomata with low density in comparison with Diamenar and Kidira provenances. With the exception of Ng21B1, all seed sources displayed similar adaptations to salt stress in term of biomass accumulation. Fertilizer increased total biomass of all seed sources from 63% to 213% for Ng21B1 and K17B19, respectively. However, salinity reduced the fertilizer effect on biomass increment. Leaf gas exchanges were affected by salinity and fertilizer within various responses among seed sources. Results of chapter 4 revealed that gum yield was found to be positively correlated with tree height, crown width, stem volume index and crown area index. Ngane and Diamenar appeared the best provenances in term of annual gum yield per hectare. Diamenar had a higher survival rate than Ngane. This finding reveals the need to consider the tradeoff between tree survival rate and individual tree gum yield in Senegalia senegal stands. In addition to being more sensitive to salinity, Ngane also seems to be more susceptible to low soil pH in terms of survival, but this result needs to be tested further. This study suggests that improvement of gum arabic production can be possible through genetic selection. But, for the best adapted genotypes, research should explore new genetic combination and investigate physiology and genetic diversity. Moreover, the findings on the relationship between soil pH and tree survival rate suggests a need for care in selecting appropriate sites for Senegalia senegal stands. Therefore, silviculture practices as well as genetic selection appear critical in improving gum arabic production.en
dc.description.abstractgeneral<i>Senegalia senegal</i> is a small tree with many uses and the main gum arabic producing species. It is a deciduous tree which grows mainly in arid and semi-arid lands. Since the major drought years of the 1970s and 1980s, a substantial decline of natural stands of the species and the low gum arabic productivity have affected rural incomes in the Sahel where trees such as <i>Senegalia senegal</i> contributes significantly to rural livelihood. Moreover, saline soils are increasing in arid and semi-arid regions where the amount of rainfall is insufficient for substantial evapotranspiration. Therefore, investigating more drought and salt tolerant species will be appropriate in the context of extreme climate events such as drought. However, strategies to improve tolerance need an understanding of physiological mechanisms that link tree growth and adaptation. This study was looking for adaptive characteristics allowing <i>Senegalia senegal</i> to grow better in saline and dry lands while producing more gum arabic. We conducted two greenhouse experiments and one field study to characterize growth, photosynthetic capacity, water use efficiency (WUE, the amount of carbon fixed in photosynthesis per unit water transpired) and gum arabic yield potential among different <i>Senegalia senegal</i> provenances. In the first experiment, we tested growth and biomass allocation to root and shoot of seven <i>Senegalia senegal</i> provenances and their photosynthetic responses to moderate drought treatment. The second greenhouse study was to test five seed sources responses to drought, salinity and fertility conditions. Gum yield assessment, growth and WUE of mature trees were determined in the field study. Globally, results obtained showed a high intra genetic variability of <i>Senegalia senegal</i> on gum arabic yield, biomass accumulation and growth. Ngane provenance presented superior growth characteristics as both mature tree and seedling and exhibited a higher WUE under drought in comparison with the other provenances used in this study. Both greenhouse studies revealed similar photosynthetic capacity among provenances when conditions are not limiting. However, when factors such as salinity, fertility and drought are involved, different physiological and morphological responses appear depending on seed source. But, no drought by provenance interaction was found under drought treatment. Results of chapter 3 revealed that Ngane has larger stomata with low density in comparison with Diamenar and Kidira provenances. Except Ng21B1, all seed sources displayed similar adaptations to salt stress in term of biomass accumulation. Fertilizer has increased total biomass of all seed sources from 63% to 213% for Ng21B1 and K17B19, respectively. However, salinity may reduce the fertilizer effect on biomass increment. Results of chapter 4 revealed that gum yield was found to be positively correlated to tree height and crown width. Ngane and Diamenar appeared as the best provenances in term of annual gum yield per hectare. In addition to be more sensitive to salinity, Ngane seems also to be more susceptible to low soil pH in term of survival. Moreover, the finding on the positive relationship between soil pH and tree survival rate concede a great importance of soil conditions in <i>Senegalia senegal</i> viability. So, in this study it appears critical for the improvement of gum arabic sector to consider both biological component and environmental factors. To seek for best adapted genotypes, research should explore new genetic combinations and investigate physiology and genetic diversity.en
dc.description.degreePh. D.en
dc.format.mediumETDen
dc.identifier.othervt_gsexam:10509en
dc.identifier.urihttp://hdl.handle.net/10919/85833en
dc.publisherVirginia Techen
dc.rightsIn Copyrighten
dc.rights.urihttp://rightsstatements.org/vocab/InC/1.0/en
dc.subjectGum arabicen
dc.subjectSenegalia senegalen
dc.subjectprovenanceen
dc.subjectdroughten
dc.subjectsalinityen
dc.subjectfertilityen
dc.subjectwater use efficiency.en
dc.titleMorphological and Physiological Responses of Senegalia senegal (L.) Britton Provenances to Drought, Salinity, and Fertilityen
dc.typeDissertationen
thesis.degree.disciplineForestryen
thesis.degree.grantorVirginia Polytechnic Institute and State Universityen
thesis.degree.leveldoctoralen
thesis.degree.namePh. D.en

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