Your search keyword '"Cacao physiology"' showing total 61 results

1. The effect of water deficit on leaf stomatal conductance, water relations, chlorophyll fluorescence and growth of rootstock-scion combinations of cacao

Author

Jaimez, Ramón E., Peña, Geover, Barragán, Luigy, Chica, Eduardo, Arteaga, Francisco, and Cedeño, George

Published

2023

2. Drought mitigation in cocoa (Theobroma cacao L.) through developing tolerant hybrids.

Author

Juby B, Minimol JS, Suma B, Santhoshkumar AV, Jiji J, and Panchami PS

Subjects

Acclimatization genetics, Betaine metabolism, Dehydration genetics, Genotype, Hybridization, Genetic, Nitrate Reductase metabolism, Proline metabolism, Superoxide Dismutase metabolism, Cacao physiology, Droughts, Plant Breeding

Abstract

Background: Cocoa, being a shade loving crop cannot withstand long periods of water stress. Breeding for drought tolerance is the need of the hour due to change in climatic condition and extension of crop to non-traditional areas. Hybrids were produced by crossing four tolerant genotypes in all possible combination. The cross GV1 55 x M 13.12 didn't yield any fruit due to cross incompatibility between these genotypes. Various biochemical parameters act as the true indicators to select tolerant and susceptible types. The major biochemical parameters considered after imposing stress included proline, nitrate reductase activity, superoxide dismutase content and glycine betaine., Results: The drought tolerant hybrids were having high amount of proline, superoxide dismutase enzyme and glycine betaine content. Normally, plants having drought stress show low amount of nitrate reductase activity. However, in case of hybrids, the drought tolerant hybrids were having higher NR activity than the susceptible hybrids. The highest amount of NR was found in the control plants kept at fully irrigated conditions., Conclusions: This experiment showed the role of different biochemical enzymes and osmolytes in giving tolerance to plants during drought stress. Logistic regression analysis selected proline and nitrate reductase as the two biochemical markers for identifying efficient drought tolerant genotypes in the future breeding programmes., (© 2021. The Author(s).)

Published

2021

3. Genome-wide analysis of ZAT gene family revealed GhZAT6 regulates salt stress tolerance in G. hirsutum.

Author

Chen G, Liu Z, Li S, Qanmber G, Liu L, Guo M, Lu L, Ma S, Li F, and Yang Z

Subjects

Arabidopsis genetics, Arabidopsis physiology, Cacao genetics, Cacao physiology, Crops, Agricultural genetics, Crops, Agricultural physiology, Gene Expression Regulation, Plant, Genes, Plant, Genome-Wide Association Study, Gossypium genetics, Gossypium physiology, Oryza genetics, Oryza physiology, Phylogeny, Plants, Genetically Modified, Sorghum genetics, Sorghum physiology, Salt Stress genetics, Salt Stress physiology, Salt Tolerance genetics, Salt Tolerance physiology, Zinc Fingers genetics

Abstract

High salt environments can induce stress in different plants. The genes containing the ZAT domain constitute a family that belongs to a branch of the C 2 H 2 family, which plays a vital role in responding to abiotic stresses. In this study, we identified 169 ZAT genes from seven plant species, including 44 ZAT genes from G. hirsutum. Phylogenetic tree analysis divided ZAT genes in six groups with conserved gene structure, protein motifs. Two C 2 H 2 domains and an EAR domain and even chromosomal distribution on At and Dt sub-genome chromosomes of G. hirsutum was observed. GhZAT6 was primarily expressed in the root tissue and responded to NaCl and ABA treatments. Subcellular localization found that GhZAT6 was located in the nucleus and demonstrated transactivation activity during a transactivation activity assay. Arabidopsis transgenic lines overexpressing the GhZAT6 gene showed salt tolerance and grew more vigorously than WT on MS medium supplemented with 100 mmol NaCl. Additionally, the silencing of the GhZAT6 gene in cotton plants showed more obvious leaf wilting than the control plants, which were subjected to 400 mmol NaCl treatment. Next, the expressions of GhAPX1, GhFSD1, GhFSD2, and GhSOS3 were significantly lower in the GhZAT6-silenced plants treated with NaCl than the control. Based on these findings, GhZAT6 may be involved in the ABA pathway and mediate salt stress tolerance by regulating ROS-related gene expression., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

4. Genetic and environmental links between traits of cocoa beans and pods clarify the phenotyping processes to be implemented.

Author

Doaré F, Ribeyre F, and Cilas C

Subjects

Cacao growth & development, Cacao physiology, Linear Models, Phenotype, Quantitative Trait, Heritable, Seeds genetics, Seeds physiology, Cacao genetics

Abstract

The average weight of cocoa beans is not generally taken into account during breeding processes, although it is a trait of interest. Several studies indicate that the weight of the beans has a high heritability in Theobroma cacao. However, the values obtained from different countries for the same clone often vary. In this study, we analyzed the effect of different factors on the weight of the beans. Apart from the clone effect, three main factors had an impact: i) the number of beans per pod: a good filling of the pod with beans tended to limit the weight of the beans, ii) the position of the beans in the pod: beans in the apical part of the pod were significantly lighter than the others and iii) the longer the duration of the fructification cycle the heavier the beans were (positive genetics correlation). These results lead us to propose protocols aimed at normalizing the phenotypic values of the genetic material. To obtain a reliable estimate of the bean weight, the following is proposed: either to use beans obtained from manual pollination to saturate the pods with beans, or to systematically use the number beans in the pods as a covariable.

Published

2020

5. Mitigation of Cd toxicity by Mn in young plants of cacao, evaluated by the proteomic profiles of leaves and roots.

Author

Oliveira BRM, de Almeida AF, Pirovani CP, Barroso JP, de C Neto CH, Santos NA, Ahnert D, Baligar VC, and Mangabeira PAO

Subjects

Agriculture, Photosynthesis, Plant Leaves chemistry, Plant Roots chemistry, Proteome metabolism, Proteomics, Soil, Soil Pollutants chemistry, Cacao physiology, Cadmium toxicity, Manganese chemistry, Soil Pollutants toxicity

Abstract

Cd is a non-essential metal and highly toxic to plants, animals and humans, even at very low concentrations. Cd has been found in cocoa beans and in their products, as in the case of chocolate. Mn plays an important role in photosynthetic and can interact with Cd and attenuate its toxic effects on plants. The objective of this work was to evaluate the mechanisms of Mn response in the mitigation of Cd toxicity in young plants of the CCN 51 cacao genotype submitted to 0.8 mmol Cd kg -1 , 1.6 mmol Mn kg -1 or the combination of 0.4 mmol Cd kg -1  + 0.8 mmol Mn kg -1 soil, together with the control treatment (without addition of Cd and Mn in soil), by means of analysis of changes in the profile of exclusive proteins (EP) and differentially accumulated proteins (DAP). Leaf and root proteins were extracted and quantified from the different treatments, followed by proteomic analysis. About eight DAP and 38 EP were identified in leaves, whereas in roots 43 DAP and 21 EP were identified. Some important proteins induced in the presence of Cd and repressed in the presence of Cd + Mn or vice versa, were ATPases, isoflavone reductase, proteasome and chaperonin. It was concluded that proteins involved in oxidoreduction and defense and stress response processes, in addition to other processes, were induced in the presence of Cd and repressed in the presence of Cd + Mn. This demonstrated that Mn was able to mitigate the toxic effects of Cd on young plants of the CCN 51 cocoa genotype.

Published

2020

6. An overview of the physical and biochemical transformation of cocoa seeds to beans and to chocolate: Flavor formation.

Author

Santander Muñoz M, Rodríguez Cortina J, Vaillant FE, and Escobar Parra S

Subjects

Cacao chemistry, Fermentation, Seeds chemistry, Cacao physiology, Chocolate, Food Technology, Seeds physiology, Taste

Abstract

Chocolate is a widely consumed product worldwide due to its exquisite flavor, which comes from the unique and fascinating cocoa flavor. This flavor depends on little controllable variables such as the genotype and the agroecological niche, and on the other side, on postharvest operations: (1) cocoa transformation from seeds to beans that comprises cocoa seeds preconditioning, fermentation, and drying, and (2) the production of chocolate from the bean in which roasting is highlighted. Postharvest transformation operations are critically important because during these, cocoa flavor is formed, allowing the differentiation of two categories: bulk and specialty cocoa. In this sense, this article presents an overview of cocoa postharvest operations, the variables and phenomena that influence and control the physical and biochemical transformation from seeds to cocoa beans, and their relation to the formation of chocolate flavor. Moreover, research perspectives in terms of control and management of postharvest practices in order to obtain cocoa with differentiated and specialty characteristics "from bean to bar" are discussed.

Published

2020

7. Phenotypic plasticity to photon flux density of physiological, anatomical and growth traits in a modern Criollo cocoa clone.

Author

De Almeida J, Herrera A, and Tezara W

Subjects

Adaptation, Physiological physiology, Cacao metabolism, Photons, Seedlings metabolism, Seedlings physiology, Cacao physiology, Photosynthesis physiology

Abstract

Cocoa grows under shade, but some cultivars develop successfully in full sunlight. In order to characterize the response to photosynthetic photon flux density (PPFD) of a Modern Criollo cocoa clone, gas exchange, photochemical activity and leaf traits, and their relation to growth were measured in seedlings growing in a greenhouse at three different values of PPFD, as well as in adults in full sunlight and shade in the field. Plants showed changes in physiological, biochemical, and morpho-anatomical traits in response to the different light conditions, and in the phenotypic plasticity of these variables. Seedlings subjected to high PPFD in the greenhouse showed decreases in photosynthetic rate, apparent quantum yield of CO 2 fixation and photochemical quenching, and increases in non-photochemical quenching, suggesting down-regulation of PSII. In contrast, trees under full sunlight in the field showed a marked reduction in maximum quantum yield of PSII, indicating photoinhibition and supporting that cocoa is a shade tolerant crop. Cocoa showed higher plasticity of physiological and biochemical variables than morpho-anatomical variables in response to PPFD. Effects of time under treatment in the greenhouse and plant age (greenhouse vs field) on plasticity were observed. The acclimation observed in some of the variables studied after 6 months in high light did not represent a particular advantage to seedlings, since relative growth rate was lower than in low- and medium-light seedlings., (© 2018 Scandinavian Plant Physiology Society.)

