Influences of drought and flood stresses on riparian cottonwoods and willows

Amlin, Nadine M., University of Lethbridge. Faculty of Arts and Science

January 2000

Cottonwoods (Populus sp.) and willows (Salix sp.) are generally limited to riparian landscapes in semi-arid regions of western North America. Water availability is a major determining factor for the establishment, growth and survival of these plants. Willows generally occur closer to the stream and at lower elevations than cottonwoods, suggesting reduced drought tolerance and increased flood tolerance. In the present thesis project, three related studies were conducted to investigate this hypothesis. Firstly, tolerable rates of water table decline and the impacts of the corresponding drought stress were investigated by growing cottonwoods and willows under water table decline rates from 0 to 12 cm/d. Willow saplings responded similarly to cottonwood saplings, but willow seedlings were more vulnerable than cottonwood seedlings to rapid rates of water table decline. In the second study, will saplings tolerated elevated water tables of 0 to 7.5 cm below substrate surface and the resulting flood stress for 152 days slightly better than cottonwood saplings. Finally, mature cottonwoods along Willow Creek, Alberta experienced water table decline from 1996 to 1998 due to water pumping in a nearby gravel pit; the water table recovered in 1999. The cottownwoods displayed physiological changes indicating drought stress in 1998 and recovered following restoration of the water table. This confirmed the cottonwoods' reliance on the water table as their primary moisture source. These studies indicate that the spatial separation of willows and cottonwoods may be particularly related to reduced drought tolerance of willows and these display only slightly increased flood tolerance of willos and these display only slightly increased flood tolerances. The studies confirm that both willows and cottonwoods are physiologically dependent on a sufficient riparian water table. / 85 leaves : ill. ; 28 cm.

Cottonwood -- Effect of drought on

Cottonwood -- Effect of floods on

Cottonwood -- Drought tolerance

Willows -- Effect of drought on

Willows -- Effect of floods on

Willows -- Drought tolerance

Dissertations, Academic

Evaluation of selected sweetpotato (Ipomoea batatas) accessions for drought tolerance

Omotobora, Babajide Olusegun

06 1900

Sweetpotato (Ipomoea batatas) is a major staple food in Africa and the rest of the world where they are discovered to be a good source of carbohydrates, vitamin A, vitamin C and protein. The maximum production potential of the crop is being hampered by severe drought which ravages most parts of Africa. The main aim of this project therefore is to screen collected accessions of sweetpotatofor drought tolerance in a quick screening method with a view to identify cultivars that can perform well under water stress conditions. Fifty selected sweetpotato accessions consisting of cultivars and breeding lines collected from the ARC-VOPI gene bank were planted for drought screening in the glass house for 6 weeks during which water was withheld to induce stress. Observations were made on number of dead plants and days to wilting point, the results were analyzed and 12 best performing cultivars were selected for field trials. The field trial was carried out in Lwamondo, Thohoyandou for 6months under rain-fed conditions. The experiment was conducted in a complete randomized block design with 6 replicates.Yield data and growth parameters were collected every 8 weeks during the trial period and the data collected was analyzed using ANOVA. The best performing cultivars were Zapallo, Tacna, Ejumula, 2004-9-2 and Ndou. They were therefore recommended for further evaluation in other drought prone areas of the country. / Agriculture and  Animal Health / M. Sc. (Agriculture)

Sweetpotato

Drought tolerance

Dry matter

Yield

635.229120968257

Evaluation of selected sweetpotato (Ipomoea batatas) accessions for drought tolerance

Omotobora, Babajide Olusegun

06 1900

Sweetpotato (Ipomoea batatas) is a major staple food in Africa and the rest of the world where they are discovered to be a good source of carbohydrates, vitamin A, vitamin C and protein. The maximum production potential of the crop is being hampered by severe drought which ravages most parts of Africa. The main aim of this project therefore is to screen collected accessions of sweetpotatofor drought tolerance in a quick screening method with a view to identify cultivars that can perform well under water stress conditions. Fifty selected sweetpotato accessions consisting of cultivars and breeding lines collected from the ARC-VOPI gene bank were planted for drought screening in the glass house for 6 weeks during which water was withheld to induce stress. Observations were made on number of dead plants and days to wilting point, the results were analyzed and 12 best performing cultivars were selected for field trials. The field trial was carried out in Lwamondo, Thohoyandou for 6months under rain-fed conditions. The experiment was conducted in a complete randomized block design with 6 replicates.Yield data and growth parameters were collected every 8 weeks during the trial period and the data collected was analyzed using ANOVA. The best performing cultivars were Zapallo, Tacna, Ejumula, 2004-9-2 and Ndou. They were therefore recommended for further evaluation in other drought prone areas of the country. / Agriculture and  Animal Health / M. Sc. (Agriculture)

