192 research outputs found
Botanical Sampling Gaps Across the Cameroon Mountains
With the emergence of a new field, biodiversity informatics, an important task has been to evaluate completeness of biodiversity information that is existing and available for various countries and regions. This paper offers a first and very basic assessment of sampling gaps and inventory completeness across the Cameroon Mountains. Because digital accessible knowledge is severely limited for the region, we relied on qualitative evaluations of inventory completeness, supplemented by large amounts of data from the National Herbarium of Cameroon (YA) database. Detailed botanical inventories have been developed for Mt Cameroon, the Kupe-Mwanenguba Mountains, Mt Oku, and the Mambila Plateau, leaving substantial geographic and environmental coverage gaps corresponding to Rumpi Hills, Mt Nlonako, Kimbi Fungom National Park, Bali and Bafut Ngemba, Mt Bamboutos, Kagwene, and Tchabal Mbabo. This paper provides a roadmap for a comprehensive botanical survey for this region. Completing this survey plan, the resulting data will allow researchers to track changes in biodiversity and identify priority areas for conservation on the various mountain ranges that make up this important biodiversity hotspot
Demographic variation and habitat specialization of tree species in a diverse tropical forest of Cameroon
Background: Many tree species in tropical forests have distributions tracking local ridge-slope-valley topography. Previous work in a 50-ha plot in Korup National Park, Cameroon, demonstrated that 272 species, or 63% of those tested, were significantly associated with topography.
Methods: We used two censuses of 329,000 trees â„1 cm dbh to examine demographic variation at this site that would account for those observed habitat preferences. We tested two predictions. First, within a given topographic habitat, species specializing on that habitat (âresidentsâ) should outperform species that are specialists of other habitats (âforeignersâ). Second, across different topographic habitats, species should perform best in the habitat on which they specialize (âhomeâ) compared to other habitats (âawayâ). Speciesâ performance was estimated using growth and mortality rates.
Results: In hierarchical models with species identity as a random effect, we found no evidence of a demographic advantage to resident species. Indeed, growth rates were most often higher for foreign species. Similarly, comparisons of species on their home vs. away habitats revealed no sign of a performance advantage on the home habitat.
Conclusions: We reject the hypothesis that species distributions along a ridge-valley catena at Korup are caused by species differences in trees â„1 cm dbh. Since there must be a demographic cause for habitat specialization, we offer three alternatives. First, the demographic advantage specialists have at home occurs at the reproductive or seedling stage, in sizes smaller than we census in the forest plot. Second, species may have higher performance on their preferred habitat when density is low, but when population builds up, there are negative density-dependent feedbacks that reduce performance. Third, demographic filtering may be produced by extreme environmental conditions that we did not observe during the census interval
Floristic and structural changes in secondary forests following agricultural disturbances: the case of Lama forest reserve in Southern Benin
Structural changes in secondary forests are less known in West Africa, and this precludes their management. This study aims at providing quantitative information on floristic composition and structure of the Lama secondary forests (Benin), so as to contribute to their restoration, and fill part of knowledge gaps on West African secondary forests. Data of 77 permanent plots each of 0.5 ha were used to analyze the floristic composition, the trajectory of the recovery and the recovery of stocking in these forests, compared to nearby old-growth forests. The results showed that the forests were less diversified with few species very common in the forest stands; the most dominant were Lonchocarpus sericeus and Anogeissus leiocarpa in the secondary forests, and Dialium guineense, Diospyros mespiliformis and Afzelia africana in the old-growth forests. The secondary forests hold more species than the mature ones. Their compositions will recover that of the original forest because species of the original forest were actively regenerating in the secondary forests. About 28 years after recovery, large trees were insufficient and basal area was about 60% of those of the mature forests. Further studies are needed to elucidate barriers to tree regeneration and dynamics of tree population.© 2016 International Formulae Group. All rights reserved.Keywords: Secondary forest, recovery, diversity, species composition, timber stock, Beni