Published

2019

8. Witches' broom resistant genotype CCN51 shows greater diversity of symbiont bacteria in its phylloplane than susceptible genotype catongo.

Author

Santana JO, Gramacho KP, de Souza Eduvirgens Ferreira KT, Rezende RP, Mangabeira PAO, Dias RPM, Couto FM, and Pirovani CP

Subjects

Bacteria classification, Bacteria genetics, Bacteria growth & development, Cacao genetics, Cacao immunology, Cacao physiology, Disease Resistance, Genotype, High-Throughput Nucleotide Sequencing, Microbiota, Plant Diseases genetics, Plant Diseases immunology, Plant Leaves immunology, Symbiosis, Agaricales physiology, Bacteria isolation & purification, Biodiversity, Cacao microbiology, Plant Diseases microbiology, Plant Leaves microbiology

Abstract

Background: Theobroma cacao L. (cacao) is a perennial tropical tree, endemic to rainforests of the Amazon Basin. Large populations of bacteria live on leaf surfaces and these phylloplane microorganisms can have important effects on plant health. In recent years, the advent of high-throughput sequencing techniques has greatly facilitated studies of the phylloplane microbiome. In this study, we characterized the bacterial microbiome of the phylloplane of the catongo genotype (susceptible to witch's broom) and CCN51 (resistant). Bacterial microbiome was determined by sequencing the V3-V4 region of the bacterial 16S rRNA gene., Results: After the pre-processing, a total of 1.7 million reads were considered. In total, 106 genera of bacteria were characterized. Proteobacteria was the predominant phylum in both genotypes. The exclusive genera of Catongo showed activity in the protection against UV radiation and in the transport of substrates. CCN51 presented genus that act in the biological control and inhibition in several taxonomic groups. Genotype CCN51 presented greater diversity of microorganisms in comparison to the Catongo genotype and the total community was different between both. Scanning electron microscopy analysis of leaves revealed that on the phylloplane, many bacterial occur in large aggregates in several regions of the surface and isolated nearby to the stomata., Conclusions: We describe for the first time the phylloplane bacterial communities of T. cacao. The Genotype CCN51, resistant to the witch's broom, has a greater diversity of bacterial microbioma in comparison to Catongo and a greater amount of exclusive microorganisms in the phylloplane with antagonistic action against phytopathogens.

Published

2018

9. Physiological, ultrastructural, biochemical and molecular responses of young cocoa plants to the toxicity of Cr (III) in soil.

Author

do Nascimento JL, de Almeida AF, Barroso JP, Mangabeira PAO, Ahnert D, Sousa AGR, Silva JVS, and Baligar VC

Subjects

Antioxidants metabolism, Cacao genetics, Cacao physiology, Cacao ultrastructure, Lipid Peroxidation drug effects, Oxidative Stress drug effects, Photosynthesis drug effects, Plant Leaves drug effects, Plant Leaves metabolism, Plant Leaves physiology, Plant Leaves ultrastructure, Plant Roots drug effects, Plant Roots metabolism, Plant Roots ultrastructure, Cacao drug effects, Chromium toxicity, Soil Pollutants toxicity

Abstract

The objective of this study was to evaluate Cr toxicity in young plants of the CCN 51 Theobroma cacao genotype at different concentrations of Cr 3+ in the soil (0, 100, 200, 400 and 600 mg kg -1 ) through physiological, ultrastructural, antioxidant and molecular changes. Doses of 400 and 600 mg Cr 3+ kg -1 soil severely affected foliar gas exchange, promoted by damages in photosynthetic machinery evidenced by the decrease in CO 2 fixation. Decreased expression of psbA and psbO genes, changes in enzymatic activity and lipid peroxidation also affected leaf gas exchange. A hormesis effect was observed at 100 mg Cr 3+ kg -1 soil for the photosynthetic activity. As a metal exclusion response, the roots of the cocoa plants immobilized, on average, 75% of the total Cr absorbed. Ultrastructural changes in leaf mesophyll and roots, with destruction of mitochondria, plasmolysis and formation of vesicles, were related to the oxidative stress promoted by excess ROS. The activity of the antioxidant enzymes SOD, APX, GPX and CAT and the amino acid proline coincided with the greater expression of the sod cyt gene demonstrating synchronicity in the elimination of ROS. It was concluded, therefore, that the tolerance of the cocoa plants to the toxicity of Cr 3+ depends on the concentration and time of exposure to the metal. Higher doses of Cr 3+ in the soil promoted irreversible damage to the photosynthetic machinery and the cellular ultrastructure, interfering in the enzymatic and non-enzymatic systems related to oxidative stress and gene expression. However, the low mobility of the metal to the leaf is presented as a strategy of tolerance to Cr 3+ ., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

10. Can flavonoid-rich chocolate modulate arterial elasticity and pathological uterine artery Doppler blood flow in pregnant women? A pilot study.

Author

von Wowern E and Olofsson P

Subjects

Adult, Blood Flow Velocity physiology, Cacao chemistry, Cacao physiology, Elasticity drug effects, Female, Flavonoids chemistry, Hemodynamics drug effects, Humans, Pilot Projects, Placental Circulation physiology, Pregnancy, Ultrasonography, Doppler, Ultrasonography, Prenatal, Umbilical Arteries drug effects, Umbilical Arteries physiology, Uterine Artery diagnostic imaging, Uterine Artery physiology, Young Adult, Blood Flow Velocity drug effects, Chocolate, Flavonoids pharmacology, Placental Circulation drug effects, Uterine Artery drug effects, Vascular Stiffness drug effects

Abstract

Introduction: Dark chocolate has shown beneficial effects on cardiovascular health and might also modulate hypertensive complications in pregnancy and uteroplacental blood flow. Increased uteroplacental resistance is associated with systemic arterial stiffness. We aimed to investigate the short-term effect of flavonoid-rich chocolate on arterial stiffness and Doppler blood flow velocimetry indexes in pregnant women with compromised uteroplacental blood flow., Methods: Doppler blood flow velocimetry and digital pulse wave analysis (DPA) were performed in 25 women pregnant in the second and third trimesters with uterine artery (UtA) score (UAS) 3-4, before and after 3 days of ingestion of chocolate with high flavonoid and antioxidant contents. UtA pulsatility index (PI), UtA diastolic notching, UAS (semiquantitative measure of PI and notching combined), and umbilical artery PI were calculated, and DPA variables representing central and peripheral maternal arteries were recorded., Results: Mean UtA PI (p = .049) and UAS (p = .025) significantly decreased after chocolate consumption. There were no significant changes in UtA diastolic notching or any DPA indexes of arterial stiffness/vascular tone., Conclusion: Chocolate may have beneficial effects on the uteroplacental circulation, but in this pilot study, we could not demonstrate effects on arterial vascular tone as assessed by DPA.

Published

2018

11. Path analysis of phenotypic traits in young cacao plants under drought conditions.

Author

Santos EAD, Almeida AF, Branco MCDS, Santos ICD, Ahnert D, Baligar VC, and Valle RR

Subjects

Biomass, Brazil, Cacao growth & development, Climate Change, Plant Leaves physiology, Plant Roots physiology, Cacao physiology, Droughts, Stress, Physiological

Abstract

Drought is worldwide considered one of the most limiting factors of Theobroma cacao production, which can be intensified by global climate changes. In this study, we aimed to investigate the phenotypic correlation among morphological characteristics of cacao progenies submitted to irrigation and drought conditions and their partitions into direct and indirect effects. Path analysis with phenotypic plasticity index was used as criteria for estimation of basic and explanatory variables. The experiment was conducted in a greenhouse at the Cacao Research Center (CEPEC), Ilhéus, Bahia, Brazil, in a randomized block 21 x 2 factorial arrangement [21 cacao progenies obtained from complete diallel crosses and two water regimes (control and drought)] and six replications. In general, drought conditions influenced biomass production in most progenies, causing significant reductions in total leaf area, leaf number, leaf biomass, fine-roots length (diameter <1 mm), root volume and root area for considered drought intolerant. All progenies showed alterations in growth due to drought. Phenotypic plasticity was most strongly pronounced in root volume. Stem and root diameters, as well as stem dry biomass were the growth variables with the greatest direct effects on root volume under drought conditions, these characters being indicated in screening of cacao progenies drought tolerant.

Published

2018

12. Cocoa agroforestry is less resilient to sub-optimal and extreme climate than cocoa in full sun.

Author

Abdulai I, Vaast P, Hoffmann MP, Asare R, Jassogne L, Van Asten P, Rötter RP, and Graefe S

Subjects

Adaptation, Physiological, Sunlight, Water, Agriculture methods, Cacao physiology, Climate Change, Forests

Abstract

Cocoa agroforestry is perceived as potential adaptation strategy to sub-optimal or adverse environmental conditions such as drought. We tested this strategy over wet, dry and extremely dry periods comparing cocoa in full sun with agroforestry systems: shaded by (i) a leguminous tree species, Albizia ferruginea and (ii) Antiaris toxicaria, the most common shade tree species in the region. We monitored micro-climate, sap flux density, throughfall, and soil water content from November 2014 to March 2016 at the forest-savannah transition zone of Ghana with climate and drought events during the study period serving as proxy for projected future climatic conditions in marginal cocoa cultivation areas of West Africa. Combined transpiration of cocoa and shade trees was significantly higher than cocoa in full sun during wet and dry periods. During wet period, transpiration rate of cocoa plants shaded by A. ferruginea was significantly lower than cocoa under A. toxicaria and full sun. During the extreme drought of 2015/16, all cocoa plants under A. ferruginea died. Cocoa plants under A. toxicaria suffered 77% mortality and massive stress with significantly reduced sap flux density of 115 g cm -2  day -1 , whereas cocoa in full sun maintained higher sap flux density of 170 g cm -2  day -1 . Moreover, cocoa sap flux recovery after the extreme drought was significantly higher in full sun (163 g cm -2  day -1 ) than under A. toxicaria (37 g cm -2  day -1 ). Soil water content in full sun was higher than in shaded systems suggesting that cocoa mortality in the shaded systems was linked to strong competition for soil water. The present results have major implications for cocoa cultivation under climate change. Promoting shade cocoa agroforestry as drought resilient system especially under climate change needs to be carefully reconsidered as shade tree species such as the recommended leguminous A. ferruginea constitute major risk to cocoa functioning under extended severe drought., (© 2017 John Wiley & Sons Ltd.)