Sweetpotato

Drought tolerance

Dry matter

Yield

635.229120968257

Parent characterization of quality protein maize (Zea mays L.) and combining ability for tolerance to drought stress

Pfunde, Cleopatra Nyaradzo

January 2012

Quality protein maize (QPM) has enhanced levels of two essential amino acids, lysine and tryptophan compared to normal maize. This makes QPM an important cereal crop in communities where maize is a staple crop. The main abiotic factor to QPM production is drought stress. Little information is available on the effect of drought stress on QPM. Therefore, the objectives of this study were to: (i) conduct diversity analysis of QPM inbred lines using morpho-agronomic and simple sequence repeat markers, (ii) screen available QPM inbred lines and F1 progeny for tolerance to seedling drought stress, (iii) determine the combining ability and type of gene action of QPM inbred lines for tolerance to seedling drought stress, grain yield and endosperm modification. The study was conducted in South Africa, at the University of Fort Hare. Morphological characterisation of 21 inbred lines was done using quantitative and qualitative traits. A randomised complete block design with three replicates was used for characterizing the inbred lines in the field. Genstat statistical software, version 12 (Genstat ®, 2009) was used for analysis of variance (ANOVA) and descriptive statistics. Analysis of variance was performed on all quantitative data for morphological traits. Data for qualitative traits was tabulated in their nominal classes. Traits that contributed most to the variation were days to anthesis, days to silking, anthesis-silking interval, plant height, number of kernel rows, ear length and grain yield. Cluster analysis grouped the inbred lines into three main clusters. The first cluster was characterised by tall and average yielding lines, while the second cluster showed the least anthesis-silking interval, and had the highest yield. Cluster three consisted of lines that were early maturing, but were the least yielding. Genetic distances between maize inbred lines were quantified by using 27 simple sequence repeat markers. The genetic distances between genotypes was computed using Roger’s (1972) genetic distances. Cluster analysis was then carried out using the neighbour-joining tree method using Power Marker software version 3.25. A dendrogram generated from the genetic study of the inbred lines revealed three groups that concurred with expectations based upon pedigree data. These groups were not identical to the groups generated using morpho-agronomic characterisation. Twenty one QPM inbred lines were crossed using a North Carolina design II mating scheme. These were divided into seven sets, each with three inbred lines. The three inbred lines in one set were used as females and crossed with three inbred lines in another set consisting of males. Each inbred line was used as a female in one set, and as a male in a second set. Sixty three hybrids (7 sets x 9 hybrids) were formed and evaluated in October 2011, using a 6x8 alpha-lattice incomplete block design with three replicates under glasshouse and optimum field conditions. A randomised complete block design with three replicates was used for the 21 parental inbred lines. Traits recorded for the glasshouse study were, canopy temperature, chlorophyll content, leaf roll, stem diameter, plant height, leaf number, leaf area, fresh and dry root and shoot weights. Data for the various traits for each environment, 25 percent (stress treatment) and 75 percent (non-stress) of field capacity, were subjected to analysis of variance using the unbalanced treatment design in Genstat statistical package Edition 12. Where varietal differences were found, means were separated using Tukey’s test. Genetic analyses for grain yield and agronomic traits were performed using a fixed effects model in JMP 10 following Residual Maximum Likelihood procedure (REML). From the results, inbred lines that were not previously classified into heterotic groups and drought tolerance categories were classified based on their total dry weight performance and drought susceptibility index. Inbred lines L18, L9, L8, L6 and L3, in order of their drought tolerance index were the best performers under greenhouse conditions and could be recommended for breeding new varieties that are tolerant to seedling drought stress. Evaluation of maize seedlings tolerant to drought stress under glasshouse conditions revealed that cross combination L18 x L11 was drought tolerant, while cross L20 x L7 was susceptible. Total dry weight was used as the major criteria for classifying F1 maize seedlings as being resistant or susceptible. General combining ability effects accounted for 67.43 percent of the genetic variation for total dry weight, while specific combining ability effects contributed 37.57 percent. This indicated that additive gene effects were more important than non-additive gene action in controlling this trait. In the field study (non-drought), the experimental design was a 6x8 alpha lattice incomplete block design with three replicates. On an adjacent field a randomised complete block design with three replicates was used to evaluate the parental inbred lines. The following variables were recorded: plant height, ear height, ears per plant, endosperm modification, days to silking and days to anthesis, anthesis-silking interval, number of kernels per row, number of rows per ear and grain yield. General analyses for the incomplete lattice block design and randomised complete block design for hybrid and inbred data respectively were performed using JMP 10 statistical software. Means were separated using the Tukey's test. Genetic analyses of data for grain yield and agronomic traits were conducted using a fixed effects model using REML in JMP 10. The importance of both GCA (51 percent) and SCA (49 percent) was observed for grain yield. A preponderance of GCA existed for ear height, days to anthesis, anthesis-silking interval, ears per plant and number of kernels per row, indicating that predominantly, additive gene effects controlled hybrid performance under optimum field conditions. The highest heritability was observed for days to silking (48.27 percent) suggesting that yield could be improved through selection for this trait. Under field conditions, variation in time to maturity was observed. This implies that these inbred lines can be recommended for utilisation in different agro-ecologies. Early maturing lines such as L18 can be used to introduce earliness in local cultivars, while early maturing single crosses such as L18 x L2, L5 x L9, L3 x L4 and L2 x L21 could be recommended for maize growers in drought prone areas such as the former Ciskei. Single crosses L18xL11, L16xL18, L8xL21 and L9xL6 had good tolerance to seedling drought stress. On the other hand, single crosses L18xL11 and L11xL13 had high grain yield and good endosperm modification. All these single crosses could be recommended for commercial production after evaluation across locations in the Eastern Cape Province. Alternatively they can be crossed with other superior inbreds to generate three or four way hybrids, which could then be evaluated for potential use by farmers in the Eastern Cape.

