Topic: Glacial landforms in Poland. Young and old glacial landscapes.

Target group

7th‑grade students of elementary school

Core curriculum

IX. The natural environment of Poland against the background of Europe: the geographical location of Poland.

Student:

5 ) shows the influence of tectonic movements and glaciations in Europe on the shape of Poland's surface.

General aim of education

You will learn about post‑glacial forms occurring in Poland.

Key competences

• communication in foreign languages;

• digital competence;

• learning to learn.

Criteria for success
The student will learn:

• you will show the differences between the young glacial and the old‑glacial sculpture;

• you will tell about post‑glacial forms and indicate their occurrence on the map of Poland;

• you will tell about post‑glacial forms in the mountains.

Methods/techniques

• activating

  • discussion.

• expository

  • talk.

• programmed

  • with computer;

  • with e‑textbook.

• practical

  • exercices concerned.

Forms of work

• individual activity;

• activity in groups;

• collective activity.

Teaching aids

• e‑textbook;

• interactive whiteboard, tablets/computers.

lesson plan introduction

Introduction

• The teacher explains the aim and planned course of the lesson. They explain the success criteria to be achieved by the students.

• The teacher is based on students' knowledge from the earlier lesson connected with transgressions and regression of the ice sheet.

Realization

• The students search in the source materials for information on the post‑glacial geoglyphics. They indicate on the wall map: areas of the last glaciation - the Lakeland belt, calling the sculpture there appearing as a glacial area with an old‑glacial sculpture located south of the lake districts, where no visible post‑glacial forms are visible due to denudation (moraine hills have been leveled).

• The teacher divides post‑glacial forms created as a result of the accumulative and erosive prowess of the ice sheet.

• Students explain the terms using source materials such as: head moraine, bottom moraine, pradolina, sandra, gutter lakes, moraine and melt.

• The teacher asks students to read the given fragment of the abstract and try to remember its content. Then the participants, working in pairs, ask each other about the knowledge of the fragment.

Summary

• The teacher asks students to carry out the recommended interactive exercise themselves.

• The teacher asks a willing student to summarize the lesson from his point of view. He asks other students if they would like to add anything to their colleague's statements.

The following terms and recordings will be used during this lesson

Terms

Texts and recordings

Glacial landforms in Poland. Young and old glacial landscapes.

Ice sheets and glaciers form under the following conditions:

• prolonged low (below 0 degrees Celsius) air temperatures;

• snowfall larger than its loss through melting;

• landforms enabling accumulation of snow (flat or concave landscape areas).

Over thousands of years of the Pleistocene, the climate changed, as cooler periods interspersed with warmer ones. When it was relatively cooler over a long period of time, the Scandinavian Ice Sheet increased its size. The ice slid over the neighbouring areas, including Poland (see map above) in the process of so called ice sheet advance. The period when a particular area has been covered by an ice sheet is called a glacial, glaciation or simply ice age. In Poland there were four glaciations: Podlaskie (corresponding temporarily to Elbe glaciation in Northern Europe and Beestonian Stage in the British Isles) (the oldest), South Polish (Elster or Anglian Stage), Middle Polish (Saalian) and North Polish (Vistulian or Weichselian) (the most recent). Between them there were warmer periods called interglacials (that is periods between glaciations), when the ice sheet retreated from our area. It is believed that currently we observe such an interglacial.

In the table below you can find detailed data on each of the glacials and interglacials. Note that each of these periods has a few names used by geographers and geologists interchangeably. All of these names relate to the locations reached by the ice sheet in its maximum advance.

Several advances of the ice sheet on the territory of Poland have transformed its landscape. Numerous landforms emerged as a result of erosion and deposition by mountain and continental glaciers (ice sheets).
Glacial erosion is:

• abrasion of the glacier bed by the rock debris carried by the glacier and the water flowing underneath;

• erosion of the bed caused by the sheer pressure of the moving ice (mostly in the mountains);

• physical erosion (mostly by freeze‑thaw weathering) of the rocks near the glacier.

Wide U‑shaped mountain valleys – e.g. Chochołowska Valley or Kościeliska Valley in Tatra Mountains – have been carved by valley glaciers and waters flowing from them. The slopes have accumulated layers of weathered rocks, so called stone runs. On lowlands, in front of the ice sheet margin, wide meltwater valleys, so called ice‑marginal valleys have developed, filled by large rivers. Also on lowlands, glacial meltwaters have carved deep, long and narrow hollows called tunnel valleys, which were later filled by water to form ribbon lakes.

Glacial deposition is accumulation of rock debris in various places around the glacier. This process has lead to the formation of, among others, undulating landscape forms – moraines, e.g. terminal, ground, and in the mountains also lateral and medial. On lowlands, the ice sheet has left behind erratics that is scattered pieces of rocks varying in size. There have also been formed large flat sandy outwash plains also called sandurs.

Nowadays, glacial landforms can be found almost all over Poland. However, in various regions, they have remained in various condition. Glacial landforms in its best form can be found in lake districts, because these were the areas reached by the last North Polish glaciation. The landscape there is referred to as young glacial landscape, characterised by strongly undulating terrain and numerous glacial landforms such as: moraines, lakes sandurs, eskers, kames, drumlins etc.

South of the lake districts, there are areas of old glacial landscapes. They include mostly the lowlands (Polish Plain) and the uplands belt. During the last glaciation, this was the area near the edge of the ice sheet that is the periglacial zone. It had a cold climate, which caused intense weathering of rocks due to freeze‑thaw and other erosive processes occurring under the conditions of permanently frozen ground (permafrost). The combination of geological processes in the periglacial environment resulted in the reworking of the earlier glacial landforms. At the same time, other forms emerged, which are characteristic for this zone: stone runs, loess sediments, inland dunes.

• On our territory, we had four glaciations (glacials), of which the North Polish Glaciation had the strongest impact on the present landscape.

• The North Polish Glaciation ended only 10 thousand years ago and shaped the young glacial landscape of the lake districts.

• The young glacial landscape of our lake districts is characterised by strongly undulating terrain with numerous landforms, e.g.: lakes, ice‑marginal valleys, sandurs, terminal and ground moraines as well as other types of hills (eskers, kames, drumlins).

• The old glacial landscape is found mostly on lowlands (Polish Plains), dominated by flat terrain diversified here and there by ice‑marginal valleys, morainic ridges and inland dunes.