Published

2018

13. Deciphering the Theobroma cacao self-incompatibility system: from genomics to diagnostic markers for self-compatibility.

Author

Lanaud C, Fouet O, Legavre T, Lopes U, Sounigo O, Eyango MC, Mermaz B, Da Silva MR, Loor Solorzano RG, Argout X, Gyapay G, Ebaiarrey HE, Colonges K, Sanier C, Rivallan R, Mastin G, Cryer N, Boccara M, Verdeil JL, Efombagn Mousseni IB, Peres Gramacho K, and Clément D

Subjects

Cacao genetics, Chromosome Mapping, Cacao physiology, Genetic Linkage, Genome-Wide Association Study, Self-Incompatibility in Flowering Plants genetics

Abstract

Cocoa self-compatibility is an important yield factor and has been described as being controlled by a late gameto-sporophytic system expressed only at the level of the embryo sac. It results in gametic non-fusion and involves several loci. In this work, we identified two loci, located on chromosomes 1 and 4 (CH1 and CH4), involved in cocoa self-incompatibility by two different processes. Both loci are responsible for gametic selection, but only one (the CH4 locus) is involved in the main fruit drop. The CH1 locus acts prior to the gamete fusion step and independently of the CH4 locus. Using fine-mapping and genome-wide association studies, we focused analyses on restricted regions and identified candidate genes. Some of them showed a differential expression between incompatible and compatible reactions. Immunolocalization experiments provided evidence of CH1 candidate genes expressed in ovule and style tissues. Highly polymorphic simple sequence repeat (SSR) diagnostic markers were designed in the CH4 region that had been identified by fine-mapping. They are characterized by a strong linkage disequilibrium with incompatibility alleles, thus allowing the development of efficient diagnostic markers predicting self-compatibility and fruit setting according to the presence of specific alleles or genotypes. SSR alleles specific to self-compatible Amelonado and Criollo varieties were also identified, thus allowing screening for self-compatible plants in cocoa populations., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published

2017

14. Cacao Phylloplane: The First Battlefield against Moniliophthora perniciosa, Which Causes Witches' Broom Disease.

Author

Almeida DSM, Gramacho KP, Cardoso THS, Micheli F, Alvim FC, and Pirovani CP

Subjects

Agricultural Irrigation, Cacao genetics, Cacao physiology, Meristem microbiology, Meristem physiology, Plant Leaves microbiology, Plant Leaves physiology, Spores, Fungal physiology, Water, Basidiomycota physiology, Cacao microbiology, Plant Diseases microbiology

Abstract

The phylloplane is the first contact surface between Theobroma cacao and the fungus Moniliophthora perniciosa, which causes witches' broom disease (WBD). We evaluated the index of short glandular trichomes (SGT) in the cacao phylloplane and the effect of irrigation on the disease index of cacao genotypes with or without resistance to WBD, and identified proteins present in the phylloplane. The resistant genotype CCN51 and susceptible Catongo presented a mean index of 1,600 and 700 SGT cm -2 , respectively. The disease index in plants under drip irrigation was reduced by approximately 30% compared with plants under sprinkler irrigation prior to inoculation. Leaf water wash (LWW) of the cacao inhibited the germination of spores by up to 98%. Proteins from the LWW of CCN51 were analyzed by two-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis followed by tandem mass spectrometry. The gel showed 71 spots and identified a total of 42 proteins (28 from the plant and 14 from bacteria). Proteins related to defense and synthesis of defense metabolites and involved in nucleic acid metabolism were identified. The results support the hypothesis that the proteins and water-soluble compounds secreted to the cacao phylloplane participate in the defense against pathogens. They also suggest that SGT can contribute to the resistance of cacao.

Published

2017

15. Combining ability, heritability and genotypic relations of different physiological traits in cacao hybrids.

Author

Pereira AS, de Almeida AF, Branco MCDS, Costa MGC, and Ahnert D

Subjects

Biomass, Cacao physiology, Chlorophyll chemistry, Chlorophyll metabolism, Chlorophyll A, Fluorometry, Genotype, Phenotype, Photosynthesis, Plant Breeding, RNA, Plant genetics, RNA, Plant metabolism, Transcriptome, Cacao genetics, Crosses, Genetic

Abstract

Selecting parents and evaluating progenies is a very important step in breeding programs and involves approaches such as understanding the initial stages of growth and characterizing the variability among genotypes for different parameters, such as physiological, growth, biomass partitioning and nutrient translocation to the aerial part. In these cases, facilitating tools can be used to understand the involved gene dynamics, such as diallel crosses and genetic and phenotypic correlations. Our main hypothesis is that the contrasting phenotypes of these parental genotypes of cocoa used are due to genetic factors, and progenies derived from crosses of these parental genotypes are useful for breeding programs related to plant architecture, physiological parameters and translocation of mineral nutrients. We aimed to evaluate the combining abilities in progenies of cacao (Theobroma cacao L) originating from contrasting parents for canopy vigor. Emphasis was given to the evaluation of morphological and physiological parameters and the phenotypic and genotypic correlations to understand the dynamics of the action of the genes involved, as well as in expression profile from genes of gibberellins biosynthesis pathway in the parents. Fifteen F1 progenies were obtained from crosses of six clones (IMC 67, P4B, PUCALA, SCA 6, SCA 24 and SJ 02) that were evaluated in a randomized complete block design with four replicates of 12 plants per progeny, in a balanced half table diallel scheme. It is possible to identify and select plants and progenies of low, medium and high height, as there is expressive genetic variability for the evaluated parameters, some of these on higher additive effects, others on larger nonadditive effects and others under a balance of these effects. Most physiological parameters evaluated show that for selection of plants with the desired performance, no complex breeding methods would be necessary due to the high and medium heritability observed. Strong genetic components were observed from many of the correlations, which indicate the possibility to formulate selection indices for multi-traits, such as dwarfism or semidwarfism, tolerance to increase of leaf sodium concentrations and maintenance of the photosynthetic apparatus integrity under these conditions. Additionally, plants with higher carbon fixation, better water use, higher carboxylation efficiency and greater magnesium accumulation in leaves can be selected.

Published

2017

16. Association mapping of seed and disease resistance traits in Theobroma cacao L.

Author

Motilal LA, Zhang D, Mischke S, Meinhardt LW, Boccara M, Fouet O, Lanaud C, and Umaharan P

Subjects

Cacao physiology, Chromosome Mapping, Genetic Markers genetics, Genetic Markers physiology, Genome-Wide Association Study, Linkage Disequilibrium, Microsatellite Repeats genetics, Microsatellite Repeats physiology, Plant Breeding, Plant Immunity physiology, Polymorphism, Single Nucleotide genetics, Polymorphism, Single Nucleotide physiology, Quantitative Trait, Heritable, Seeds physiology, Cacao genetics, Plant Immunity genetics, Seeds genetics

Abstract

Main Conclusion: Microsatellite and single nucleotide polymorphism markers that could be used in marker assisted breeding of cacao were identified for number of filled seeds, black pod resistance and witches' broom disease resistance. An association mapping approach was employed to identify markers for seed number and resistance to black pod and witches' broom disease (WBD) in cacao (Theobroma cacao L.). Ninety-five microsatellites (SSRs) and 775 single nucleotide polymorphisms (SNPs) were assessed on 483 unique trees in the International Cocoa Genebank Trinidad (ICGT). Linkage disequilibrium (LD) and association mapping studies were conducted to identify markers to tag the phenotypic traits. Decay of LD occurred over an average 9.3 cM for chromosomes 1-9 and 2.5 cM for chromosome 10. Marker/trait associations were generally identified based on general linear models (GLMs) that incorporated principal components from molecular information on relatedness factor. Seven markers (mTcCIR 8, 66, 126, 212; TcSNP368, 697, 1370) on chromosomes 1 and 9 were identified for number of filled seeds (NSEED). A single marker was found for black pod resistance (mTcCIR280) on chromosome 3, whereas six markers on chromosomes 4, 5, 6, 8, and 10 were detected for WBD (mTcCIR91, 183; TcSNP375, 720, 1230 and 1374). It is expected that this association mapping study in cacao would contribute to the knowledge of the genetic determinism of cocoa traits and that the markers identified herein would prove useful in marker assisted breeding of cacao.

