Reproductive biology of the Egyptian free-tailed bat, Tadarida Aegyptiaca

Tsita, Johannes Ngoako

January 1994

The reproductive biology of Tadarida aegyptiaca was studied using specimens collected in the Cape Province of South Africa. The morphology of the reproductive tract of the species was generally similar to that of other molossids, however, the absence of Cowpers glands was unusual. Spermatogenesis began in February and spermatozoa were released to the cauda epididymis during August and September. Follicular development started in March and culminated with the appearance of Graafian follicles in July. Ovulation probably occurred in August and specimens were pregnant by September. Gestation length was estimated to be four to five months and a single young was born in December. The data suggest that T. aegyptiaca is monotocous and monoestrous.

Tadarida aegyptiaca -- Reproduction

Bats -- Reproduction

Selective Control o Egyptian Broomrape (Orobanche Aegyptiacapers.) by Glyphosate and its Amino Acid Status in Relation to Selected Hosts

Nandula, Vijay K. II

10 April 1998

Broomrapes are achlorophyllous holoparasites of many economically important dicotyledonous crops. As weeds, they cause reductions in crop yield, adversely affect crop quality, and result in loss of cultivated land due to reduced crop alternatives. Few effective control measures exist for broomrapes. One of the most promising approaches is the use of low rates of glyphosate in hosts with tolerance to the herbicide. Recently, availability of glyphosate-resistant crops has provided an alternative in broomrape infested areas. Knowledge about the nitrogen status of broomrapes is essential for developing new control strategies. Broomrapes have two potential sources of amino acids. First, the haustorium aids in the translocation of amino acids from the host plant to the parasites. Second, broomrapes may be able to synthesize some amino acids themselves and obtain the rest from the host. However, the relative importance of these two modes of acquiring amino acids by broomrapes is not clear. Osmotic stress has been implicated as a possible reason for inhibition of broomrape germination by nitrogen. To date, there has been no attempt to correlate osmotic potential with nitrogen induced inhibition of broomrape germination. Optimum temperatures for conditioning and germination are different among broomrape species. Although temperature is known to influence germination in broomrape, its effect on subsequent development of the parasitic seedling has not been studied. Studies were conducted to determine the use of glyphosate in controlling broomrape in common vetch that is tolerant to low rates of glyphosate, and to compare this response with broomrape control in oilseed rape that has been genetically engineered for glyphosate resistance. Glyphosate dose response studies using a commercial formulation and patterns of absorption, translocation, and metabolism, using ¹⁴C-glyphosate, were determined for both host crops. Glyphosate significantly reduced the growth of broomrape at 0.18 and 0.36 kg ae ha⁻¹> in common vetch and 0.25 to 0.75 kg ha⁻¹ in oilseed rape. More than 25% of translocated ¹⁴C-glyphosate in both host crops accumulated in broomrape tubercles. Broomrape parasitism caused a redistribution of translocated ¹⁴C-glyphosate in the roots of both host crops. Glyphosate was metabolized up to 25% in common vetch, but remained intact in oilseed rape. Studies were conducted to analyze amino acid composition of both nonparasitized and broomrape-parasitized hosts and associated broomrape after hydrolysis and phenylisothiocyanate derivatization of amino acids. Results indicated that amino acid concentrations of leaves of parasitized carrot plants were lower than those of the leaves of nonparasitized carrot plants. Broomrape tubercles had equal or higher amino acid concentrations compared to those of the leaves of nonparasitized carrot plants. Levels of free alanine and arginine concentrations of broomrape callus were higher than those of any other tissue of either carrot or broomrape. The effect of glyphosate on the host-broomrape interaction regarding amino acid metabolism was examined. Glyphosate generally increased the amino acid concentrations in common vetch and oilseed rape plants, and broomrape attachments. The aromatic amino acids, phenylalanine and tyrosine, did not differ from this pattern. Concentrations of certain amino acids in broomrape were similar to those of parasitized common vetch and parasitized oilseed rape, whereas levels of several others, were higher in broomrape attachments compared to the host plants. <I>In vitro</I> studies were conducted to determine the influence of osmotic potential and temperature on broomrape germination. Osmotic potential significantly affected germination and radicle elongation of broomrapes. No correlation was found between osmotic potential and ammonium-induced inhibition of germination of broomrapes. Temperature significantly influenced germination and radicle elongation of all broomrape species tested. / Ph. D.

