Learning Mathematics through Scientific Contents and Methods

Beckmann, Astrid

12 April 2012

The basic idea of this paper is to outline a cross-curricular approach between mathematics and science. The aim is to close the often perceived gap between formal maths and authentic experience and to increase the students’ versatility in the use of mathematical terms. Students are to experience maths as logical, interesting and relevant through extra-mathematical references. Concrete physical or biological correlations may initiate mathematical activities, and mathematical terms are to be understood in logical contexts. Examples: physical experiments can lead to a comprehensive understanding of the concept of functions and of the intersection of medians in triangles. Biological topics can lead to the concepts of similarity and proportion as well as to the construction of pie charts. In the European ScienceMath Project a variety of teaching modules was developed and tested in secondary schools.

Konstruktion von Kreisdiagrammen

Europäisches ScienceMath Projekt

increase of students’ versatility

physical or biological correlations

construction of pie charts

European ScienceMath Project

ddc:510

rvk:SD 2009

Learning Mathematics through Scientific Contents and Methods

Beckmann, Astrid

12 April 2012

The basic idea of this paper is to outline a cross-curricular approach between mathematics and science. The aim is to close the often perceived gap between formal maths and authentic experience and to increase the students’ versatility in the use of mathematical terms. Students are to experience maths as logical, interesting and relevant through extra-mathematical references. Concrete physical or biological correlations may initiate mathematical activities, and mathematical terms are to be understood in logical contexts. Examples: physical experiments can lead to a comprehensive understanding of the concept of functions and of the intersection of medians in triangles. Biological topics can lead to the concepts of similarity and proportion as well as to the construction of pie charts. In the European ScienceMath Project a variety of teaching modules was developed and tested in secondary schools.

info:eu-repo/classification/ddc/510

ddc:510

Physical Aspects of Min Oscillations in Escherichia Coli

Meacci, Giovanni

20 December 2006

The subject of this thesis is the generation of spatial temporal structures in living cells. Specifically, we studied the Min-system in the bacterium Escherichia coli. It consists of the MinC, the MinD, and the MinE proteins, which play an important role in the correct selection of the cell division site. The Min-proteins oscillate between the two cell poles and thereby prevent division at these locations. In this way, E. coli divides at the center, producing two daughter cells of equal size, providing them with the complete genetic patrimony. Our goal is to perform a quantitative study, both theoretical and experimental, in order to reveal the mechanism underlying the Min-oscillations. Experimentally, we characterize theMin-system, measuring the temporal period of the oscillations as a function of the cell length, the time-averaged protein distributions, and the in vivo Min-protein mobility by means of different fluorescence microscopy techniques. Theoretically, we discuss a deterministic description based on the exchange of Minproteins between the cytoplasm and the cytoplasmic membrane and on the aggregation current induced by the interaction between membrane-bound proteins. Oscillatory solutions appear via a dynamic instability of the homogenous protein distributions. Moreover, we perform stochastic simulations based on a microscopic description, whereby the probability for each event is calculated according to the corresponding probability in the master equation. Starting from this microscopic description, we derive Langevin equations for the fluctuating protein densities which correspond to the deterministic equations in the limit of vanishing noise. Stochastic simulations justify this deterministic model, showing that oscillations are resistant to the perturbations induced by the stochastic reactions and diffusion. Predictions and assumptions of our theoretical model are compatible with our experimental findings. Altogether, these results enable us to propose further experiments in order to quantitatively compare the different models proposed so far and to test our model with even higher precision. They also point to the necessity of performing such an analysis through single cell measurements.

info:eu-repo/classification/ddc/570

ddc:570

Untersuchungen zur Morphologie, Biologie und Ökologie der räuberischen Weichwanze Dicyphus errans Wolff (Heteroptera, Miridae, Bryocorinae)