THE EXPECTATION HYPOTHESIS AND INTEREST RATE PREDICTABILITYON AFRICAN MARKETS
In this study, we question the credibility ofinformationâs about the future level of the interest rate that are carried out by the term structure of the interest rates on African markets. We considered for this purpose the market rates of Egypt, Ghana, Kenya, Nigeria and the Republic of South Africa. After comparing the rational predictions of Campbell and Shiller (1991) VAR model with those of the market and realizations, we performed a regression of the average of the short rates (current and anticipated) on the long-term rate, and a regression between the forward rate and the difference between 2 times the long rate and the short rate as suggest the expectation hypothesis. The results show that only market predictions in South Africa are relevant for determining the future short-term rate. The prediction of the VAR was proved irrelevant, and this on all the markets considered
Antisalmonellal Activities of Extracts, Fractions, Compounds and Semi-synthetic Flavonoid Derivatives from Tristemma hirtum P. Beauv (Melastomataceae)
The development and spread of resistance to currently available antibiotics is a major drawback in the treatment
of microbial infections. Salmonellosis for example remains among the most common cause of morbidity and mortality in
developing countries. This study aimed to evaluate the antisalmonellal potential of extracts, fractions, isolated compounds and
semi-synthetic flavonoids from Tristemma hirtum P. Beauv. Bioguided fractionation by column chromatography of the EtOAc
and n-BuOH fractions led to the isolation of eleven compounds including two new esterified glucuronide flavonoids namely:
luteolin-3âČ-O-ÎČ-D-glucuronopyranosylbutyl ester (1), a mixture of compound 1 and quercetin-3-O-ÎČ-D-glucuronopyranosylbutyl
ester (2). Chemical transformation mainly based on the prenylation of 6-hydroxyapigenin-7-O-ÎČ-D-glucopyranoside (5)
afforded four new semi-synthetic flavonoid derivatives namely: 6, 4'-O-diprenylapigenin-7-O-ÎČ-D-glucopyranoside (5a), 8-Cprenyl-
6, 4'-O-diprenylapigenin-7-O-ÎČ-D-glucopyranoside (5b), 8-C-prenyl-4'-O-prenylapigenin-7-O-ÎČ-D-glucopyranoside (5c),
4'-O-prenylapigenin-7-O-ÎČ-D-glucopyranoside (5d). The chemical structures of these compounds were assigned using NMR
techniques, mass spectrometry and by comparison of their data with reported ones. The antisalmonellal activity was assessed
by determining the Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration (MBC) using serial
microdilution methods. The results showed that the MeOH extract and EtOAc fraction were active against all the bacteria
tested with MICs ranging from 24 to 1536 ÎŒg/mL. Seven isolated compounds and three semi-synthetic compounds tested
showed MIC values ranging from 16 to 256 ÎŒg/mL. Compounds 1, 3, 5a, 5c and 11 displayed the most potent antisalmonellal
properties but were generally less potent than those of reference drugs. The activity of extracts and isolated compounds could
be used as the starting point for the development of alternative phytodrugs against salmonellosi
Negative Quasi-Probability as a Resource for Quantum Computation
A central problem in quantum information is to determine the minimal physical
resources that are required for quantum computational speedup and, in
particular, for fault-tolerant quantum computation. We establish a remarkable
connection between the potential for quantum speed-up and the onset of negative
values in a distinguished quasi-probability representation, a discrete analog
of the Wigner function for quantum systems of odd dimension. This connection
allows us to resolve an open question on the existence of bound states for
magic-state distillation: we prove that there exist mixed states outside the
convex hull of stabilizer states that cannot be distilled to non-stabilizer
target states using stabilizer operations. We also provide an efficient
simulation protocol for Clifford circuits that extends to a large class of
mixed states, including bound universal states.Comment: 15 pages v4: This is a major revision. In particular, we have added a
new section detailing an explicit extension of the Gottesman-Knill simulation
protocol to deal with positively represented states and measurement (even
when these are non-stabilizer). This paper also includes significant
elaboration on the two main results of the previous versio
Exploring the relation between remotely sensed vertical canopy structure and tree species diversity in Gabon