Glyphosate

Orobanche aegyptiaca

Egyptian broomrape

Amino acid

Study and Manipulation of the Salicylic Acid-Dependent Defense Pathway in Plants Parasitized by Orobanche aegyptiaca Pers.

Hurtado, Oscar

22 October 2004

The parasitic angiosperm Orobanche aegyptiaca (Pers.) (Egyptian broomrape) is a root holoparasite that causes severe losses in yield and quality of many crops. Control of Orobanche is extremely challenging, in part because the parasite is hidden underground for most of its life cycle. However, the dependence of the parasite on the host suggests that broomrape-resistant hosts could be an ideal control method. Genetic engineering strategies may facilitate realization of this goal, but require an understanding of host defense responses to parasitism. Previous studies with tobacco indicated that broomrape parasitism induces host genes associated with jasmonic acid (JA)-mediated defenses such as wound responses and localized production of phenylpropanoid and isoprenoid phytoalexins. However, the gene for the pathogenesis-related (PR) protein, PR-1a, was not induced by parasitism in tobacco. Expression of PR-1a is correlated with the salicylic acid (SA)-mediated defense pathway that leads to systemic acquired resistance (SAR). The objective of this research was to extend the characterization of PR gene expression in order to define the scope of host defense response. Analyses of gene expression using RNA hybridization and RT-PCR in broomrape-parasitized Arabidopsis thaliana roots indicated that PR-1, PR-2, PR-5, as well as the JA-associated PDF1.2, were slightly induced by parasitism. Expression of PR-1, PR-5, and PDF1.2 in parasitized roots was not detectable by RNA hybridization analysis, but was demonstrated by RT-PCR. Interestingly, shoots of the parasitized plants showed greater PR gene expression levels than roots, indicating that O. aegyptiaca induced a response in the host that was systemic and amplified in shoots. Microarray analysis of parasitized Arabidopsis roots demonstrated a broad range of host gene expression changes including both defense- and non-defense-related genes. Genes induced were consistent with O. aegyptiaca preferentially stimulating JA-mediated responses. The failure of O. aegyptiaca to elicit SA-mediated defenses in host roots suggested that exogenous induction of this signaling pathway could enhance host resistance to parasitism. Treatment of O. aegyptiaca-inoculated tobacco with BTH, a SA analog that activates SAR, caused a 49% reduction in O. aegyptiaca numbers. Analysis of PR-1a using RNA hybridizations and protein immunoblots in treated plants showed the expected induction in shoots, but not in roots, confirming the organ-specific differences in defense response observed in Arabidopsis. Experiments using a strategy to engineer the hypersensitive response via the gene-for-gene interaction confirmed previous findings that parasite-specific activation of an R/Avr interaction in tobacco reduced parasitism by approximately 50%. This research suggests that approaches to stimulate SAR in susceptible host plants may be useful for reducing Orobanche parasitism / Master of Science

microarray analysis

Orobanche aegyptiaca

plant defense response

Investigation of selected wood properties and the suitability for industrial utilization of Acacia seyal var. seyal Del and Balanites aegyptiaca (L.) Delile grown in different climatic zones of Sudan