Corn -- Quality

Corn as food

Corn -- Effect of stress on

Corn -- Effect of drought on

Cluster analysis

Crops -- Effect of drought on

Corn -- Drought tolerance

Corn -- Breeding

Crops -- Drought tolerance

Morphological and physiological traits as indicators of drought tolerance in tallgrass prairie plants

Tucker, Sally Sue

January 1900

Master of Science / Department of Biology / Jesse B. Nippert / The Konza Prairie in northern Kansas, USA contains over 550 vascular plant species; of which, few have been closely studied. These species are adapted to environmental stress as imposed by variable temperature, precipitation, fire, and grazing. Understanding which plant traits relate to drought responses will allow us to both predict drought tolerance and potential future shifts in plant community composition from changes in local climate. Morphological and physiological measurements were taken on 121 species of herbaceous tallgrass prairie plants grown from seed in a growth chamber. Gas exchange measurements including maximum photosynthetic rate, stomatal conductance to water vapor, and intercellular CO[subscript]2 concentration were measured. All plants were exposed to a drought treatment and were monitored daily until stomatal conductance was zero. At this point, critical leaf water potential (Ψ[subscript]crit), an indicator of physiological drought tolerance was assessed. Other measurements include root length, diameter, volume, and mass, leaf area, leaf tissue density, root tissue density, and root to shoot ratio. Traits were compared using pair-wise bivariate analysis and principal component analysis (PCA). A dichotomy was found between dry-adapted plants with thin, dense leaves and roots, high leaf angle, and highly negative Ψ[subscript]crit and hydrophiles which have the opposite profile. A second axis offers more separation based on high photosynthetic rate, high conductance rate, and leaf angle, but fails to provide a distinction between C[subscript]3 and C[subscript]4 species. When tested independently, grasses and forbs both showed drought tolerance strategies similar to the primary analysis. Matching up these axes with long term abundance data suggests that species with drought tolerance traits have increased abundance on Konza, especially in upland habitats. However, traits that relate to drought tolerance mirror relationships with nutrient stress, confounding separation of low water versus low nutrient strategies. My results not only illustrate the utility of morphological and physiological plant traits in classifying drought responses across a range of species, but as functional traits in predicting both drought tolerance in individual species and relative abundance across environmental gradients of water availability.