Published

2016

17. Diallel Analysis and Growth Parameters as Selection Tools for Drought Tolerance in Young Theobroma cacao Plants.

Author

Dos Santos EA, Almeida AA, Ahnert D, Branco MC, Valle RR, and Baligar VC

Subjects

Cacao physiology, Genotype, Soil chemistry, Alleles, Cacao genetics, Cacao growth & development, Droughts, Hybridization, Genetic

Abstract

This study aimed to estimate the combining ability, of T. cacao genotypes preselected for drought tolerance through diallel crosses. The experiment was conducted under greenhouse conditions at the Cacao Research Center (CEPEC), Ilhéus, Bahia, Brazil, in a completely randomized block design, in an experimental arrangement 21 x 2 [21 complete diallel crosses and two water regimes (control and stressed)]. In the control, soil moisture was kept close to field capacity, with predawn leaf water potential (ΨWL) ranging from -0.1 to -0.5 MPa. In the drought regime, the soil moisture was reduced gradually by decreasing the amount of water application until ΨWL reached -2.0 to -2.5 MPa. Significant differences (p < 0.05) were observed for most morphological attributes analyzed regarding progenies, water regime and their interactions. The results of the joint diallel analysis revealed significant effects between general combining ability (GCA) x water regimes and between specific combining ability (SCA) x water regimes. The SCA 6 genetic material showed high general combining ability for growth variables regardless of the water regime. In general, the water deficit influenced the production of biomass in most of the evaluated T. cacao crosses, except for SCA-6 x IMC-67, Catongo x SCA, MOC-01 x Catongo, Catongo x IMC-67 and RB-40 x Catongo. Multivariate analysis showed that stem diameter (CD), total leaf area (TLA), leaf dry biomass (LDB), stem dry biomass (SDB), root dry biomass (RDB), total dry biomass (TDB), root length (RL), root volume (RV), root diameter (RD) <1 mm and 1 <(RD) <2 mm were the most important growth parameters in the separation of T. cacao genotypes in to tolerant and intolerant to soil water deficit.

Published

2016

18. Vulnerability to climate change of cocoa in West Africa: Patterns, opportunities and limits to adaptation.

Author

Schroth G, Läderach P, Martinez-Valle AI, Bunn C, and Jassogne L

Subjects

Cameroon, Chocolate, Conservation of Natural Resources, Cote d'Ivoire, Ghana, Grassland, Nigeria, Seasons, Adaptation, Physiological, Cacao physiology, Climate Change, Environmental Monitoring

Abstract

The West African cocoa belt, reaching from Sierra Leone to southern Cameroon, is the origin of about 70% of the world's cocoa (Theobroma cacao), which in turn is the basis of the livelihoods of about two million farmers. We analyze cocoa's vulnerability to climate change in the West African cocoa belt, based on climate projections for the 2050s of 19 Global Circulation Models under the Intergovernmental Panel on Climate Change intermediate emissions scenario RCP 6.0. We use a combination of a statistical model of climatic suitability (Maxent) and the analysis of individual, potentially limiting climate variables. We find that: 1) contrary to expectation, maximum dry season temperatures are projected to become as or more limiting for cocoa as dry season water availability; 2) to reduce the vulnerability of cocoa to excessive dry season temperatures, the systematic use of adaptation strategies like shade trees in cocoa farms will be necessary, in reversal of the current trend of shade reduction; 3) there is a strong differentiation of climate vulnerability within the cocoa belt, with the most vulnerable areas near the forest-savanna transition in Nigeria and eastern Côte d'Ivoire, and the least vulnerable areas in the southern parts of Cameroon, Ghana, Côte d'Ivoire and Liberia; 4) this spatial differentiation of climate vulnerability may lead to future shifts in cocoa production within the region, with the opportunity of partially compensating losses and gains, but also the risk of local production expansion leading to new deforestation. We conclude that adaptation strategies for cocoa in West Africa need to focus at several levels, from the consideration of tolerance to high temperatures in cocoa breeding programs, the promotion of shade trees in cocoa farms, to policies incentivizing the intensification of cocoa production on existing farms where future climate conditions permit and the establishment of new farms in already deforested areas., (Copyright © 2016 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2016

19. High-resolution melt and morphological analyses of mealybugs (Hemiptera: Pseudococcidae) from cacao: tools for the control of Cacao swollen shoot virus spread.

Author

Wetten A, Campbell C, and Allainguillaume J

Subjects

Animals, Badnavirus physiology, Cacao virology, DNA Barcoding, Taxonomic, Electron Transport Complex IV genetics, Female, Food Chain, Hemiptera classification, Insect Proteins genetics, Molecular Sequence Data, Plant Diseases prevention & control, Sequence Analysis, DNA, Cacao physiology, Entomology methods, Hemiptera genetics

Abstract

Background: Mealybugs (Hemiptera: Coccoidea: Pseudococcidae) are key vectors of badnaviruses, including Cacao swollen shoot virus (CSSV), the most damaging virus affecting cacao (Theobroma cacao L.). The effectiveness of mealybugs as virus vectors is species dependent, and it is therefore vital that CSSV resistance breeding programmes in cacao incorporate accurate mealybug identification. In this work, the efficacy of a CO1-based DNA barcoding approach to species identification was evaluated by screening a range of mealybugs collected from cacao in seven countries., Results: Morphologically similar adult females were characterised by scanning electron microscopy, and then, following DNA extraction, were screened with CO1 barcoding markers. A high degree of CO1 sequence homology was observed for all 11 individual haplotypes, including those accessions from distinct geographical regions. This has allowed the design of a high-resolution melt (HRM) assay capable of rapid identification of the commonly encountered mealybug pests of cacao., Conclusions: HRM analysis readily differentiated between mealybug pests of cacao that cannot necessarily be identified by conventional morphological analysis. This new approach, therefore, has potential to facilitate breeding for resistance to CSSV and other mealybug-transmitted diseases., (© 2015 Society of Chemical Industry.)

Published

2016

20. Making biodiversity-friendly cocoa pay: combining yield, certification, and REDD for shade management.

Author

Waldron A, Justicia R, and Smith LE

Subjects

Conservation of Natural Resources economics, Models, Biological, Models, Statistical, Agriculture economics, Biodiversity, Cacao physiology, Forestry methods

Abstract

The twin United Nations' Millennium Development Goals of biodiversity preservation and poverty reduction both strongly depend on actions in the tropics. In particular, traditional agroforestry could be critical to both biological conservation and human livelihoods in human-altered rainforest areas. However, traditional agroforestry is rapidly disappearing, because the system itself is economically precarious, and because the forest trees that shade traditional crops are now perceived to be overly detrimental to agricultural yield. Here, we show a case where the commonly used agroforestry shade metric, canopy cover, would indeed suggest complete removal of shade trees to maximize yield, with strongly negative biodiversity and climate implications. However, a yield over 50% higher was achievable if approximately 100 shade trees per hectare were planted in a spatially organized fashion, a win-win for biodiversity and the smallholder. The higher yield option was detected by optimizing simultaneously for canopy cover, and a second shade metric, neighboring tree density, which was designed to better capture the yield value of ecological services flowing from forest trees. Nevertheless, even a 50% yield increase may prove insufficient to stop farmers converting away from traditional agroforestry. To further increase agroforestry rents, we apply our results to the design of a sustainable certification (eco-labelling) scheme for cocoa-based products in a biodiversity hotspot, and consider their implications for the use of the United Nations REDD (reducing emissions from deforestation and forest degradation) program in agroforestry systems. Combining yield boost, certification, and REDD has the potential to incentivize eco-friendly agroforestry and lift smallholders out of poverty, simultaneously.

Published

2015

21. Molecular, physiological and biochemical responses of Theobroma cacao L. genotypes to soil water deficit.

Author

Santos IC, Almeida AA, Anhert D, Conceição AS, Pirovani CP, Pires JL, Valle RR, and Baligar VC

Subjects

Biomass, Cacao enzymology, Cacao metabolism, Dose-Response Relationship, Drug, Gene Expression Regulation, Plant drug effects, Minerals metabolism, Oxidative Stress, Plant Proteins biosynthesis, Plant Proteins genetics, Plant Proteins metabolism, Rain, Cacao genetics, Cacao physiology, Droughts, Genotype, Soil chemistry, Water analysis

Abstract

Six months-old seminal plants of 36 cacao genotypes grown under greenhouse conditions were subjected to two soil water regimes (control and drought) to assess, the effects of water deficit on growth, chemical composition and oxidative stress. In the control, soil moisture was maintained near field capacity with leaf water potentials (ΨWL) ranging from -0.1 to -0.5 MPa. In the drought treatment, the soil moisture was reduced gradually by withholding additional water until ΨWL reached values of between -2.0 to -2.5 MPa. The tolerant genotypes PS-1319, MO-20 and MA-15 recorded significant increases in guaiacol peroxidase activity reflecting a more efficient antioxidant metabolism. In relation to drought tolerance, the most important variables in the distinguishing contrasting groups were: total leaf area per plant; leaf, stem and total dry biomass; relative growth rate; plant shoot biomass and leaf content of N, Ca, and Mg. From the results of these analyses, six genotypes were selected with contrasting characteristics for tolerance to soil water deficit [CC-40, C. SUL-4 and SIC-2 (non-tolerant) and MA-15, MO-20, and PA-13 (tolerant)] for further assessment of the expression of genes NCED5, PP2C, psbA and psbO to water deficit. Increased expression of NCED5, PP2C, psbA and psbO genes were found for non-tolerant genotypes, while in the majority of tolerant genotypes there was repression of these genes, with the exception of PA-13 that showed an increased expression of psbA. Mutivariate analysis showed that growth variables, leaf and total dry biomass, relative growth rate as well as Mg content of the leaves were the most important factor in the classification of the genotypes as tolerant, moderately tolerant and sensitive to water deficit. Therefore these variables are reliable plant traits in the selection of plants tolerant to drought.

Published

2014

22. [How does chocolate impact vascular function?].

Author

Flammer AJ and Sudano I

Subjects

Cardiovascular Diseases physiopathology, Cardiovascular Diseases prevention & control, Coronary Vessels physiology, Flavonoids physiology, Humans, Vasodilation physiology, Beverages, Cacao physiology, Candy, Endothelium, Vascular physiopathology

Abstract

For thousands of years, cocoa have been a very popular food and has been linked to various beneficial health effects. Observational and epidemiological studies point towards a beneficial effect of dark chocolate on cardiovascular morbidity. Several small, albeit controlled studies indeed demonstrate an amelioration of endothelial dysfunction - the dysfunction of the inner layer of the vessels - after intake of dark, flavanol-rich chocolate. This is important, as endothelial dysfunction is an important marker of the development of atherosclerosis and an important prognosticator of future cardiovascular events. This article summarizes the actual literature in this respect.