Mohamed Shawgi Gamal, Hanadi

17 December 2014

Sudan is endowed with a great diversity of tree species; nevertheless the utilization of wood resources has traditionally concentrated on a few species only. Despite of the richness of Sudan in most of basic factors required to establish forest based industries it still almost entirely dependent on imports to satisfy its needs of the products of such industries. There is an urgent need to assess the suitability of the local fibrous raw materials for industrial utilization, this would not only reduce imports, but they would also provide an economic incentive to the forestry and industrial sectors of Sudan. Sudan has a wide variation of climatic zones, thus; great variations are expected in the anatomical and physical properties between and within species grown in each zone. This variation needs to be fully explored in order to suggest best uses for the species. The present study was carried out to assess the suitability of Acacia seyal var. seyal Del and Balanites aegyptiaca (L.) Delile wood for pulp and paper making (PPM) and flooring industry, as well as to investigate the effect of rainfall zones on selected wood properties. For this purpose, a total of thirty trees per species were collected from four states in Sudan, namely: Blue Nile, North Kordofan, South Kordofan and White Nile. The study areas located in two precipitation zones. Zone one with 273 mm mean annual rainfall, and zone two with 701 mm mean annual rainfall. Wood samples in form of disc were obtained from two heights within each tree, which are 10 % and 90 % from the tree merchantable height. Anatomical, physical and mechanical investigations were conducted in order to test the wood properties of the study species. The studied anatomical properties were: fibre and vessel diameter, lumen diameter and wall thickness. In addition to fibre length and three fibre derived values, namely: flexibility coefficient, Runkel ratio and slenderness ratio. The trend of fiber length from pith to bark was determined. The anatomical composition was described. Wood density was investigated as a main physical property. Basic density as well as air dry density were measured in the current study. Additionally, the density was measured using X-ray densitometry method in order to assess its suitability as a valid tool for the study species density determination. The trend of wood basic density from pith to bark was also determined. Brinell hardness strength was measured in the transverse and radial sections. According to the study results, the fibre length of both species considered as medium (900 -1600 μm). However, Acacia seyal has longer fiber. Acacia seyal wood density considered heavy (≥ 720 kg/m³) while that of Balanites aegyptiaca is medium (500 - < 720 kg/m³). Depending upon the mean values of hardness strength in transverse as well as radial sections, the wood of both species can be classified as very hard (up to 146 N/mm2 hardness strength). Fibre length and wood density for both species followed the increase trend from the pith to the bark. The X-ray densitometry technique is considered as a valid tool for wood density determination for both species. For each species, some wood properties (in mature wood) were significantly affected by the water stress in the drier zone. For instance, Acacia seyal fibre length was negatively affected, while vessel wall thickness, basic density as well as hardness strength of the radial section were positively affected. In case of Balanites aegyptiaca the following properties were affected: vessel dimensions (negatively) and basic density (positively). However, the water stress did not affect Acacia seyal fibre and vessel diameter and lumen diameter, fiber wall thickness, flexibility coefficient, Runkel ratio and hardness strength in transverse section. Balanites aegyptiaca fibre characteristics and hardness strength did not show any response to water stress as well. In general, the overall wood properties of the study species considered compatible for PPM and flooring industry. However, trees growing in the more humid zone are preferable for both industries, due to their lower wood density and longer fibres in case of Acacia seyal and lower density in case of Balanites aegyptiaca.

Acacia seyal

Balanites aegyptiaca

Holzeigenschaften

Acacia seyal

Balanites aegyptiaca

wood properties

ddc:630

rvk:ZC 73571

Plasticity of Primary Metabolism in Parasitic Orobanchaceae

Clermont, Kristen Renee

20 November 2018

Parasitic weeds of the family Orobanchaceae attach to the roots of host plants via haustoria capable of drawing nutrients from host vascular tissue. Species in this family span the spectrum of host nutrient dependency, allowing comparisons that provide insight into parasite adaptation. A key aspect of this is the relationship between parasite metabolism and the metabolite profile of its host. To what extent does the metabolite profile of the parasite depend on that of the host? Do parasites that differ in host-dependency also differ in their metabolism or do they use common metabolic strategies? These questions were addressed using comparative profiling of primary metabolites to gain insight into carbon and nitrogen assimilation by the obligate holoparasite Phelipanche aegyptiaca and the facultative hemiparasite Triphysaria versicolor. First, metabolite profiles of these parasites and their hosts were compared during the key life stages before and after haustorial attachment. Second, the impact of specific variations in host metabolism was analyzed for P. aegyptiaca growing on Arabidopsis thaliana hosts that had mutations in amino acid metabolism but otherwise identical genetic backgrounds. Comparison of P. aegyptiaca and T. versicolor metabolite profiles identified substantial differences in the stages spanning the transition from pre-haustorial development through post-haustorial feeding. Each parasite species is distinct from the other and from their hosts. For parasites growing on host lines that differ in amino acid content, the size of P. aegyptiaca tubercles decreased when grown on the aap6 mutant line, which has decreased levels of asparagine in the phloem sap compared to the wild type. However, altered amino acid levels in other lines did not impact P. aegyptiaca growth, indicating that this parasite has ability to compensate for variation in host metabolic composition. This research highlights the importance of aspartate and asparagine to early post-attachment metabolism in both P. aegyptiaca and T. versicolor and through host deficiencies possibly associated with decreased growth in P. aegyptiaca. Overall, this work provides insights both into the metabolism of parasitic plants and lays the foundation for the development of new metabolism-based control strategies. / Ph. D. / Parasitic weeds of the plant family Orobanchaceae attach to the roots of host plants via haustoria. Parasite haustoria embed into the host plant and are capable of drawing nutrients from host vascular tissue. Species in this family span the spectrum of the extent to which a parasitic plant may depend on its host for nutrients. This allows comparisons that provide insight into the ways in which parasites adapt. A key aspect of this is the relationship between the metabolite profile of the parasite and the metabolite profile of the host. To what extent does the metabolite profile of the parasite depend on that of the host? Do parasites that differ in host-dependency also differ in their metabolism or do they use common metabolic strategies? These questions were addressed using comparative profiling of primary metabolites to gain insight into carbon and nitrogen assimilation by the obligate parasite Phelipanche aegyptiaca (which cannot perform photosynthesis) and the facultative parasite Triphysaria versicolor (which can perform photosynthesis). First, metabolite profiles of these parasites and their hosts were compared during the key life stages before and after haustorial attachment. Second, the impact of specific variations in host metabolism was analyzed for P. aegyptiaca growing on Arabidopsis thaliana hosts. These hosts had mutations in enzymes related to amino acid metabolism but otherwise identical genetic backgrounds. Comparison of P. aegyptiaca and T. versicolor metabolite profiles identified substantial differences in the stages spanning the transition from pre-haustorial development through post-haustorial feeding. Each parasite species is distinct from the other and from their hosts. For parasites growing on host lines that differ in amino acid content, the size of P. aegyptiaca tubercles decreased when grown on the aap6 mutant line, which has decreased levels of asparagine in the phloem sap compared to the wild type. However, altered amino acid levels in other lines did not impact P. aegyptiaca growth, indicating that this parasite has ability to compensate for variation in host metabolic composition. Overall, this work provides insights both into the metabolism of parasitic plants and lays the foundation for the development of new metabolism-based control strategies.