Tallgrass prairie

Drought tolerance

Plant traits

Abundance

Konza

Biology, Ecology (0329)

Biology, Plant Physiology (0817)

Tissue culture and drought resistance of chickpea (Cicer arietinum L.)by Hamadi Ben Salah.

Ben Salah, Hamadi.

January 1984

Call number: LD2668 .T4 1984 B46 / Master of Science

Chickpea.

Chickpea--Drought tolerance.

Callus (Botany)

Plant tissue culture.

Masters theses

Characterization of grain sorghum for physiological and yield traits associated with drought tolerance

Mutava, Raymond N.

January 1900

Master of Science / Department of Agronomy / P. V. Vara Prasad / Grain sorghum (Sorghum bicolor L. Moench) is the fourth most important cereal crop grown throughout the semi-arid regions of the world. It is a staple food crop in Africa and Asia, while it is an important feed crop in the United States (US). More recently it is increasingly becoming important as a potential bioenergy feedstock crop around the world. The state of Kansas is the largest producer of grain sorghum in the US and contributes 40% of the total production. Drought is one of the major environmental factors limiting sorghum production in the semi-arid regions of the US, Asia and Africa. It is estimated that global crop losses due to drought stress exceed $10 billion annually. In crop production, drought stress can be classified into pre- or post-flowering. Even though the world collections of sorghum contain over 35,000 accessions, the genetic base currently used in breeding programs is very small (about 3%). Thus, it is important to identify diverse breeding lines for crop improvement. The diversity (association) panel consisting of 300 sorghum lines from all over the world was assembled for trait evaluation and association mapping. In this research these lines were grouped into the five major races (Figure 1) and 10 intermediate races of sorghum. The objectives of the research are to: (i) quantify the performance of the diversity panel under field conditions in Kansas, (ii) identify critical physiological traits affected by drought at both pre- and post-flowering stages of sorghum development, (iii) identify the most sensitive stage to drought stress during the reproductive phase of sorghum development and, (iv) test the feasibility of using a chlorophyll fluorescence assay (CVA) as a tool for identifying stay-green lines in grain sorghum during early stages of crop development. Field experiments were conducted in 2006 and 2007 in two locations in Kansas (Manhattan and Hays) under rain fed and irrigated conditions for the association panel. Objectives (iii) and (iv) were achieved with controlled environment experiments conducted in the greenhouse at the agronomy department, Kansas State University in 2006 and 2007. Results showed that there was large genetic variability among and within different races in the diversity panel for growth, physiological traits and yield components. Some genotypes showed yield stability across the different environments that were investigated. Drought significantly decreased seed number and harvest index across genotypes and races. In grain sorghum the period prior to flowering (panicle initiation) was the most sensitive stage to drought stress, in terms of its effect on seed-set, during reproductive development. A cell viability assay showed that there were significant differences in the loss of cell viability between leaf sample of stay green and non-stay green genotypes when leaf samples are collected in the morning and subjected to high respiratory demand. Therefore the chlorophyll fluorescence assay has potential as a tool for stay green trait screening at early stages of growth in grain sorghum.

Grain sorghum

Chlorophyll fluorescence assay

Drought tolerance

Yield

Stress

Physiological traits

Agriculture, Agronomy (0285)

Morphological and physiological responses of cowpea (Vigna unguiculata (L) Walp.) cultivars to induced water stress and phosphorus nutrition