Mapping tree species diversity is increasingly important in the face of environmental change and biodiversity conservation. We explore a potential way of mapping this diversity by relating forest structure to tree species diversity in Gabon. First, we test the relation between canopy height, as a proxy for niche volume, and tree species diversity. Then, we test the relation between vertical canopy structure, as a proxy for vertical niche occupation, and tree species diversity. We use large footprint full-waveform airborne lidar data collected across four study sites in Gabon (LopĂ©, MabouniĂ©, Mondah, and Rabi) in combination with in situ estimates of species richness (S) and Shannon diversity (HâČ). Linear models using canopy height explained 44% and 43% of the variation in S and HâČ at the 0.25 ha resolution. Linear models using canopy height and the plant area volume density profile explained 71% of this variation. We demonstrate applications of these models by mapping S and HâČ in Mondah using a simulated GEDI-TanDEM-X fusion height product, across the four sites using wall-to-wall airborne lidar data products, and across and between the study sites using ICESat lidar waveforms. The modeling results are encouraging in the context of developing pan-tropical structure diversity models applicable to data from current and upcoming spaceborne remote sensing missions
A Standard Protocol for Liana Censuses 1
A recent increase in published studies of lianas has been paralleled by a proliferation of protocols for censusing lianas. This article seeks to increase uniformity in liana inventories by providing specific recommendations for the determination of which taxa to include, the location of diameter measurement points on individual stems, the setting of minimum stem diameter cutoffs, the treatment of multiple-stemmed and rooted clonal groups, and the measurement of noncylindrical stems. Use of more uniform liana censusing protocols may facilitate comparison of independently collected data sets and further our understanding of global patterns in liana abundance, diversity, biomass, and dynamics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/75009/1/j.1744-7429.2006.00134.x.pd
A Standard Protocol for Liana Censuses
A recent increase in published studies of lianas has been paralleled by a proliferation of protocols for censusing lianas. This article seeks to increase uniformity in liana inventories by providing specific recommendations for the determination of which taxa to include, the location of diameter measurement points on individual stems, the setting of minimum stem diameter cutoffs, the treatment of multipleâstemmed and rooted clonal groups, and the measurement of noncylindrical stems. Use of more uniform liana censusing protocols may facilitate comparison of independently collected data sets and further our understanding of global patterns in liana abundance, diversity, biomass, and dynamics
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How Effective Are DNA Barcodes in the Identification of African Rainforest Trees?
Background: DNA barcoding of rain forest trees could potentially help biologists identify species and discover new ones. However, DNA barcodes cannot always distinguish between closely related species, and the size and completeness of barcode databases are key parameters for their successful application. We test the ability of rbcL, matK and trnH-psbA plastid DNA markers to identify rain forest trees at two sites in Atlantic central Africa under the assumption that a database is exhaustive in terms of species content, but not necessarily in terms of haplotype diversity within species.
Methodology/Principal Findings: We assess the accuracy of identification to species or genus using a genetic distance matrix between samples either based on a global multiple sequence alignment (GD) or on a basic local alignment search tool (BLAST). Where a local database is available (within a 50 ha plot), barcoding was generally reliable for genus identification (95-100% success), but less for species identification (71-88%). Using a single marker, best results for species identification were obtained with trnH-psbA. There was a significant decrease of barcoding success in species-rich clades. When the local database was used to identify the genus of trees from another region and did include all genera from the query individuals but not all species, genus identification success decreased to 84-90%. The GD method performed best but a global multiple sequence alignment is not applicable on trnH-psbA.
Conclusions/Significance: Barcoding is a useful tool to assign unidentified African rain forest trees to a genus, but identification to a species is less reliable, especially in species-rich clades, even using an exhaustive local database. Combining two markers improves the accuracy of species identification but it would only marginally improve genus identification. Finally, we highlight some limitations of the BLAST algorithm as currently implemented and suggest possible improvements for barcoding applications
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