Parasitic plants

Orobanchaceae

Phelipanche aegyptiaca

Triphysaria versicolor

primary metabolism

Investigation of selected wood properties and the suitability for industrial utilization of Acacia seyal var. seyal Del and Balanites aegyptiaca (L.) Delile grown in different climatic zones of Sudan

Mohamed Shawgi Gamal, Hanadi

16 May 2014

Sudan is endowed with a great diversity of tree species; nevertheless the utilization of wood resources has traditionally concentrated on a few species only. Despite of the richness of Sudan in most of basic factors required to establish forest based industries it still almost entirely dependent on imports to satisfy its needs of the products of such industries. There is an urgent need to assess the suitability of the local fibrous raw materials for industrial utilization, this would not only reduce imports, but they would also provide an economic incentive to the forestry and industrial sectors of Sudan. Sudan has a wide variation of climatic zones, thus; great variations are expected in the anatomical and physical properties between and within species grown in each zone. This variation needs to be fully explored in order to suggest best uses for the species. The present study was carried out to assess the suitability of Acacia seyal var. seyal Del and Balanites aegyptiaca (L.) Delile wood for pulp and paper making (PPM) and flooring industry, as well as to investigate the effect of rainfall zones on selected wood properties. For this purpose, a total of thirty trees per species were collected from four states in Sudan, namely: Blue Nile, North Kordofan, South Kordofan and White Nile. The study areas located in two precipitation zones. Zone one with 273 mm mean annual rainfall, and zone two with 701 mm mean annual rainfall. Wood samples in form of disc were obtained from two heights within each tree, which are 10 % and 90 % from the tree merchantable height. Anatomical, physical and mechanical investigations were conducted in order to test the wood properties of the study species. The studied anatomical properties were: fibre and vessel diameter, lumen diameter and wall thickness. In addition to fibre length and three fibre derived values, namely: flexibility coefficient, Runkel ratio and slenderness ratio. The trend of fiber length from pith to bark was determined. The anatomical composition was described. Wood density was investigated as a main physical property. Basic density as well as air dry density were measured in the current study. Additionally, the density was measured using X-ray densitometry method in order to assess its suitability as a valid tool for the study species density determination. The trend of wood basic density from pith to bark was also determined. Brinell hardness strength was measured in the transverse and radial sections. According to the study results, the fibre length of both species considered as medium (900 -1600 μm). However, Acacia seyal has longer fiber. Acacia seyal wood density considered heavy (≥ 720 kg/m³) while that of Balanites aegyptiaca is medium (500 - < 720 kg/m³). Depending upon the mean values of hardness strength in transverse as well as radial sections, the wood of both species can be classified as very hard (up to 146 N/mm2 hardness strength). Fibre length and wood density for both species followed the increase trend from the pith to the bark. The X-ray densitometry technique is considered as a valid tool for wood density determination for both species. For each species, some wood properties (in mature wood) were significantly affected by the water stress in the drier zone. For instance, Acacia seyal fibre length was negatively affected, while vessel wall thickness, basic density as well as hardness strength of the radial section were positively affected. In case of Balanites aegyptiaca the following properties were affected: vessel dimensions (negatively) and basic density (positively). However, the water stress did not affect Acacia seyal fibre and vessel diameter and lumen diameter, fiber wall thickness, flexibility coefficient, Runkel ratio and hardness strength in transverse section. Balanites aegyptiaca fibre characteristics and hardness strength did not show any response to water stress as well. In general, the overall wood properties of the study species considered compatible for PPM and flooring industry. However, trees growing in the more humid zone are preferable for both industries, due to their lower wood density and longer fibres in case of Acacia seyal and lower density in case of Balanites aegyptiaca.