Published

2014

23. Differential gene expression by Moniliophthora roreri while overcoming cacao tolerance in the field.

Author

Bailey BA, Melnick RL, Strem MD, Crozier J, Shao J, Sicher R, Phillips-Mora W, Ali SS, Zhang D, and Meinhardt L

Subjects

Agaricales genetics, Cacao microbiology, Genes, Fungal, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, RNA, Agaricales physiology, Cacao physiology, Gene Expression Regulation, Plant physiology

Abstract

Frosty pod rot (FPR) of Theobroma cacao (cacao) is caused by the hemibiotrophic fungus Moniliophthora roreri. Cacao clones tolerant to FPR are being planted throughout Central America. To determine whether M. roreri shows a differential molecular response during successful infections of tolerant clones, we collected field-infected pods at all stages of symptomatology for two highly susceptible clones (Pound-7 and CATIE-1000) and three tolerant clones (UF-273, CATIE-R7 and CATIE-R4). Metabolite analysis was carried out on clones Pound-7, CATIE-1000, CATIE-R7 and CATIE-R4. As FPR progressed, the concentrations of sugars in pods dropped, whereas the levels of trehalose and mannitol increased. Associations between symptoms and fungal loads and some organic and amino acid concentrations varied depending on the clone. RNA-Seq analysis identified 873 M. roreri genes that were differentially expressed between clones, with the primary difference being whether the clone was susceptible or tolerant. Genes encoding transcription factors, heat shock proteins, transporters, enzymes modifying membranes or cell walls and metabolic enzymes, such as malate synthase and alternative oxidase, were differentially expressed. The differential expression between clones of 43 M. roreri genes was validated by real-time quantitative reverse transcription polymerase chain reaction. The expression profiles of some genes were similar in susceptible and tolerant clones (other than CATIE-R4) and varied with the biotrophic/necrotropic shift. Moniliophthora roreri genes associated with stress metabolism and responses to heat shock and anoxia were induced early in tolerant clones, their expression profiles resembling that of the necrotrophic phase. Moniliophthora roreri stress response genes, induced during the infection of tolerant clones, may benefit the fungus in overcoming cacao defense mechanisms., (© 2014 BSPP AND JOHN WILEY & SONS LTD.)

Published

2014

24. Successful pod infections by Moniliophthora roreri result in differential Theobroma cacao gene expression depending on the clone's level of tolerance.

Author

Ali SS, Melnick RL, Crozier J, Phillips-Mora W, Strem MD, Shao J, Zhang D, Sicher R, Meinhardt L, and Bailey BA

Subjects

Cacao genetics, Cacao physiology, Genes, Plant, Molecular Sequence Data, RNA, Plant, Real-Time Polymerase Chain Reaction, Sequence Analysis, RNA, Adaptation, Physiological, Agaricales pathogenicity, Cacao microbiology, Gene Expression Regulation, Plant

Abstract

An understanding of the tolerance mechanisms of Theobroma cacao used against Moniliophthora roreri, the causal agent of frosty pod rot, is important for the generation of stable disease-tolerant clones. A comparative view was obtained of transcript populations of infected pods from two susceptible and two tolerant clones using RNA sequence (RNA-Seq) analysis. A total of 3009 transcripts showed differential expression among clones. KEGG (Kyoto Encyclopedia of Genes and Genomes) pathway analysis of differentially expressed genes indicated shifts in 152 different metabolic pathways between the tolerant and susceptible clones. Real-time quantitative reverse transcription polymerase chain reaction (real-time qRT-PCR) analyses of 36 genes verified the differential expression. Regression analysis validated a uniform progression in gene expression in association with infection levels and fungal loads in the susceptible clones. Expression patterns observed in the susceptible clones diverged in tolerant clones, with many genes showing higher expression at a low level of infection and fungal load. Principal coordinate analyses of real-time qRT-PCR data separated the gene expression patterns between susceptible and tolerant clones for pods showing malformation. Although some genes were constitutively differentially expressed between clones, most results suggested that defence responses were induced at low fungal load in the tolerant clones. Several elicitor-responsive genes were highly expressed in tolerant clones, suggesting rapid recognition of the pathogen and induction of defence genes. Expression patterns suggested that the jasmonic acid-ethylene- and/or salicylic acid-mediated defence pathways were activated in the tolerant clones, being enhanced by reduced brassinosteroid (BR) biosynthesis and catabolic inactivation of both BR and abscisic acids. Finally, several genes associated with hypersensitive response-like cell death were also induced in tolerant clones., (© 2014 BSPP AND JOHN WILEY & SONS LTD.)

Published

2014

25. Cocoa shortfall: Pollination curbs climate risk to cocoa.

Author

Wanger TC

Subjects

Agriculture, Animals, Cacao physiology, Climate Change, Pollination

Published

2014

26. Can too much coffee cause atrial fibrillation? How about cocoa or cola drinks?

Subjects

Atrial Fibrillation physiopathology, Atrial Fibrillation prevention & control, Beverages adverse effects, Cacao adverse effects, Cacao physiology, Caffeine pharmacology, Carbonated Beverages adverse effects, Coffee adverse effects, Coffee physiology, Humans, Atrial Fibrillation chemically induced, Caffeine adverse effects

Published

2014

27. Altered physiology, cell structure, and gene expression of Theobroma cacao seedlings subjected to Cu toxicity.

Author

Souza VL, de Almeida AA, Souza Jde S, Mangabeira PA, de Jesus RM, Pirovani CP, Ahnert D, Baligar VC, and Loguercio LL

Subjects

Cacao cytology, Cacao genetics, Seedlings cytology, Seedlings metabolism, Stress, Physiological, Cacao physiology, Copper toxicity, Gene Expression drug effects, Seedlings genetics, Soil Pollutants toxicity

Abstract

Seedlings of Theobroma cacao CCN 51 genotype were grown under greenhouse conditions and exposed to increasing concentrations of Cu (0.005, 1, 2, 4, 8, 16, and 32 mg Cu L(-1)) in nutrient solution. When doses were equal or higher than 8 mg Cu L(-1), after 24 h of treatment application, leaf gas exchange was highly affected and changes in chloroplasts thylakoids of leaf mesophyll cells and plasmolysis of cells from the root cortical region were observed. In addition, cell membranes of roots and leaves were damaged. In leaves, 96 h after treatments started, increases in the percentage of electrolyte leakage through membranes were observed with increases of Cu in the nutrient solution. Moreover, there was an increase in the concentration of thiobarbituric acid-reactive substances in roots due to lipid peroxidation of membranes. Chemical analysis showed that increases in Cu concentrations in vegetative organs of T. cacao increased with the increase of the metal in the nutrient solution, but there was a greater accumulation of Cu in roots than in shoots. The excess of Cu interfered in the levels of Mn, Zn, Fe, Mg, K, and Ca in different organs of T. cacao. Analysis of gene expression via RTq-PCR showed increased levels of MT2b, SODCyt, and PER-1 expression in roots and of MT2b, PSBA, PSBO, SODCyt, and SODChI in leaves. Hence, it was concluded that Cu in nutrient solution at doses equal or above 8 mg L(-1) significantly affected leaf gas exchange, cell ultrastructure, and transport of mineral nutrients in seedlings of this T. cacao genotype.

Published

2014

28. Interaction complexity matters: disentangling services and disservices of ant communities driving yield in tropical agroecosystems.

Author

Wielgoss A, Tscharntke T, Rumede A, Fiala B, Seidel H, Shahabuddin S, and Clough Y

Subjects

Animals, Ecosystem, Herbivory, Insect Vectors microbiology, Insect Vectors physiology, Introduced Species, Plant Diseases microbiology, Ants physiology, Behavior, Animal, Cacao physiology, Crops, Agricultural physiology, Social Behavior, Tropical Climate

Abstract

Owing to complex direct and indirect effects, impacts of higher trophic levels on plants is poorly understood. In tropical agroecosystems, ants interact with crop mutualists and antagonists, but little is known about how this integrates into the final ecosystem service, crop yield. We combined ant exclusion and introduction of invasive and native-dominant species in cacao agroecosystems to test whether (i) ant exclusion reduces yield, (ii) dominant species maximize certain intermediate ecosystem services (e.g. control of specific pests) rather than yield, which depends on several, cascading intermediate services and (iii) even, species-rich ant communities result in highest yields. Ants provided services, including reduced leaf herbivory and fruit pest damage and indirect pollination facilitation, but also disservices, such as increased mealybug density, phytopathogen dissemination and indirect pest damage enhancement. Yields were highest with unmanipulated, species-rich, even communities, whereas ant exclusion decreased yield by 27%. Introduction of an invasive-dominant ant decreased species density and evenness and resulted in 34% lower yields, whereas introduction of a non-invasive-dominant species resulted in similar species density and yields as in the unmanipulated control. Species traits and ant community structure affect services and disservices for agriculture in surprisingly complex ways, with species-rich and even communities promoting highest yield.

Published

2013

29. Gene flow and genetic diversity in cultivated and wild cacao (Theobroma cacao) in Bolivia.

Author

Chumacero de Schawe C, Durka W, Tscharntke T, Hensen I, and Kessler M

Subjects

Bolivia, Cacao genetics, Microsatellite Repeats, Principal Component Analysis, Trees genetics, Trees physiology, Tropical Climate, Cacao physiology, Gene Flow, Genetic Variation, Pollination

Abstract

Premise of the Study: The role of pollen flow within and between cultivated and wild tropical crop species is little known. To study the pollen flow of cacao, we estimated the degree of self-pollination and pollen dispersal distances as well as gene flow between wild and cultivated cacao (Theobroma cacao L.)., Methods: We studied pollen flow and genetic diversity of cultivated and wild cacao populations by genotyping 143 wild and 86 cultivated mature plants and 374 seedlings raised from 19 wild and 25 cultivated trees at nine microsatellite loci., Key Results: A principal component analysis distinguished wild and cultivated cacao trees, supporting the notion that Bolivia harbors truly wild cacao populations. Cultivated cacao had a higher level of genetic diversity than wild cacao, presumably reflecting the varied origin of cultivated plants. Both cacao types had high outcrossing rates, but the paternity analysis revealed 7-14% self-pollination in wild and cultivated cacao. Despite the tiny size of the pollinators, pollen was transported distances up to 3 km; wild cacao showed longer distances (mean = 922 m) than cultivated cacao (826 m). Our data revealed that 16-20% of pollination events occurred between cultivated and wild populations., Conclusions: We found evidence of self-pollination in both wild and cultivated cacao. Pollination distances are larger than those typically reported in tropical understory tree species. The relatively high pollen exchange from cultivated to wild cacao compromises genetic identity of wild populations, calling for the protection of extensive natural forest tracts to protect wild cacao in Bolivia.