Voigt, Dagmar

08 November 2005

Die paläarktische omnivore Weichwanze Dicyphus errans Wolff (Heteroptera, Miridae, Bryocorinae) zeichnet sich durch ein ausgesprochen breites Spektrum an besetzten Wirtspflanzen und konsumierten Beutetieren aus. Über 150 von D. errans akzeptierte Pflanzenarten sind erstmalig belegt worden. Der erfolgreiche Verzehr von 15 Beute-tierarten wurde quantitativ nachgewiesen. Eine weitere Besonderheit der Wanze besteht in der Präferenz für glandulär behaarte Pflanzen. Die Weichwanze besetzt somit von vielen anderen Insekten gemiedene Nischen. Untersuchungen im Botanischen Garten der Technischen Universität Dresden (2000 bis 2002) ließen auf eine bemerkenswerte räuberische Aktivität und Anpassungsfähigkeit an unterschiedliche Habitate, Beutetiere und Klimabedingungen schließen. Die fortführenden Studien im Rahmen der vorliegenden Dissertation (2002 bis 2005) erbrachten umfassende Erkenntnisse über die Art D. errans im Hinblick auf deren Morphologie, Vermehrung und Haltung, Bionomie und Ökologie (Fekundität und Ontogenese in Abhängigkeit von ausgewählten Einflussfaktoren, Dormanz), Aufenthalt und Fortbewegung (räumliche Orientierung und strukturanalytische Studien zu den Interaktionen zwischen Wanze und Pflanzenoberflächen), den Nahrungserwerb (Verzehrleistung und Omnivorie) sowie Videodokumentationen der Lebensweise und des Verhaltens. Der Generalist und Opportunist D. errans integriert sich als Pflanzensaftsauger regulierendes Kompartiment neben echten Räubern und Parasitoiden in Biozönosen. Als omnivores Insekt übernimmt die Wanze eine intermediäre und supplementäre Position in Nahrungsnetzen. Die Lebensweise dieser Weichwanzenart erscheint sehr komplex. Die enge Assoziation mit Pflanzen tritt stark in den Vordergrund. Sie ist in jeglichen Betrachtungen von D. errans unbedingt zu berücksichtigen und bietet außerdem als ein Modellsystem ein spannendes Forschungsfeld im Hinblick auf die Adaptation partiell räuberisch lebender Insekten an behaarte Pflanzen. / The omnivorous mirid bug Dicyphus errans Wolff (Heteroptera, Miridae, Bryocorinae) lives on a wide range of host plants and feeds on various preys. Over 150 plant species accepted by the mirid bug have been identified. It was experimentally shown that 15 prey species are efficiently consumed. Another characteristical features of D. errans is that it preferes hairy plants. Thus, the mirid bug occupies unique niches avoided by many other insects. Investigations, carried out at the Botanical Garden of the Technical University of Dresden (2000-2002) gave evidence for a remarkable predatory activity and ability to adaptation to different habitats, preys and climate conditions. The studies presented in the dissertation (2002-2005) gave the comprehensive knowledge about the species D. errans, especially its morphology, rearing, bionomy and ecology (fecundity and ontogenesis depending on selected factors, dormancy), habitat preference and locomotion (spatial orientation and structural-analytical studies of the interactions between the bug and plant surfaces), foraging and food ingestion (predatory capacity and omnivory). In addition, video documentation of the modus vivendi and the behavior was performed. The generalist and opportunist D. errans lives together with predators and parasitoids and takes part in a biological control of phytophagous insects in biocenoses. The life history of this bug species appeared to be very complex. The close association to plants has to be considered. Dicyphus errans offers a model system for further research on omnivorous predatory insects connected with hairy plants.

info:eu-repo/classification/ddc/570

ddc:570

Spinnen in Agrarlandschaften und die biologische Kontrolle von Getreideblattläusen / Spiders in agricultural landscapes and the biological control of cereal aphids

Schmidt, Martin H.

27 May 2004

No description available.

Agricultural Sciences

Ackerland

Ausbreitung

Biodiversität

Biologische Schädlingsbekämpfung

Blattläuse

Brache

Habitatpräferenz

Grünland

Landschaftsökologie

Mulch

natürliche Schädlingskontrolle

Ökologischer Landbau

Parasitoide

Populationsdynamik

Prädatoren

Räuber-Beute Beziehung

räumliche Skala

Schlupfwespen

Schwebfliegen

Spinnen

Störung

Überwinterung

Winterweizen

500 Naturwissenschaften

Aphididae

Aphidiidae

Aphidoletes aphidimyza

aphids

arable crop

Araneida

biodiversity

biological control

dispersal

disturbance

fallow

functional scale

geographic information system

GIS

grassland

habitat preference

landscape ecology

Linyphiidae

mulch

natural pest control

organic farming

overwintering

parasitoid

population dynamics

predator

Rhopalosiphum padi

Sitobion avenae

spiders

Syrphidae

Triticum aestivum

trophic interactions

wasps

winter wheat

48.16

42.65

YA