info:eu-repo/classification/ddc/630

ddc:630

The Utilization of the Hmg2 Inducible Promoter to Genetically Engineer Parasite Resistance in Tobacco

Winston, Eugenia Michele

25 April 2003

The cyst nematode, Globodera tabacum tabacum Behrens, and the parasitic angiosperm, Egyptian broomrape, Orobanche aegyptiaca Pers., are obligate root parasites that cause severe yield and quality loss of many important crop hosts. Although these represent two diverse classes of parasites, they have significant similarities in the modes of parasitism and complex interactions with their hosts. Conventional control methods have had limited success in controlling these parasites. The overall objective of this research was to engineer resistance to the cyst nematode and Egyptian broomrape by expressing genes encoding parasite specific toxins under the control of parasite-responsive promoters using tobacco (Nicotiana tabacum L. cv. Xanthi). For nematode resistance, an anti-feeding strategy was employed utilizing the tomato proteinase inhibitor I (PI-I) gene as a nematode specific toxin. Transgenic tobacco plants were generated that expressed genes encoding an intracellarly retained or secreted form of tomato PI-I under the control of the nematode-inducible promoter, derived from tomato (Lycopersicon esculentum L.) Hmg2 gene. Our goals were to determine the effectiveness of local PI-I expression on nematode resistance and to determine if intracellular or extracellular PI-I deposition enhances resistance. Two constructs were generated that contained either the coding region of the tomato PI-I gene, lacking the signal sequence (EM1), or the coding region of PI-I including the signal sequence (EM2), fused to the nematode-responsive Hmg2 promoter. Transgenic PI-I plants were inoculated with G. t. tabacum cysts and evaluated for nematode interactions. Our results suggest that local expression of intercellular of PI-I significantly reduced cyst production when compared to the nontransformed controls. For broomrape resistance, a well characterized R/avr gene pair, the tobacco N resistance gene and the tobacco mosaic virus replicase (TMV) gene, was utilized to create novel gene-for-gene resistance via a N gene-mediated hypersensitive response (HR) to limit broomrape parasitism. The bean (Phaselous vulgaris L.) chalcone synthase 8 (CHS8) promoter has been characterized as a broomrape–responsive promoter. We introduced the CHS8:TMV replicase gene construct into tobacco plants that contains an endogenous N gene. Transgenic tobacco plants were inoculated with O. aegyptiaca seeds and monitored for parasite attachment and development. The expression of the TMV replicase leads to a significant reduction in broomrape parasitism. These genetic engineering strategies show promise in enhancing resistance to these destructive parasites. / Ph. D.

tobacco N gene

Hmg2 promoter

proteinase inhibitors

cyst nematode

Orobanche aegyptiaca

Egyptian Broomrape (Orobanche aegyptiaca Pers.) and Small Broomrape (Orobanche minor Sm.) Parasitism of Red Clover (Trifolium pratense L.) in Vitro