Chiulele, Rogerio Marcos

12 1900

Thesis (MScAgric) -- University of Stellenbosch, 2003. / ENGLISH ABSTRACT: Cowpeas are produced under low and irregular rainfall in most of arid and semi-arid areas of sub-Saharan Africa. Growth and yield are therefore reduced due to the occurrence of water stress during the growing season. Knowledge of the responses and adaptive mechanisms of cowpeas to water stress may help to improve the management practices for these areas. Therefore, three glasshouse experiments were conducted at Welgevallen Experimental Farm of the University of Stellenbosch to test the responses of two cowpea cultivars to water stress. In the first experiment, physiological responses were used to identify those physiological parameters, which can be used to distinguish between drought tolerant and susceptible cowpea cultivars. In the second experiment, some of the identified physiological parameters together with some morphological growth responses, yield and grain protein content of the same two cowpea cultivars were used to identify which is the more tolerant cultivar. Tn the third experiment, the hypothesis that increased phosphorus supply may improve the tolerance of cowpea plants to water stress and their ability of recover from the stress was tested. The results showed that water stress affected water relations, morphological growth parameters, yield and grain protein content, but increasing P supply reduced the effect of water stress and promoted more rapid recovery after re-watering. Water relations were affected by water stress because it reduced relative water content, which resulted in reduced water potential and increased leaf diffusive resistance and proline accumulation. Morphological growth responses and yields were affected because water stress reduced the leaf area, which resulted in reduced biomass production and seed yield. Lower leaf area under water stress was the result of the reduced number of leaves and leaf expansion rate, but the number of leaves was the most important parameter. Reduced seed yield was due to reduced number of pods. The responses of the two cultivars tested were different. AB Wit, which performed better under well-watered conditions was more affected by water stress due to its larger leaf area that resulted in excessive water loss by transpiration. ACH14 was more drought tolerant than AB Wit due to a combination of a more rapid stomatal closure and proline accumulation, which induced osmotic adjustment, and which in tum helped to maintain higher water potentials. The increased P supply reduced the effect of the water stress. High-P level plants showed higher root growth, which resulted in more water uptake and larger leaf area during the water stress period, and after re-watering these plants recovered more rapidly. The more rapid recovery from stress was the result of enhanced root growth and leaf expansion rate and most probably due to increased water uptake. High-P level plants also showed more rapid leaf appearance and plant growth at earlier stages compared to the low-P level plants. / AFRIKAANSE OPSOMMING: Akkerbone word onder toestande van lae en wisselvallige reenval in baie ariede en semi-ariede gebiede van Afrika verbou. In hierdie gebiede word groei en produksie dikwels beperk deur water tekorte gedurende die groei seisoen. Kennis van reaksies en aanpassingsmeganismes van akkerbone teenoor water tekorte mag dus help om produksietegnieke in bogenoemde gebiede te verbeter. Om hierdie rede is drie glashuiseksperimente onder gekontroleerde toestande op die Welgevallen Proefplaas van die Universiteit van Stellenbosch uitgevoer. In die eerste eksperiment is fisiologiese reaksies van twee cultivars gebruik om eienskappe te identifiseer wat gebruik kan word om tussen droogteweerstandbiedende en droogte gevoelige cultivars te onderskei. In die tweede eksperiment is sommige van die geidentifiseerde eienskappe asook morfologiese groei, opbrengs en kwaliteitsreaksies van dieselfde twee cultivars gebruik om die meer droogte weerstandbiedende cultivar te identifiseer. In die derde eksperiment is die hipotese dat P-bemesting die droogteweerstandbiedendheid teen en herstelvermoe na droogte kan verbeter, getoets. Die resultate toon dat water tekorte beide plantwaterverhoudings, morfologiese eienskappe asook opbrengs en proteieninhoud beinvloed, maar dat hoe P-peile die invloed van water tekorte verminder en herstelverrnoe na die droogte verbeter. Plant-waterverhoudings is bemvloed omdat water tekorte relatiewe waterinhoud van plante verlaag wat aanleiding gee tot verlaagde plantwaterpotensiale, verhoogde huidmondjie weerstand en 'n toename in prolien inhoud. Morfologiese eienskappe en opbrengs is benadeel weens 'n veri aging in blaaroppervlakte wat fotosintetiese vermoe en gevolglik ook biomassaproduksie en saad opbrengs benadeel. Verlaagde blaaroppervlakte tydens water tekorte was hoofsaaklik die gevolg van 'n vermindering in aantal blare, terwyl verlaagde saadopbrengs grootliks die resultaat van 'n vermindering in aantal peule was. Die cultivar AB Wit wat die hoogste opbrengs onder gunstige groeitoestande gelewer het, is die meeste bemvloed deur water tekorte omdat die welige blaargroei van hierdie cultivar, luukse waterverbruik en groter transpirasie verliese veroorsaak het. Die cultivar ACH 14 daarteenoor het waterverliese beperk deurdat die huidmondjies vinniger gesluit het en verhoogde prolien-inhoude, osmotiese aanpassings veroorsaak het. Dit het gehelp om waterpotensiale instand te hou. Hierdie cultivar was gevolglik meer droogte weerstandbiedend as AB Wit. Hoe vlakke van P-bemesting het die effek van water tekorte verminder weens verbeterde wortelgroei. Dit het wateropname gedurende en na die peri ode van water stremming verbeter sodat plante vinniger herstel het na die droe periode. Plante wat by hoe P-peile gegroei is het ook 'n verhoogde blaarverskyningstempo en 'n toename in groei tydens die vroee ontwikkelingstadiums getoon.

