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18 results on '"Ndangalasi H"'

1. Climate change will disproportionally affect the most genetically diverse lineages of a widespread African tree species

Author

Lyam, P.T., Duque-Lazo, J., Hauenschild, F., Schnitzler, J., Muellner-Riehl, A.N., Greve, M., Ndangalasi, H., Myburgh, A., Durka, Walter, Lyam, P.T., Duque-Lazo, J., Hauenschild, F., Schnitzler, J., Muellner-Riehl, A.N., Greve, M., Ndangalasi, H., Myburgh, A., and Durka, Walter

Abstract

Global climate change is proceeding at an alarming rate with major ecological and genetic consequences for biodiversity, particularly in drylands. The response of species to climate change may differ between intraspecific genetic groups, with major implications for conservation. We used molecular data from 10 nuclear and two chloroplast genomes to identify phylogeographic groups within 746 individuals from 29 populations of Senegalia senegal, a savannah tree species in sub-Saharan Africa. Three phylogroups are identified corresponding to Sudano-Sahelian, Zambezian and Southern African biogeographic regions in West, East and Southern Africa. Genetic diversity was highest in Southern and Zambesian and lowest in the Sudano-Sahelian phylogroups. Using species distribution modeling, we infer highly divergent future distributions of the phylogroups under three climate change scenarios. Climate change will lead to severe reductions of distribution area of the genetically diverse Zambezian (− 41–− 54%) and Southern (− 63–− 82%) phylogroups, but to an increase for the genetically depauperate Sudano-Sahelian (+ 7– + 26%) phylogroups. This study improves our understanding of the impact of climate change on the future distribution of this species. This knowledge is particularly useful for biodiversity management as the conservation of genetic resources needs to be considered in complementary strategies of in-situ conservation and assisted migration.

Published
2022

2. Investigating the direct and indirect effects of forest fragmentation on plant functional diversity

Author

Zambrano, J., Cordeiro, N. J., Garzon-Lopez, C., Yeager, L., Fortunel, Claire, Ndangalasi, H. J., and Beckman, N. G.

Abstract

Ongoing habitat loss and fragmentation alter the functional diversity of forests. Generalising the magnitude of change in functional diversity of fragmented landscapes and its drivers is challenging because of the multiple scales at which landscape fragmentation takes place. Here we propose a multi-scale approach to determine whether fragmentation processes at the local and landscape scales are reducing functional diversity of trees in the East Usambara Mountains, Tanzania. We employ a structural equation modelling approach using five key plant traits (seed length, dispersal mode, shade tolerance, maximum tree height, and wood density) to better understand the functional responses of trees to fragmentation at multiple scales. Our results suggest both direct and indirect effects of forest fragmentation on tree functional richness, evenness and divergence. A reduction in fragment area appears to exacerbate the negative effects resulting from an increased amount of edge habitat and loss of shape complexity, further reducing richness and evenness of traits related to resource acquisition and favouring tree species with fast growth. As anthropogenic disturbances affect forests around the world, we advocate to include the direct and indirect effects of forest fragmentation processes to gain a better understanding of shifts in functional diversity that can inform future management efforts.

Published
2020

6. Ancistrotanzanine C and related 5,1 '- and 7,3 '-coupled naphthylisoquinoline alkaloids from Ancistrocladus tanzaniensis

Author

Bringmann, G., Dreyer, M., Faber, J.H., Dalsgaard, Petur, Steerk, D., Jaroszewski, J.W., Ndangalasi, H., Mbago, F., Brun, R., Christensen, S.B., Bringmann, G., Dreyer, M., Faber, J.H., Dalsgaard, Petur, Steerk, D., Jaroszewski, J.W., Ndangalasi, H., Mbago, F., Brun, R., and Christensen, S.B.

Abstract

Three new naphthylisoquinoline alkaloids, the 7,3'-coupled ancistrotanzanine C (6), the 5,1'-coupled O-methylancistrocladinine (7), and the likewise 5,1'-coupled O,N-dimethylancistrocladine (8, previously known only as a partial-synthetic compound), have been isolated from the highland liana Ancistrocladus tanzaniensis, along with the two known 7,3'-coupled naphthylisoquinoline alkaloids ancistrocladidine (4) and ancistrotectorine (5). All of the compounds are S-configured at C-3 and bear an oxygen at C-6, and thus belong to the so-called Ancistrocladaceae type, similar to 1-3 previously isolated from this newly discovered plant species. The structural elucidation was achieved by chemical, spectroscopic, and chiroptical methods. The biological activities of the alkaloids against the pathogens causing malaria tropica, leishmaniasis, Chagas' disease, and African sleeping sickness were evaluated.

Published
2004

8. The effect of anthropogenic disturbances on population structure and regeneration of Scorodophloeus fischeri and Manilkara sulcata in coastal forests of Tanzania.

Author

Mligo, C., Lyaruu, H. V. M., and Ndangalasi, H. J.