Morozov, Ivan Vladimirovitch

29 May 1998

Broomrapes, <i>Orobanche</i> spp., are holoparasites that affect the growth of a variety of broadleaf crops. One of the distinct characteristics of the family Orobanchaceae is the lack of chlorophyll, and hence inability to synthesize their own food. Broomrapes subsist on the roots of the host plant from which they derive the carbon, water, and nutrients needed for further growth. Parasitism as such leads to yield reductions, and in case of heavy infestations, complete crop failure. Among other plants parasitized by broomrapes are several legumes, some of which are also the world's most economically important crops. As part of their unique biology, legumes provide an ecological niche for diazotropic soil bacteria, which belong to the family Rhizobiaceae. In return, the host plant receives fixed nitrogen from the nodules, specialized structures produced on the roots of most legume plants upon inoculation with bacteria. <i>Orobanche</i> spp. germination depends on the presence of chemical stimulant in host root exudates. It has been reported that inoculation of some legumes resulted in greater infestation by parasitic weeds. In addition, bacterial nodules were assumed to provide a place for broomrape invasion of host legume. Furthermore, infestations were observed to be more intense in aerobic conditions when rhizobia are most active. It is possible that production of the stimulant could be correlated with the infection of roots with <i>Rhizobium</i>, and that the nodules formed on the roots could play a role in broomrape parasitism; however, others have not confirmed this. Studies were conducted to investigate the possibility of interaction between <i>Orobanche</i> spp. attack and <i>Rhizobium</i> nodulation in legumes. Seed germination, number of parasitic attachments, as well as the morphology of two broomrape species, small broomrape (<i>Orobanche minor</i> Sm.) and Egyptian broomrape (<i>Orobanche aegyptiaca</i> Pers.), were studied. <i>O. minor</i> showed a greater percent seed germination, and formed a greater number of attachments on red clover (<i>Trifolium pratense</i> L.) inoculated with <i>Rhizobium leguminosarum</i> bv. <i>trifolii</i> in comparison with non-inoculated plants. However, the addition of the inoculum did not appear to enhance <i>O. aegyptiaca</i> seed germination or the number of its attachments on the host roots compared with the controls. Morphological observations of <i>O. minor</i> attachments on red clover suggest that parasitic attachments were not situated over the bacterial nodules, but perhaps involve parasite-induced enzymatic degradation followed by mechanical protrusion of host plant root cortex, possibly utilizing host plant-rhizobacteria interactions as well. / Master of Science

Small broomrape

Orobanche minor Sm.

Egyptian broomrape

Orobanche aegyptiaca Pers.

red clover

nodulation

rhizobium

Fixation des dunes dans le Sud-Est du Niger : évaluation de lefficacité de la barrière mécanique, espèces ligneuses adaptées et potentialités dinoculation mycorhizienne