Published

2013

30. Sodium-potassium synergism in Theobroma cacao: stimulation of photosynthesis, water-use efficiency and mineral nutrition.

Author

Gattward JN, Almeida AA, Souza JO Jr, Gomes FP, and Kronzucker HJ

Subjects

Cacao metabolism, Cacao physiology, Calcium metabolism, Magnesium metabolism, Minerals metabolism, Plant Leaves drug effects, Plant Leaves metabolism, Plant Leaves physiology, Plant Stomata drug effects, Plant Stomata metabolism, Plant Stomata physiology, Plant Transpiration drug effects, Regression Analysis, Soil chemistry, Sulfur metabolism, Zinc metabolism, Cacao drug effects, Photosynthesis drug effects, Potassium pharmacology, Sodium pharmacology, Water metabolism

Abstract

In ecological setting, sodium (Na(+)) can be beneficial or toxic, depending on plant species and the Na(+) level in the soil. While its effects are more frequently studied at high saline levels, Na(+) has also been shown to be of potential benefit to some species at lower levels of supply, especially in C4 species. Here, clonal plants of the major tropical C3 crop Theobroma cacao (cacao) were grown in soil where potassium (K(+)) was partially replaced (at six levels, up to 50% replacement) by Na(+), at two concentrations (2.5 and 4.0 mmol(c) dm(-3)). At both concentrations, net photosynthesis per unit leaf area (A) increased more than twofold with increasing substitution of K(+) by Na(+). Concomitantly, instantaneous (A/E) and intrinsic (A/g(s)) water-use efficiency (WUE) more than doubled. Stomatal conductance (g(s)) and transpiration rate (E) exhibited a decline at 2.5 mmol dm(-3), but remained unchanged at 4 mmol dm(-3). Leaf nitrogen content was not impacted by Na(+) supplementation, whereas sulfur (S), calcium (Ca(2+)), magnesium (Mg(2+)) and zinc (Zn(2+)) contents were maximized at 2.5 mmol dm(-3) and intermediate (30-40%) replacement levels. Leaf K(+) did not decline significantly. In contrast, leaf Na(+) content increased steadily. The resultant elevated Na(+)/K(+) ratios in tissue correlated with increased, not decreased, plant performance. The results show that Na(+) can partially replace K(+) in the nutrition of clonal cacao, with significant beneficial effects on photosynthesis, WUE and mineral nutrition in this major perennial C3 crop., (Copyright © Physiologia Plantarum 2012.)

Published

2012

31. Cardiovascular effects of flavanol-rich chocolate in patients with heart failure.

Author

Flammer AJ, Sudano I, Wolfrum M, Thomas R, Enseleit F, Périat D, Kaiser P, Hirt A, Hermann M, Serafini M, Lévêques A, Lüscher TF, Ruschitzka F, Noll G, and Corti R

Subjects

Ankle Brachial Index, Baroreflex drug effects, Biomarkers metabolism, Blood Pressure drug effects, Double-Blind Method, Endothelium, Vascular physiology, Female, Flavonols blood, Heart Rate drug effects, Humans, Male, Middle Aged, Oxidative Stress drug effects, Platelet Adhesiveness drug effects, Polyphenols blood, Vasodilation drug effects, Cacao physiology, Candy, Flavonols pharmacology, Heart Failure physiopathology

Abstract

Aims: Flavanol-rich chocolate (FRC) is beneficial for vascular and platelet function by increasing nitric oxide bioavailability and decreasing oxidative stress. Congestive heart failure (CHF) is characterized by impaired endothelial and increased platelet reactivity. As statins are ineffective in CHF, alternative therapies are a clinical need. We therefore investigated whether FRC might improve cardiovascular function in patients with CHF., Methods and Results: Twenty patients with CHF were enrolled in a double-blind, randomized placebo-controlled trial, comparing the effect of commercially available FRC with cocoa-liquor-free control chocolate (CC) on endothelial and platelet function in the short term (2 h after ingestion of a chocolate bar) and long term (4 weeks, two chocolate bars/day). Endothelial function was assessed non-invasively by flow-mediated vasodilatation of the brachial artery. Flow-mediated vasodilatation significantly improved from 4.98 ± 1.95 to 5.98 ± 2.32% (P = 0.045 and 0.02 for between-group changes) 2h after intake of FRC to 6.86 ± 1.76% after 4 weeks of daily intake (P = 0.03 and 0.004 for between groups). No effect on endothelial-independent vasodilatation was observed. Platelet adhesion significantly decreased from 3.9 ± 1.3 to 3.0 ± 1.3% (P = 0.03 and 0.05 for between groups) 2 h after FRC, an effect that was not sustained at 2 and 4 weeks. Cocoa-liquor-free CC had no effect, either on endothelial function or on platelet function. Blood pressure and heart rate did not change in either group., Conclusion: Flavanol-rich chocolate acutely improves vascular function in patients with CHF. A sustained effect was seen after daily consumption over a 4-week period, even after 12 h abstinence. These beneficial effects were paralleled by an inhibition of platelet function in the presence of FRC only.

Published

2012

32. Chocolate and cardiovascular disease: a sweet deal?

Author

Widmer RJ, Lerman LO, and Lerman A

Subjects

Female, Humans, Male, Cacao physiology, Candy, Flavonols pharmacology, Heart Failure physiopathology

Published

2012

33. Confocal observations of late-acting self-incompatibility in Theobroma cacao L.

Author

Ford CS and Wilkinson MJ

Subjects

Cacao cytology, Cell Nucleus physiology, Microscopy, Confocal, Ovule physiology, Pollen physiology, Pollen Tube cytology, Pollen Tube physiology, Pollination physiology, Cacao physiology, Ovule cytology, Pollen cytology, Self-Incompatibility in Flowering Plants physiology

Abstract

Cocoa (Theobroma cacao) has an idiosyncratic form of late-acting self-incompatibility that operates through the non-fusion of incompatible gametes. Here, we used high-resolution confocal microscopy to define fine level changes to the embryo sac of the strongly self-incompatible cocoa genotype SCA 24 in the absence of pollination, and following compatible and incompatible pollination. All sperm nuclei had fused with the female nuclei by 48 h following compatible pollinations. However, following incompatible pollinations, we observed divergence in the behaviour of sperm nuclei following release into the embryo sac. Incomplete sperm nucleus migration occurred in approximately half of the embryo sacs, where the sperm nuclei had so far failed to reach the female gamete nuclei. Sperm nuclei reached but did not fuse with the female gamete nuclei in the residual cases. We argue that the cellular mechanisms governing sperm nucleus migration to the egg nucleus and those controlling subsequent nuclear fusion are likely to differ and should be considered independently. Accordingly, we recommend that future efforts to characterise the genetic basis of LSI in cocoa should take care to differentiate between these two events, both of which contribute to failed karyogamy. Implications of these results for continuing efforts to gain better understanding of the genetic control of LSI in cocoa are discussed.

Published

2012

34. Microbiological and physicochemical characterization of small-scale cocoa fermentations and screening of yeast and bacterial strains to develop a defined starter culture.

Author

Pereira GV, Miguel MG, Ramos CL, and Schwan RF

Subjects

Acetobacter growth & development, Brazil, Cacao physiology, Denaturing Gradient Gel Electrophoresis, Kinetics, Lactobacillus growth & development, Polymerase Chain Reaction, Saccharomyces cerevisiae growth & development, Acetobacter metabolism, Cacao microbiology, Culture Media chemistry, Fermentation physiology, Food Microbiology, Lactobacillus metabolism, Saccharomyces cerevisiae metabolism

Abstract

Spontaneous cocoa bean fermentations performed under bench- and pilot-scale conditions were studied using an integrated microbiological approach with culture-dependent and culture-independent techniques, as well as analyses of target metabolites from both cocoa pulp and cotyledons. Both fermentation ecosystems reached equilibrium through a two-phase process, starting with the simultaneous growth of the yeasts (with Saccharomyces cerevisiae as the dominant species) and lactic acid bacteria (LAB) (Lactobacillus fermentum and Lactobacillus plantarum were the dominant species), which were gradually replaced by the acetic acid bacteria (AAB) (Acetobacter tropicalis was the dominant species). In both processes, a sequence of substrate consumption (sucrose, glucose, fructose, and citric acid) and metabolite production kinetics (ethanol, lactic acid, and acetic acid) similar to that of previous, larger-scale fermentation experiments was observed. The technological potential of yeast, LAB, and AAB isolates was evaluated using a polyphasic study that included the measurement of stress-tolerant growth and fermentation kinetic parameters in cocoa pulp media. Overall, strains L. fermentum UFLA CHBE8.12 (citric acid fermenting, lactic acid producing, and tolerant to heat, acid, lactic acid, and ethanol), S. cerevisiae UFLA CHYC7.04 (ethanol producing and tolerant to acid, heat, and ethanol), and Acetobacter tropicalis UFLA CHBE16.01 (ethanol and lactic acid oxidizing, acetic acid producing, and tolerant to acid, heat, acetic acid, and ethanol) were selected to form a cocktail starter culture that should lead to better-controlled and more-reliable cocoa bean fermentation processes.