Phosphorus in agriculture

Cowpea -- Drought tolerance

Cowpea -- Water requirements

Cowpea -- Nutrition

Cowpea -- Physiology

Cowpea -- Morphology

Dissertations -- Agriculture

Interplot and intraplot border effects on maize genotypes under two levels of moisture availability

Semon, Mande, 1957-

January 1988

The performance of three maize (Zea mays L.) hybrids, grown under two irrigation levels, was used to investigate the effects of soil moisture competition between adjacent plots, the transmission of these effects into multi-row adjacent plots and types of multi-row plots and plot borders most effective in shielding from these interplot competition effects. On the basis of grain yield, competition effects intended to the second rows of five-row plots necessitating more than five-row plots to accurately evaluate the full transmission of interplot competition effects into adjacent plots. Evaluation of genotypes in one-row plots all with the same common border row genotype to make them three-row plots would be more suitable for evaluation of relative competitiveness for soil moisture under soil moisture stress conditions compared to no border rows or border rows of the same genotype being evaluated.

Corn -- Drought tolerance

Corn -- Water requirements.

Plants -- Effect of soil moisture on.

Soil capillarity.

Plant-water relationships.

Propriedades funcionais em genótipos de amendoim adaptados ao semiárido: capacidade de desativação de espécies reativas do oxigênio e acessibilidade de polifenóis / Functional properties of peanut genotypes adapted to the Brazilian semiarid region: reactive oxygen species scavenging activity and accessibility of polyphenols