Laminou Manzo, Ousmane

05 January 2010

RESUME : Le Sud-Est du Niger est soumis au phénomène dérosion éolienne. Dans la zone de Gouré, les cuvettes oasiennes, principales sources de productions agricoles et de revenus, sont menacées de disparition à cause de lensablement. Des opérations de fixation de dunes sont entreprises pour sauver ce capital productif. Lévaluation de la technique de fixation mécanique des dunes utilisée dans la zone a montré que celle-ci est efficace dans la restauration écologique du milieu. Trois années après la mise en place des palissades anti-érosives, à base des branchages de Leptadenia pyrotechnica, une végétation spontanée, comprenant 58 espèces (20 familles), dont 17 pérennes, sétait installée à lintérieur du clayonnage, soit 42 espèces de plus que dans les zones non traitées. Au fil des ans, la composition floristique sest progressivement stabilisée, témoignant ainsi dune réduction notable des perturbations du milieu engendrées par laction érosive des vents. Dans une expérimentation de fixation biologique de dunes, sept espèces ligneuses, dont cinq autochtones (Acacia senegal, A. tortilis, A. nilotica, Bauhinia rufescens, Balanites aegyptiaca), et deux allochtones (Prosopis juliflora et P. chilensis) ont été testées. En pépinière, les espèces ont subi un stress hydrique par interruption darrosage durant six jours. Les taux dhydratation foliaire ont été déterminés, afin dévaluer leur capacité respective à limiter les pertes deau par transpiration. Dans un essai de terrain, les espèces ont été plantées sur un cordon dunaire, préfixé mécaniquement, en vue de tester leur aptitude à la stabilisation des dunes. Les taux de survie sur trois années ont été calculés et la croissance en hauteur mesurée. Les résultats en pépinière ont montré, quaprès six jours de stress hydrique, Acacia senegal, A. tortilis, Prosopis chilensis et A. nilotica sont les quatre espèces limitant le mieux les pertes en eau. Les résultats sur site ont montré que la meilleure combinaison en matière de fixation de dunes dans cette zone serait dassocier lespèce de Prosopis chilensis (fort taux de survie et croissance rapide) avec A. tortilis et/ou A. nilotica (survie et croissance relativement appréciables et intérêt économique plus important). Dans loptique dun essai dinoculation mycorhizienne, des échantillons de sols de Gouré ont été récoltés sous dix espèces ligneuses locales et exotiques, avec lobjectif didentifier les différents types de champignons mycorhiziens à arbuscules (CMA) et de produire un inoculum indigène par le biais de trois plantes-pièges locales ; le mil, le sorgho et le niébé. Les résultats ont mis en évidence la présence de deux familles de Glomales dans les sols du département de Gouré, Glomaceae (appartenant au genre Glomus) et Gigasporaceae. Avec plus de 56 % des spores, le genre Glomus est le plus abondant des Glomales identifiées et aussi le plus viable (55,80 % des spores vivantes). La croissance en hauteur des parties aériennes du sorgho et du niébé a été significativement stimulée par linoculation. Les trois cultures sont équivalentes dans le piégeage des spores. Un inoculum mycorhizien composite de souches indigènes a été produit à partir de cette culture sporale. Lefficacité de la mycorhization naturelle a été comparée à celles des apports de ce complexe mycorhizien indigène et du Glomus intraradices. Un substrat de culture naturel, non stérilisé, a été inoculé par le complexe mycorhizien de souches indigènes ou par du Glomus intraradices. Les effets de linoculation ont été observés sur cinq espèces ligneuses, dont trois Acacias (A. nilotica, A. tortilis, A. senegal), Bauhinia rufescens et Prosopis chilensis, en pépinière et en sol dunaire. En pépinière, les espèces ont subi un stress hydrique par interruption darrosage durant six jours. Les taux dhydratation foliaire ont été calculés, afin dévaluer les effets de la mycorhization sur la limitation des pertes deau par transpiration. Les différents taux de mycorhization ont été déterminés, ainsi que la croissance des plants et la production de la biomasse totale. Dans un essai de terrain, les espèces inoculées et non inoculées ont été plantées sur un cordon dunaire, préfixé mécaniquement, en vue dévaluer les effets des différents apports mycorhiziens au champ sur la croissance en hauteur des plants. Les résultats en pépinière ont montré que (i) le sol de pépinière non stérilisé contient des CMA (champignon mycorhizien à arbuscules) endogènes aussi infectifs que les souches contrôlées ; (ii) lapport du Glomus intraradices est efficace dans la stimulation de la production de biomasse totale et (iii) la mycorhization naturelle est quasi aussi efficace que les deux apports mycorhiziens dans la stimulation de la croissance en hauteur et dans la limitation de la perte deau des espèces par transpiration. Les résultats sur site confirment lefficacité comparable de la mycorhization naturelle et de celle des apports mycorhiziens. Bien que leffet du G. intraradices apparaisse être bénéfique en certains points chez quelques espèces, les effets observés ne justifient pas doffice de le préférer à linoculum composite de souches indigènes, ni à la mycorhization naturelle dans cette zone. -------------------------------------------------------------------------------- SUMMARY: The Southeastern of Niger Republic is subjected to the phenomenon of wind erosion. In Gouré, the oasis basins, which are the main source of agricultural productions and incomes, are threatened to disappear because of the sand silting up. Operations of sand dunes fixation are taken to save this productive capital. Assessment of the mechanical sand dunes fixation technique, used in this area, showed that this technique is effective in the ecological restoration of the environment. Three years after the implementation of the anti erosive fences, made of Leptadenia pyrotechnica branches, spontaneous floral vegetation, including 58 species (20 families) of which 17 perennials, had settled down inside the fences, owing 42 species more than in the untreated areas. Over the years, the floral composition gradually stabilized proving then a considerable reduction of the environmental disturbances caused by the erosive winds action. In a biological sand dunes fixation experiment, seven woody species, of which five natives (Acacia senegal, A. tortilis, A. nilotica, Bauhinia rufescens and Balanites aegyptiaca) and two exotic (Prosopis juliflora and P. chilensis) have been tested in that zone of the Southeastern of Niger Republic. In nursery, species underwent a water stress by interrupting the watering during six days. Foliar hydration has been determined in order to evaluate their capacity to limit water loss. In a field experiment, species have been planted on a mechanically prefixed sand dune cord in order to test their ability in sand dunes stabilization. Survival rates during the first three years have been calculated and height growth was measured. In nursery, results showed that, after six days of water stress, Acacia senegal, A. tortilis, P. chilensis and A. nilotica are the four species limiting the best the losses in water. Results on site showed that the best combination in sand dunes fixation, in this zone, would be the association of Prosopis chilensis specie (high survival rate and fast growth) with A. tortilis and/or A. nilotica (survival and growth relatively substantial and more important economic interest). In the optics of a further mycorrhizal inoculation essay, soil samples from Gouré department were collected beneath ten mature native and exotic tree species in order to identify the types of associated arbuscular mycorrhizal (AM) fungi and to produce an indigenous inoculum by growing three local trap cultures including millet, sorghum and cowpea. The results highlighted the presence of two families of Glomales in the soils including Glomaceae (belonging to the genus Glomus) and Gigasporaceae. With more than 56 % of spores, the genus Glomus is the most abundant of the identified Glomales and the most viable (55, 80 % of the live spores). The length growth of sorghum and cowpea plants was significantly stimulated by inoculation. The three trap cultures species are equivalent in the spores trapping. An indigenous mycorrhizal complex was produced from this spore culture. Effects of the natural mycorhization were compared with those of the addition of this indigenous mycorrhizal complex and Glomus intraradices. A natural unsterile culture substrate was inoculated with the indigenous inoculum or with G. Intraradices. Inoculation effects were assessed on five woody species, among which three Acacias species (A. nilotica, A. tortilis, A. senegal), Bauhinia rufescens and Prosopis chilensis, in a tree nursery and on a sand dune of Gouré. In the nursery, species underwent a water stress by interrupting the watering during six days. Foliar hydration has been determined in order to evaluate the respective effects of the mycorrhizal inoculation on the water loss limitation. Mycorrhizal root colonization has been determined as well as plant height and total biomass. In a field experiment, inoculated and non inoculated species have been planted on a mechanically prefixed sand dune portion in order to evaluate the effects of mycorrhizal inoculations on growth in the field. Results in nursery showed that (i) the non sterile soil would contain some endogenous AMF (arbuscular mycorrhizal fungi) as infectious as those in soils with mycorrhizal additions; (ii) addition of Glomus intraradices would be efficient to stimulate total biomass and (iii) natural mycorhization would be as efficient as both mycorrhizal addition in growth stimulation and water loss limitation by transpiration. Results on site confirm the comparable effectiveness of the natural mycorhization and mycorrhizal additions. Although the addition of G. intraradices appears to be slightly superior by some aspects on some species, the observed effects do not justify preferring it, when compared to indigenous composite inoculum or to natural mycorhization in this zone.

