8,329 research outputs found
Vegetation Dynamics in Ecuador
Global forest cover has suffered a dramatic reduction during recent decades, especially in tropical regions, which is mainly due to human activities caused by enhanced population pressures. Nevertheless, forest ecosystems, especially tropical forests, play an important role in the carbon cycle functioning as carbon stocks and sinks, which is why conservation strategies are of utmost importance respective to ongoing global warming. In South America the highest deforestation rates are observed in Ecuador, but an operational surveillance system for continuous forest monitoring, along with the determination of deforestation rates and the estimation of actual carbon socks is still missing. Therefore, the present investigation provides a functional tool based on remote sensing data to monitor forest stands at local, regional and national scales. To evaluate forest cover and deforestation rates at country level satellite data was used, whereas LiDAR data was utilized to accurately estimate the Above Ground Biomass (AGB; carbon stocks) at catchment level. Furthermore, to provide a cost-effective tool for continuous forest monitoring of the most vulnerable parts, an Unmanned Aerial Vehicle (UAV) was deployed and equipped with various sensors (RBG and multispectral camera). The results showed that in Ecuador total forest cover was reduced by about 24% during the last three decades. Moreover, deforestation rates have increased with the beginning of the new century, especially in the Andean Highland and the Amazon Basin, due to enhanced population pressures and the government supported oil and mining industries, besides illegal timber extractions. The AGB stock estimations at catchment level indicated that most of the carbon is stored in natural ecosystems (forest and páramo; AGB ~98%), whereas areas affected by anthropogenic land use changes (mostly pastureland) lost nearly all their storage capacities (AGB ~2%). Furthermore, the LiDAR data permitted the detection of the forest structure, and therefore the identification of the most vulnerable parts. To monitor these areas, it could be shown that UAVs are useful, particularly when equipped with an RGB camera (AGB correlation: R² > 0.9), because multispectral images suffer saturation of the spectral bands over dense natural forest stands, which results in high overestimations. In summary, the developed operational surveillance systems respective to forest cover at different spatial scales can be implemented in Ecuador to promote conservation/ restoration strategies and to reduce the high deforestation rates. This may also mitigate future greenhouse gas emissions and guarantee functional ecosystem services for local and regional populations
Automorphisms of prime order of smooth cubic n-folds
In this paper we give an effective criterion as to when a prime number p is
the order of an automorphism of a smooth cubic hypersurface of P^{n+1}, for a
fixed n > 1. We also provide a computational method to classify all such
hypersurfaces that admit an automorphism of prime order p. In particular, we
show that p<2^{n+1} and that any such hypersurface admitting an automorphism of
order p>2^n is isomorphic to the Klein n-fold. We apply our method to compute
exhaustive lists of automorphism of prime order of smooth cubic threefolds and
fourfolds. Finally, we provide an application to the moduli space of
principally polarized abelian varieties.Comment: 10 page
Counting Lines on Quartic Surfaces
We prove the sharp bound of at most 64 lines on complex projective quartic
surfaces (resp. affine quartics) that are not ruled by lines. We study
configurations of lines on certain non-K3 surfaces of degree four and give
various examples of singular quartics with many lines
Determining plane curve singularities from its polars
This paper addresses a very classical topic that goes back at least to
Pl\"ucker: how to understand a plane curve singularity using its polar curves.
Here, we explicitly construct the singular points of a plane curve singularity
directly from the weighted cluster of base points of its polars. In particular,
we determine the equisingularity class (or topological equivalence class) of a
germ of plane curve from the equisingularity class of generic polars and
combinatorial data about the non-singular points shared by them.Comment: 22 pages. Final version, to appear in Advances in Mat
Bank ownership, lending relationships and capital structure: Evidence from Spain
This paper analyses the influence of bank ownership and lending on capital structure for a sample of listed and unlisted Spanish firms in the period 2005–2012. The results suggest that bank ownership allows banks to obtain better information and reduce the agency costs of debt, as it has a positive relationship with the maturity of debt and a negative relationship with the cost of debt. These results are consistent with the predominance of the monitoring effect in bank ownership over the expropriation effect. The role of banks as shareholders and lenders also contributes to reduce agency cost of debt, as it reduces debt cost. JEL classification: G32, Keywords: Bank ownership, Bank lending, Debt, Debt maturity, Debt cos
Late allocation and early release of physical registers
The register file is one of the critical components of current processors in terms of access time and power consumption. Among other things, the potential to exploit instruction-level parallelism is closely related to the size and number of ports of the register file. In conventional register renaming schemes, both register allocation and releasing are conservatively done, the former at the rename stage, before registers are loaded with values, and the latter at the commit stage of the instruction redefining the same register, once registers are not used any more. We introduce VP-LAER, a renaming scheme that allocates registers later and releases them earlier than conventional schemes. Specifically, physical registers are allocated at the end of the execution stage and released as soon as the processor realizes that there will be no further use of them. VP-LAER enhances register utilization, that is, the fraction of allocated registers having a value to be read in the future. Detailed cycle-level simulations show either a significant speedup for a given register file size or a reduction in the register file size for a given performance level, especially for floating-point codes, where the register file pressure is usually high.Peer ReviewedPostprint (published version
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