Published

2012

35. Colletotrichum gloeosporioides s.l. associated with Theobroma cacao and other plants in Panama: multilocus phylogenies distinguish host-associated pathogens from asymptomatic endophytes.

Author

Rojas EI, Rehner SA, Samuels GJ, Van Bael SA, Herre EA, Cannon P, Chen R, Pang J, Wang R, Zhang Y, Peng YQ, and Sha T

Subjects

Cacao physiology, Colletotrichum genetics, Colletotrichum physiology, Molecular Sequence Data, Mycological Typing Techniques, Panama, Cacao microbiology, Colletotrichum classification, Colletotrichum isolation & purification, Host-Pathogen Interactions, Phylogeny, Symbiosis

Abstract

Colletotrichum interacts with numerous plant species overtly as symptomatic pathogens and cryptically as asymptomatic endophytes. It is not known whether these contrasting ecological modes are optional strategies expressed by individual Colletotrichum species or whether a species' ecology is explicitly pathogenic or endophytic. We explored this question by inferring relationships among 77 C. gloeosporioides s.l. strains isolated from asymptomatic leaves and from anthracnose lesions on leaves and fruits of Theobroma cacao (cacao) and other plants from Panamá. ITS and 5'-tef1 were used to assess diversity and to delineate operational taxonomic units for multilocus phylogenetic analysis. The ITS and 5'-tef1 screens concordantly resolved four strongly supported lineages, clades A-D: Clade A includes the ex type of C. gloeosporioides, clade B includes the ex type ITS sequence of C. boninense, and clades C and D are unidentified. The ITS yielded limited resolution and support within all clades, in particular the C. gloeosporioides clade (A), the focal lineage dealt with in this study. In contrast the 5'-tef1 screen differentiated nine distinctive haplotype subgroups within the C. gloeosporioides clade that were concordant with phylogenetic terminals resolved in a five-locus nuclear phylogeny. Among these were two phylogenetic species associated with symptomatic infections specific to either cacao or mango and five phylogenetic species isolated principally as asymptomatic infections from cacao and other plant hosts. We formally describe two new species, C. tropicale and C. ignotum, that are frequent asymptomatic associates of cacao and other Neotropical plant species, and epitypify C. theobromicola, which is associated with foliar and fruit anthracnose lesions of cacao. Asymptomatic Colletotrichum strains isolated from cacao plants grown in China included six distinct C. gloeosporioides clade taxa, only one of which is known to occur in the Neotropics.

Published

2010

36. Chocolate: the health food.

Author

Miracle VA

Subjects

Antioxidants pharmacology, Cacao adverse effects, Cacao chemistry, Flavonoids pharmacology, Humans, Phenethylamines pharmacology, Phenols pharmacology, Polyphenols, Cacao physiology, Food, Organic adverse effects, Food, Organic analysis

Published

2010

37. Eating chocolate can significantly protect the skin from UV light.

Author

Williams S, Tamburic S, and Lally C

Subjects

Double-Blind Method, Energy Intake, Erythema epidemiology, Erythema prevention & control, Flavonoids administration & dosage, Humans, Nutritive Value, Ultraviolet Rays, Cacao physiology, Candy radiation effects, Flavonoids pharmacology, Radiation Protection methods, Skin radiation effects

Abstract

Background: Cocoa beans fresh from the tree are exceptionally rich in flavanols. Unfortunately, during conventional chocolate making, this high antioxidant capacity is greatly reduced due to manufacturing processes., Aim: To evaluate the photoprotective potential of chocolate consumption, comparing a conventional dark chocolate to a specially produced chocolate with preserved high flavanol (HF) levels., Methods: A double-blind in vivo study in 30 healthy subjects was conducted. Fifteen subjects each were randomly assigned to either a HF or low flavanol (LF) chocolate group and consumed a 20 g portion of their allocated chocolate daily. The minimal erythema dose (MED) was assessed at baseline and after 12 weeks under standardized conditions., Results: In the HF chocolate group the mean MED more than doubled after 12 weeks of chocolate consumption, while in the LF chocolate group, the MED remained without significant change., Conclusions: Our study demonstrated that regular consumption of a chocolate rich in flavanols confers significant photoprotection and can thus be effective at protecting human skin from harmful UV effects. Conventional chocolate has no such effect.

Published

2009

38. Parentage analysis and outcrossing patterns in cacao (Theobroma cacao L.) farms in Cameroon.

Author

Efombagn MI, Sounigo O, Eskes AB, Motamayor JC, Manzanares-Dauleux MJ, Schnell R, and Nyassé S

Subjects

Cacao physiology, Cameroon, Genetic Variation, Genotype, Hybridization, Genetic, Microsatellite Repeats, Cacao genetics, Crosses, Genetic

Abstract

The present study investigates the parentage of farm accessions in Cameroon using data from 12 microsatellite loci. Bayesian analysis suggests that 25.5% of the 400 farm accessions studied is still closely related to the traditional Amelonado variety called 'German Cocoa' by the farmers. Another 46.3% of the farm accessions were found to be direct descendants (20.8% first-generation (F1) hybrids and 25.5% selfed genotypes) from 24 parental clones used in biclonal seed gardens (BSGs) established in the 1970s in southern and western Cameroon. Furthermore, 28.3% of farm accessions appeared to descent from uncontrolled pollination events in cacao farms, which could be related to a common practice of cacao growers to use seeds collected in their own farm for new plantings. All farm accessions descending from BSG could be individually related through parentage analysis to the 24 progenitors of the BSG. Only 25% of progenies distributed from BSG corresponded to F1 hybrids combinations originally planned to be released. Significant biparental inbreeding estimates were observed for all 'traditional' farms and for most 'F1 hybrids' farms due to presence of a high proportion of selfed accessions. Biparental inbreeding occurs when plants receive pollen from genetically related neighbors. High levels of outcrossing observed in 'mixed' farms might be explained by the admixture of traditional varieties and BSG progenies. The implications of our finding for management of seed gardens and for further breeding using farm accessions in Cameroon are discussed.

Published

2009

39. Influence of freezable/non-freezable water and sucrose on the viability of Theobroma cacao somatic embryos following desiccation and freezing.

Author

Fang JY, Sacandé M, Pritchard H, and Wetten A

Subjects

Cacao physiology, Calorimetry, Cryopreservation methods, Cryoprotective Agents metabolism, Cacao embryology, Desiccation, Freezing, Sucrose metabolism, Water physiology

Abstract

Encapsulated cocoa (Theobroma cacao L.) somatic embryos subjected to 0.08-1.25 M sucrose treatments were analyzed for embryo soluble sugar content, non-freezable water content, moisture level after desiccation and viability after desiccation and freezing. Results indicated that the higher the sucrose concentration in the treatment medium, the greater was the extent of sucrose accumulation in the embryos. Sucrose treatment greatly assisted embryo post-desiccation recovery since only 40% of the control embryos survived desiccation, whereas a survival rate of 60-95% was recorded for embryos exposed to 0.5-1.25 M sucrose. The non-freezable water content of the embryos was estimated at between 0.26 and 0.61 g H(2)O g(-1)dw depending on the sucrose treatment, and no obvious relationship could be found between the endogenous sucrose level and the amount of non-freezable water in the embryos. Cocoa somatic embryos could withstand the loss of a fraction of their non-freezable water without losing viability following desiccation. Nevertheless, the complete removal of potentially freezable water was not sufficient for most embryos to survive freezing.

Published

2009

40. The beneficial endophyte Trichoderma hamatum isolate DIS 219b promotes growth and delays the onset of the drought response in Theobroma cacao.

Author

Bae H, Sicher RC, Kim MS, Kim SH, Strem MD, Melnick RL, and Bailey BA

Subjects

Cacao genetics, Cacao microbiology, Droughts, Gene Expression Regulation, Plant, Plant Proteins genetics, Plant Proteins metabolism, Plant Roots genetics, Plant Roots growth & development, Plant Roots microbiology, Plant Roots physiology, Stress, Physiological, Trichoderma isolation & purification, Water metabolism, Cacao growth & development, Cacao physiology, Trichoderma growth & development

Abstract

Theobroma cacao (cacao) is cultivated in tropical climates and is exposed to drought stress. The impact of the endophytic fungus Trichoderma hamatum isolate DIS 219b on cacao's response to drought was studied. Colonization by DIS 219b delayed drought-induced changes in stomatal conductance, net photosynthesis, and green fluorescence emissions. The altered expression of 19 expressed sequence tags (ESTs) (seven in leaves and 17 in roots with some overlap) by drought was detected using quantitative real-time reverse transcription PCR. Roots tended to respond earlier to drought than leaves, with the drought-induced changes in expression of seven ESTs being observed after 7 d of withholding water. Changes in gene expression in leaves were not observed until after 10 d of withholding water. DIS 219b colonization delayed the drought-altered expression of all seven ESTs responsive to drought in leaves by > or = 3 d, but had less influence on the expression pattern of the drought-responsive ESTs in roots. DIS 219b colonization had minimal direct influence on the expression of drought-responsive ESTs in 32-d-old seedlings. By contrast, DIS 219b colonization of 9-d-old seedlings altered expression of drought-responsive ESTs, sometimes in patterns opposite of that observed in response to drought. Drought induced an increase in the concentration of many amino acids in cacao leaves, while DIS 219b colonization caused a decrease in aspartic acid and glutamic acid concentrations and an increase in alanine and gamma-aminobutyric acid concentrations. With or without exposure to drought conditions, colonization by DIS 219b promoted seedling growth, the most consistent effects being an increase in root fresh weight, root dry weight, and root water content. Colonized seedlings were slower to wilt in response to drought as measured by a decrease in the leaf angle drop. The primary direct effect of DIS 219b colonization was promotion of root growth, regardless of water status, and an increase in water content which it is proposed caused a delay in many aspects of the drought response of cacao.