fixation des dunes

Clayonnage

Acacia nilotica

A. tortilis

Glomus intraradices

A. senegal

Bauhinia rufescens

mycorhizes

Balanites aegyptiaca

Prosopis chilensis

P. juliflora

Niger

Investigating The Anticarcinogenic Role Of Salix Aegyptiaca L. In Colorectal Carcinoma

Enayat, Shabnam

01 February 2009

In this study, extracts from bark, leaves and catkins of Salix aegyptiaca L. were investigated for their antioxidant content by 2,2-diphenyl-2-picrylhydrazyl hydrate (DPPH) free radical quenching assay, total phenolic and total flavonoid assays. The highest antioxidant activity (19 ug/ml IC50 for inhibition of DPPH radical activity), total phenolic content (212 mg gallic acid equivalents/g of dried extract) and total flavonoid (479 mg catechin equivalents/g of dried extract) was observed in the ethanolic extract of bark. High performance liquid chromatography (HPLC) analyses revealed the presence of gallic acid, caffeic acid, vanillin and p-coumaric acid, myricetin, catechin, epigallocatechin gallate, rutin, quercetin as well as salicin. In addition, the anti-proliferative effects of the ethanolic extracts on colorectal cancer cell lines (HCT-116 and HT-29) were examined by an MTT cell viability assay while their apoptotic effects were assayed by acridine orange staining and caspase 3 activity. The results indicate that the ethanolic extract of bark of S. aegyptiaca can strongly inhibit cell proliferation and induces apoptosis in a dose dependent manner on both cell lines. We propose that extracts from this plant may be utilized as a source of health promoting antioxidants. Our data provide a perspective for more detailed study of biochemical pathways associated with the cancer preventive effects of active components of the extracts from S. aegyptiaca.