Massarioli, Adna Prado

08 February 2019

O amendoim é um alimento conhecido pelo seu alto conteúdo proteico e lipídico, também, destaca-se com alto teor de compostos fenólicos, conhecidos por suas propriedades antioxidantes. A cultura do amendoim possui uma ampla adaptabilidade às condições tropicais e o seu cultivo no nordeste brasileiro possui um papel importante para a renda dos pequenos agricultores da região. Em atendimento a esses agricultores, a Empresa Brasileira de Pesquisa Agropecuária (Embrapa) detém o programa de melhoramento genético do amendoim para ambientes semiáridos, no desenvolvimento de cultivares tolerantes ao estresse hídrico. No presente estudo, um total de 14 genótipos pertencentes Banco Ativo de Germoplasma da Embrapa (sendo 6 genótipos tolerantes, 1 médio tolerante e 7 não tolerantes à seca) foram analisados quanto à composição fenólica e o potencial no sequestro de espécies reativas do oxigênio, além da análise da bioacessibilidade desses compostos após a digestão simulada in vitro, nunca antes determinados para tais genótipos. Este trabalho está organizado em quatro capítulos, divididos na seguinte forma: Capítulo I destina-se à revisão da literatura; Capítulo II descreve o estudo com os genótipos BR1 (tolerante à seca) e LViPE-06 (não tolerante à seca) para determinar as melhores condições de obtenção do extrato rico em compostos fenólicos com atividade antioxidante e para determinar o perfil fenólico dos cotilédones e películas pela técnica LC-ESI-QTOF-MS; Capítulo III, com base nas condições estabelecidas para a extração, foram produzidos os extratos (cotilédones e películas) dos 14 genótipos de amendoins e analisados quanto ao sequestro de cinco diferentes espécies reativas de oxigênio; Capítulo IV, a acessibilidade dos compostos fenólicos majoritários do amendoim, inclusive o ácido p-cumárico, do genótipo BR1 foi determinada por meio da digestão simulada in vitro. Os valores estabelecidos de temperatura e grau de hidratação do etanol para a obtenção dos extratos dos cotilédones foram de 60°C e 35% e para os extratos das películas os valores foram de 40°C e 60%, que permitiram obter extratos com os maiores teores de compostos fenólicos e atividade antioxidante. Por meio da técnica LC-ESI-QTOF-MS os principais compostos fenólicos presentes nos extratos dos cotilédones foram os derivados do ácido p-cumárico e do p-cumaroil e nos extratos das películas, as procianidinas oligoméricas do tipo A. Quanto ao sequestro de espécies reativas, os extratos de películas se mostraram excelentes, especialmente no sequestro do radical hidroxila cujos valores do IC50 foram inferiores à concentração de 0,1 μg/mL e, concentrações maiores dos extratos (IC50= 29,07 - 42,84 μg/mL) foram necessárias para o sequestro do peróxido de hidrogênio. Entre os extratos dos cotilédones, se destacou o extrato do amendoim do genótipo BR1, no sequestro do radical superóxido (inibição de 28,85% na concentração de 50 μg/mL), peróxido de hidrogênio (IC25= 304,61 μg/mL) e radical peroxila (738,97 μmol Trolox/g). A acessibilidade de sete compostos fenólicos majoritários de amendoim variou de 7 a 100% sendo que o ácido p-cumárico se apresentou em maior concentração após a digestão simulada in vitro (252,86 μg/g) quando comparada à do extrato da amostra não digerida (68,55 μg/g). / Peanut is a food known for its high protein and lipid content as well as for its high content of phenolic compounds, which are described to have antioxidant properties. Peanut cultivation has a wide adaptability to tropical conditions and plays an important role in income generation among small local farmers in northeastern Brazil. To meet these farmers\' needs, the Brazilian Agricultural Research Corporation (Embrapa) holds a peanut genetic improvement program for semi-arid environments through which they develop cultivars tolerant to water stress. In this study, a total of fourteen genotypes from the Embrapa\'s Germplasm Active Collection (six drought-tolerant genotypes, one mild tolerant and seven non-drought tolerant) were analyzed for their phenolic composition, potential for scavenging reactive oxygen species, and bio-accessibility after in vitro simulated digestion, which have never been investigated for such genotypes. This study is organized into four chapters, as follows: Chapter I corresponds to the literature review; Chapter II describes the study with BR1 (drought tolerant) and LViPE-06 (non-drought tolerant) genotypes to determine the optimal conditions to obtain a phenolics-rich extract with antioxidant activity, as well as to determine the phenolic profile of peanut cotyledon and skin by the LC-ESI-QTOF-MS technique; Chapter III, based on the conditions established for extraction, cotyledon and skin extracts of the fourteen peanut genotypes were produced, which were analyzed for their scavenging capacity with five different reactive oxygen species; Chapter IV, the accessibility of the major phenolic compounds present in BR1 peanut genotype, including p-coumaric acid, was determined by in vitro simulated digestion. The optimal temperature and ethanol hydration to obtain the peanut cotyledon and skin extracts were 60°C and 35% and 40°C and 60%, respectively, which yielded extracts with the highest contents of phenolic compounds and strong antioxidant activity. The analysis by LC-ESI-QTOF-MS identified the main phenolic compounds present in the extracts, namely: derivatives of p-coumaric acid and p-cumaroil in cotyledon extracts, and type A oligomeric procyanidins in skin extracts. Skin extracts showed excellent reactive species scavenging activity, especially of hydroxyl radical, as IC50 values were lower than 0.1 μg/mL; higher concentrations of the extracts (IC50 = 29.07-42.84 μg / mL) were required for scavenging hydrogen peroxide. Among the cotyledon extracts, the extract from peanut genotype BR1 showed promising capacity to scavenge superoxide radical (inhibition of 28.85% at 50 μg/mL), hydrogen peroxide (IC25 = 304.61 μg/mL) and peroxyl radical (738.97 μmol Trolox/g). The bio-accessibility of seven major phenolic compounds ranged from 7% to 100%, with a higher concentration of p-coumaric acid found after in vitro simulated digestion (252.86 μg/g) as compared to the undigested extract (68.55 μg/g).

Arachis hypogaea L.

Arachis hypogaea L.

Antioxidant

Antioxidante

Compostos bioativos

Drought tolerance

Phenolics

Tolerância à seca