Microsatellites and population genetics of sycamore (Acer pseudoplatanus L.) population genetics of sycamore

Pandey, Madhav

January 2005

Zugl.: Göttingen, Univ., Diss., 2005 u.d.T.: Pandey, Madhav: Development of microsatellites in sycamore maple (Acer pseudoplatanus L.) and their application in population genetics / Hergestellt on demand

Development of microsatellites in sycamore maple (Acer pseudoplatanus L.) and their application in population genetics / Die Entwicklung von Mikrosatelliten bei Bergahorn (Acer pseudoplatanus L.) und deren Anwendung in der Populationsgenetik

Pandey, Madhav

01 August 2005

No description available.

500 Naturwissenschaften

Forest Sciences and Forest Ecology

Acer pseudoplatanus

Bergahorn

Mikrosatelliten

autotetraploid

genetische Variation

räumliche genetische Strukturen

Selbstbefruchtungsanteil

Acer pseudoplatanus

sycamore maple

microsatellites

autotetraploid

genetic variation

spatial genetic structure

rate of self-fertilization

48 Land- und Forstwirtschaft

Aerodynamics of the Maple Seed

Desenfans, Philip

January 2019

Purpose - The paper presents a theoretical framework that describes the aerodynamics of a falling maple (Acer pseudoplatanus) seed. --- Methodology - A semi-empirical method is developed that provides a ratio stating how much longer a seed falls in air compared to freefall. The generated lift is calculated by evaluating the integral of two-dimensional airfoil elements using a preliminary falling speed. This allows for the calculation of the definitive falling speed using Blade Element Momentum Theory (BEMT); hereafter, the fall duration in air and in freefall are obtained. Furthermore, the input-variables of the calculation of lift are transformed to require only the length and width of the maple seed. Lastly, the method is applied to two calculation examples as a means of validation. --- Findings - The two example calculations gave percentual errors of 5.5% and 3.7% for the falling speed when compared to measured values. The averaged result is that a maple seed falls 9.9 times longer in air when released from 20 m; however, this result is highly dependent on geometrical parameters which can be accounted for using the constructed method. --- Research limitations - Firstly, the coefficient of lift is unknown for the shape of a maple seed. Secondly, the approximated transient state is yet to be verified by measurement. --- Originality / Value - The added value of this report lies in the reduction of simplifications compared to BEMT approaches. In this way a large amount of accuracy is achieved due to the inclusion of many geometrical parameters, even though simplicity is maintained. This has been accomplished through constructing a simple three-step method that is fundamental and essentially non-iterative.

ddc:620

info:eu-repo/classification/ddc/629.13

Aerodynamik

Ahorn

Auftrieb

Strömungsabriss

Aerodynamics

Maple

Lift (Aerodynamics)

Stalling (Aerodynamics)

Aerodynamisches Profil

Anstellwinkel

Freier Fall

Bergahorn

Samen

Evolutionsbiologie

Aerofoils

Angle of attack (Aerodynamics)

Acer pseudoplatanus

Seeds

Evolution (Biology)

Blade Element Momentum Theory

BEMT

free fall

post-stall

chord

twist

camber

autorotation