Published

2009

41. Flavanol-rich cocoa a promising new dietary intervention to reduce cardiovascular risk in type 2 diabetes?

Author

Campia U and Panza JA

Subjects

Cardiovascular Diseases prevention & control, Diabetes Mellitus, Type 2 drug therapy, Flavonols blood, Humans, Risk Factors, Brachial Artery drug effects, Cacao physiology, Cardiovascular Diseases etiology, Diabetes Mellitus, Type 2 physiopathology, Endothelium, Vascular drug effects, Flavonols pharmacology

Published

2008

42. [Cocoa, chocolate--from temptation to remedy?].

Author

Lüscher TF and Flammer AJ

Subjects

Blood Pressure physiology, Cardiovascular Diseases physiopathology, Endothelium, Vascular physiopathology, Energy Intake, Enzyme Activation physiology, Humans, Nitric Oxide Synthase metabolism, Platelet Aggregation physiology, Vasodilation, Cacao adverse effects, Cacao physiology, Cardiovascular Diseases prevention & control

Published

2008

43. Regeneration of somatic embryos in Theobroma cacao L. in temporary immersion bioreactor and analyses of free amino acids in different tissues.

Author

Niemenak N, Saare-Surminski K, Rohsius C, Ndoumou DO, and Lieberei R

Subjects

Cotyledon physiology, Seeds physiology, gamma-Aminobutyric Acid metabolism, Amino Acids metabolism, Bioreactors, Cacao physiology

Abstract

The present study aimed at developing temporary immersion bioreactor techniques for multiplication of cacao somatic embryos. Temporary Immersion System (TIS), i.e. flooding of plant tissue at regular time intervals provides an efficient way to propagate plants. Somatic embryos were regenerated in twin flask bioreactors. The TIS proved to be suitable for mass regeneration of somatic embryos and for their subsequent direct sowing. The number of embryos after 3 months of culture was significantly higher in TIS cultures than in the solid medium variant. TIS also improved embryo development regarding the conversion to torpedo shaped forms. Matured embryos derived from TIS and pre-treated with 6% sucrose were converted into plants after direct sowing. Additionally to the influence of culture conditions on the development of somatic embryogenesis the content and composition of free amino acids were analysed. The content of free amino acids in somatic embryos rose as immersion frequency increased. The endogenous free GABA content in embryogenic callus was significantly higher than in non-embryogenic callus.

Published

2008

44. Extreme chocolate: the quest for the perfect bean.

Author

Buford B

Subjects

Agriculture economics, Agriculture history, Agriculture methods, Beverages history, Beverages supply & distribution, Candy analysis, Economics history, History, 16th Century, History, 17th Century, History, 19th Century, History, 20th Century, History, 21st Century, Latin America, Cacao anatomy & histology, Cacao chemistry, Cacao classification, Cacao economics, Cacao history, Cacao physiology, Cacao poisoning, Cacao standards, Cacao supply & distribution, Cacao ultrastructure, Candy classification, Candy economics, Candy history, Candy standards, Candy supply & distribution

Published

2007

45. Dark chocolate improves endothelial and platelet function.

Author

Hermann F, Spieker LE, Ruschitzka F, Sudano I, Hermann M, Binggeli C, Lüscher TF, Riesen W, Noll G, and Corti R

Subjects

Antioxidants analysis, Blood Platelets chemistry, Humans, Male, Antioxidants physiology, Cacao physiology, Endothelium, Vascular physiology, Platelet Aggregation physiology, Vasodilation physiology

Published

2006

46. Detection and quantification of in vitro-culture induced chimerism using simple sequence repeat (SSR) analysis in Theobroma cacao (L.).

Author

Rodríguez López CM, Wetten AC, and Wilkinson MJ

Subjects

Alleles, Cacao cytology, Cacao embryology, Cacao physiology, Chimera genetics, DNA, Plant genetics, Minisatellite Repeats, Mutation, Regeneration, Tissue Culture Techniques, Cacao genetics

Abstract

Mutation rates are often elevated in plants regenerated from in vitro culture, giving rise to so-called 'somaclonal variation'. Detailed characterisation of mutation profiles that arise during culture should improve our understanding of processes influencing mutation and allow the selection of protocols yielding the fewest/least severe changes. Somatic mutations will usually produce genetic chimeras where unchanged alleles are retained by some cells. Such chimeras are difficult to detect but likely to form a significant proportion of any regenerant population. We present a simple protocol that enables the provisional diagnosis of both homogenous and chimeric mutants among large regenerant populations, together with a semi-quantitative means of estimating the proportion of mutant cells. The assay exploits consistent differential amplification of alternate simple sequence repeat alleles at heterozygous loci. Calibration of the relative amplification of alleles from two genotypes-and the synthetic chimeras created from them-revealed a strong linear relationship between 'peak heights' representing alternate alleles following capillary electrophoresis. The assay predicts chimeric composition to a reasonable level of confidence (+/-5%) so long as the infrequent allele exceeds 15% of the template. The system was applied to 233 regenerants of cocoa somatic embryogenesis and identified 72 (31%) putative chimeric mutants for slippage mutation or allele loss across two loci.

Published

2004

47. Creation of BAC genomic resources for cocoa ( Theobroma cacao L.) for physical mapping of RGA containing BAC clones.

Author

Clément D, Lanaud C, Sabau X, Fouet O, Le Cunff L, Ruiz E, Risterucci AM, Glaszmann JC, and Piffanelli P

Subjects

Cacao parasitology, Chromosomes, Plant genetics, Contig Mapping, Gene Library, Genetic Markers genetics, Genome, Plant, Genotype, Phenotype, Phytophthora physiology, Plant Diseases parasitology, Reproducibility of Results, Cacao genetics, Cacao physiology, Chromosomes, Artificial, Bacterial genetics, Genomics methods, Physical Chromosome Mapping methods, Plant Diseases genetics

Abstract

We have constructed and validated the first cocoa ( Theobroma cacao L.) BAC library, with the aim of developing molecular resources to study the structure and evolution of the genome of this perennial crop. This library contains 36,864 clones with an average insert size of 120 kb, representing approximately ten haploid genome equivalents. It was constructed from the genotype Scavina-6 (Sca-6), a Forastero clone highly resistant to cocoa pathogens and a parent of existing mapping populations. Validation of the BAC library was carried out with a set of 13 genetically-anchored single copy and one duplicated markers. An average of nine BAC clones per probe was identified, giving an initial experimental estimation of the genome coverage represented in the library. Screening of the library with a set of resistance gene analogues (RGAs), previously mapped in cocoa and co-localizing with QTL for resistance to Phytophthora traits, confirmed at the physical level the tight clustering of RGAs in the cocoa genome and provided the first insights into the relationships between genetic and physical distances in the cocoa genome. This library represents an available BAC resource for structural genomic studies or map-based cloning of genes corresponding to important QTLs for agronomic traits such as resistance genes to major cocoa pathogens like Phytophthora spp ( palmivora and megakarya), Crinipellis perniciosa and Moniliophthora roreri.

Published

2004

48. The power of the perk. Understanding the health effects of caffeine.

Author

Frank GC

Subjects

Adolescent, Adult, Cacao chemistry, Cacao physiology, Caffeine adverse effects, Central Nervous System Stimulants adverse effects, Child, Coffee adverse effects, Coffee chemistry, Coffee physiology, Humans, Tea chemistry, Tea physiology, Caffeine pharmacology, Central Nervous System Stimulants pharmacology

Published

2002

49. Rate of dehydration and cumulative desiccation stress interacted to modulate desiccation tolerance of recalcitrant cocoa and ginkgo embryonic tissues.

Author

Liang Y and Sun WQ

Subjects

Adaptation, Physiological drug effects, Cacao drug effects, Desiccation, Ginkgo biloba drug effects, Models, Biological, Osmotic Pressure, Seeds drug effects, Stress, Mechanical, Water pharmacology, Adaptation, Physiological physiology, Cacao physiology, Ginkgo biloba physiology, Seeds physiology, Water metabolism

Abstract

Rate of dehydration greatly affects desiccation tolerance of recalcitrant seeds. This effect is presumably related to two different stress vectors: direct mechanical or physical stress because of the loss of water and physicochemical damage of tissues as a result of metabolic alterations during drying. The present study proposed a new theoretic approach to represent these two types of stresses and investigated how seed tissues responded differently to two stress vectors, using the models of isolated cocoa (Theobroma cacao) and ginkgo (Ginkgo biloba) embryonic tissues dehydrated under various drying conditions. This approach used the differential change in axis water potential (DeltaPsi/Deltat) to quantify rate of dehydration and the intensity of direct physical stress experienced by embryonic tissues during desiccation. Physicochemical effect of drying was expressed by cumulative desiccation stress [integralf(psi,t)], a function of both the rate and time of dehydration. Rapid dehydration increased the sensitivity of embryonic tissues to desiccation as indicated by high critical water contents, below which desiccation damage occurred. Cumulative desiccation stress increased sharply under slow drying conditions, which was also detrimental to embryonic tissues. This quantitative analysis of the stress-time-response relationship helps to understand the physiological basis for the existence of an optimal dehydration rate, with which maximum desiccation tolerance could be achieved. The established numerical analysis model will prove valuable for the design of experiments that aim to elucidate biochemical and physiological mechanisms of desiccation tolerance.

Published

2002

50. [Drinks and social environment in 19th-century Cuba].

Author

Sarmiento Ramirez I

Subjects

Anthropology, Cultural history, Beverages economics, Beverages history, Cacao economics, Cacao history, Cacao physiology, Coffee economics, Coffee history, Coffee physiology, Cuba ethnology, Drinking physiology, Food economics, Food history, Fruit economics, Fruit history, Fruit physiology, History, 19th Century, Plants, Medicinal physiology, Religion and Medicine, Saccharum physiology, Alcoholic Beverages economics, Alcoholic Beverages history, Culture, Social Problems economics, Social Problems ethnology, Social Problems history, Social Problems legislation & jurisprudence, Social Problems psychology

Published

2002