Subjects
ANTHROPOGENIC effects on nature, COASTAL forests, LEGUMES, MANILKARA, SAPOTACEAE, BIOTIC communities
Abstract

Scorodophloeus fischeri (Fabaceae, subfamily Caesalpinoideae) and Manilkara sulcata (Sapotaceae) are examples of tropical African hardwood species and are endemic to East African coastal forests. These plant species are threatened by human activities beyond natural recovery in some forests. This study aimed to assess the effects of anthropogenic disturbance on the natural regeneration potential of S. fischeri and M. sulcata in the selected coastal forests of Tanzania. Transects were established in various vegetation communities and a nested quadrat technique was used to assess the natural regeneration. Scorodophloeus fischeri regenerates best in Zaraninge forest with high density of trees with diameter at breast height (DBH) between 10-50 cm and a higher seedling density than in other forests. Similarly, M. sulcata regenerates best in Pande forest, although many trees had a DBH of 10-30 cm, implying that the trees with size classes above these are missing. It was concluded that the minimum level of human disturbances in Zaraninge favoured high potentials of natural regeneration of S. fischeri. Disturbances through human activities contributed to the variation in the natural regeneration potentials for S. fischeri and M. sulcata in these forests. Conservation attention is likely to improve population structure and natural regeneration patterns of S. fischeri and M. sulcata in East African coastal forests. [ABSTRACT FROM AUTHOR]

Published
2011
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9. Ancistrotanzanine A, the First 5,3‘-Coupled Naphthylisoquinoline Alkaloid, and Two Further, 5,8‘-Linked Related Compounds from the Newly Described Species Ancistrocladus tanzaniensis<SUP>,1</SUP>

Author

Bringmann, G., Dreyer, M., Faber, J. H., Dalsgaard, P. W., Stark, D., Jaroszewski, J. W., Ndangalasi, H., Mbago, F., Brun, R., Reichert, M., Maksimenka, K., and Christensen, S. B.

Abstract

The first phytochemical investigation of the recently discovered East African liana Ancistrocladus tanzaniensis is described, resulting in the isolation and structural elucidation of two new naphthylisoquinoline alkaloids, ancistrotanzanines A (5) and B (6), and the known compound ancistrotectoriline A (7). Ancistrotazanine A (5) represents a hitherto unprecedented 5,3‘-coupling type between the naphthalene and isoquinoline portions, while 6 and 7 are 5,8‘-coupled. The structures of the compounds were determined by spectroscopic, chemical, and chiroptical methods. Compounds 5 and 6 showed good activities against the pathogens of leishmaniasis and Chagas' disease, Leishmania donovani and Trypanosoma cruzi, while 57 displayed moderately potent antiplasmodial activities against Plasmodium falciparum parasites.

Published
2003

17. Climate change will disproportionally affect the most genetically diverse lineages of a widespread African tree species.

Author

Lyam PT, Duque-Lazo J, Hauenschild F, Schnitzler J, Muellner-Riehl AN, Greve M, Ndangalasi H, Myburgh A, and Durka W

Subjects
Biodiversity, Genetic Variation, Humans, Phylogeography, Climate Change, Trees genetics
Abstract

Global climate change is proceeding at an alarming rate with major ecological and genetic consequences for biodiversity, particularly in drylands. The response of species to climate change may differ between intraspecific genetic groups, with major implications for conservation. We used molecular data from 10 nuclear and two chloroplast genomes to identify phylogeographic groups within 746 individuals from 29 populations of Senegalia senegal, a savannah tree species in sub-Saharan Africa. Three phylogroups are identified corresponding to Sudano-Sahelian, Zambezian and Southern African biogeographic regions in West, East and Southern Africa. Genetic diversity was highest in Southern and Zambesian and lowest in the Sudano-Sahelian phylogroups. Using species distribution modeling, we infer highly divergent future distributions of the phylogroups under three climate change scenarios. Climate change will lead to severe reductions of distribution area of the genetically diverse Zambezian (- 41-- 54%) and Southern (- 63-- 82%) phylogroups, but to an increase for the genetically depauperate Sudano-Sahelian (+ 7- + 26%) phylogroups. This study improves our understanding of the impact of climate change on the future distribution of this species. This knowledge is particularly useful for biodiversity management as the conservation of genetic resources needs to be considered in complementary strategies of in-situ conservation and assisted migration., (© 2022. The Author(s).)

Published
2022
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18. Ancistrotanzanine C and related 5,1'- and 7,3'-coupled naphthylisoquinoline alkaloids from Ancistrocladus tanzaniensis.

Author

Bringmann G, Dreyer M, Faber JH, Dalsgaard PW, Staerk D, Jaroszewski JW, Ndangalasi H, Mbago F, Brun R, and Christensen SB

Subjects
Alkaloids chemistry, Alkaloids pharmacology, Animals, Antimalarials chemistry, Antimalarials pharmacology, Isoquinolines chemistry, Isoquinolines pharmacology, Leishmania donovani drug effects, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular, Plant Leaves chemistry, Plasmodium falciparum drug effects, Tanzania, Trypanocidal Agents chemistry, Trypanocidal Agents pharmacology, Trypanosoma brucei rhodesiense drug effects, Trypanosoma cruzi drug effects, Alkaloids isolation & purification, Antimalarials isolation & purification, Isoquinolines isolation & purification, Magnoliopsida chemistry, Plants, Medicinal chemistry, Trypanocidal Agents isolation & purification
Abstract

Three new naphthylisoquinoline alkaloids, the 7,3'-coupled ancistrotanzanine C (6), the 5,1'-coupled O-methylancistrocladinine (7), and the likewise 5,1'-coupled O,N-dimethylancistrocladine (8, previously known only as a partial-synthetic compound), have been isolated from the highland liana Ancistrocladus tanzaniensis, along with the two known 7,3'-coupled naphthylisoquinoline alkaloids ancistrocladidine (4) and ancistrotectorine (5). All of the compounds are S-configured at C-3 and bear an oxygen at C-6, and thus belong to the so-called Ancistrocladaceae type, similar to 1-3 previously isolated from this newly discovered plant species. The structural elucidation was achieved by chemical, spectroscopic, and chiroptical methods. The biological activities of the alkaloids against the pathogens causing malaria tropica, leishmaniasis, Chagas' disease, and African sleeping sickness were evaluated.

Published
2004
Full Text
View/download PDF

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