Edexcel A Level Biology Biodiversity, Maths and Practical Skills Rhyd y creuau 5 days This five day course for A level students covers AS and A level content. It focuses on content relating to biodiversity and ecosystems, statistics and maths and practical endorsement, both preparing for and doing. It covers all three statistical tests: chi-squared, the Student’s t-test and the Spearman’s Rank correlation coefficient. Ecology topics which students often find difficult in exams will be covered by using real examples and data sets. Students will develop their maths skills (10% of total exam marks) and receive guidance and time to enable assessment if required of Core Practical 10 Depending on when you bring your students we can tailor the course to act as intensive revision or as an introduction to aspects of the A level which students find difficult. A Level Biology: Biodiversity, Maths and Practical Skills 5 days Example Course programme with options DAY 1 Links AN INTRODUCTION TO THE AREA AND AN OVERVIEW OF THE COURSE (or half day Freshwater sampling techniques option (see below)) Plant sampling game - An introduction into a range of sampling techniques which will be used and applied throughout the course. ½ day Mini investigations – Small group investigations using a range of equipment to research, plan, carry out and interpret small projects. These will be presented and peer reviewed. Personal objectives will be set for the course. 2 Field site(s): Rhyd y creuau centre grounds Links to: Practical skills: Solve problems set in practical contexts (P.S. 1.1) Apply scientific knowledge to practical contexts (PS 1.2) Comment on experimental design and evaluate scientific methods (PS 2.1) Identify variables including those that must be controlled (PS 2.4) Process and analyse data using appropriate mathematical skill (PS 3.2) Know and understand how to use a wide range of experimental and practical instruments, equipment and techniques (PS 4.1) Light and dark bottle experiments will be set up to help quantify the flow of energy into an ecosystem (on the full day freshwater day option only) Apparatus and technique references: ATh) Safe and ethical use of organisms ATk) Sampling techniques in fieldwork FRESHWATER SAMPLING TECHNIQUES Field site(s): Rhyd-y-creuau stream or the River Conwy (10 minutes walk) No transport required Students will undertake fieldwork investigations to examine the effect of abiotic factors on invertebrate distribution. Students will discuss and carry out a methodology for sampling the density of invertebrates and abiotic variables such as velocity. Organisms will be identified in the laboratory using microscopes dichotomous keys, and classified to family level with reference to the five kingdom and three domain systems. This information will be the basis for the discussion of energy flow and efficiency of energy transfer. Students will have the opportunity to carry out energy transfer calculations. Students will also carry out a short investigation into the effect of an environmental variable on the movement of a freshwater invertebrate family using choice chambers. Data will be collated and analysed using the Chi2 squared test. FOR A WHOLE DAY: High power monocular microscopes will be used to examine insect mouthparts and help identify methods of feeding and trophic level. Using a graticule, annotated scientific drawings will be made. Students will carry out a short investigation into the effect of an environmental variable on the movement of a freshwater invertebrate family using choice chambers. Data will be analysed using the Chi2 test. Quantify the flow of energy into an ecosystem using a light dark bottle experiment. This information will be the basis for the discussion of energy flow and efficiency of energy transfer. Students will have the opportunity to carry out energy transfer calculations. Fieldwork times: Leave: 14:00 Return: 15:30 Links to: New specification content: Topic 4 Biodiversity and Natural Resources 4.1: Know that over time the variety of life has become extensive but is now being threatened by human activity 4.3: Understand the concept of niche and be able to discuss examples of adaptation of organisms to their environment (behavioural, physiological and anatomical). 4.4: Understand how natural selection can lead to adaptation and evolution. Topic 5 On the Wild Side 5.1: Understand the terms ecosystem, community, population and habitat. 5.2: Understand that the numbers and distribution of organisms in a habitat are controlled by biotic and abiotic factors. 5.10 i) Be able to calculate net primary productivity. ii) Understand the relationship between gross primary productivity, net primary productivity and plant respiration. 5.11 Know how to calculate the efficiency of biomass and energy transfers between trophic levels. Practical skills 5a: a, b, c, d 5b: a, b, d Practice for 5c: 1, 2, 4, 5, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b Mathematical skills: A.1.4, A.1.5, A.1.7, A.1.9, A.2.1, A.2.3 SUCCESSION STUDY 3 Students will investigate of primary succession of plant communities (pioneer to climax) across a developing dune system. Students will collect biotic data along a belt transect, using point quadrats to assess the diversity of plant communities in relation to soil and several other environmental gradients. Students will also have the opportunity to discuss the effects of management and conservation on Harlech Dune system, including the impact of climate change in determining climax communities. Students will process their biotic and abiotic data using spreadsheets, Simpson’s Diversity Index and scatter graph’s. Data will then be analysed using Spearman’s rank correlation coefficient, and statistical conclusions drawn. Plant communities will be discussed using named examples and their relation to abiotic factors present at each site, including adaptations e.g. nitrogen fixation. Students will evaluate their study including reference to uncertainties in measurements. Field site(s): Morfa Harlech National Nature Reserve (1 hour drive) Transport required Fieldwork times: Leave 09:45 Return 16:30 Links to: New specification content: Topic 4 Biodiversity and Natural Resources 4.1: Know that over time the variety of life has become extensive but is now being threatened by human activity 4.2: Understand how biodiversity can be compared in different habitats using a formula to calculate an index of diversity (D) 4.3: Understand the concept of niche and be able to discuss examples of adaptation of organisms to their environment (behavioural, physiological and anatomical). 4.4: Understand how natural selection can lead to adaptation and evolution. Topic 5 On the Wild Side 5.1: Understand the terms ecosystem, community, population and habitat. 5.2: Understand that the numbers and distribution of organisms in a habitat are controlled by biotic and abiotic factors. 5.4: Understand the stages of succession from colonisation to a climax community. 5.15: Understand the effects of climate change (changing rainfall patterns and changes in seasonal cycles) on plants and animals (distribution of species, development and life cycles). Practical skills 5a: a, b, c, d 5b: a, b, d Practice for 5c: 1, 2, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b Mathematical skills: A.1.3, A.1.4, A.2.1, A.2.3 4 SAMPLING TECHNIQUES Students will conduct a series of short investigations, in a woodland ecosystem, to explore sampling techniques and ecological theory. This will include development and evaluate of experimental design. Investigation 1: Students will investigate the zonation of bryophytes on oak trees. This will include the use of keys to identify species, the creation of an annotated scientific drawing and data collection using belt transects. Discussion of niche, competition and the effects of biotic and abiotic factors in determining numbers and distribution of organisms in a habitat. Investigation 2: Students will devise a method including random sampling to investigate the distribution of lichens on oak and birch trees. Data will be interpreted using graphical techniques and analysed using standard deviation and the t-test. PLAN FOR CORE PRACTICAL 10 PRACTICE: Plan to carry out a study on the ecology of a habitat, such as using quadrats and transects to determine distribution and abundance of organisms, and measuring abiotic factors appropriate to the habitat Field site(s): Coed Hafod, a nearby Ancient oak woodland. (20 minutes walk) No transport required Fieldwork times: Leave 09:45 Return 15:00 Links to: New specification content: Topic 4 Biodiversity and Natural Resources 4.1: Know that over time the variety of life has become extensive but is now being threatened by human activity 4.3: Understand the concept of niche and be able to discuss examples of adaptation of organisms to their environment (behavioural, physiological and anatomical). Topic 5 On the Wild Side 5.1: Understand the terms ecosystem, community, population and habitat. 5.2: Understand that the numbers and distribution of organisms in a habitat are controlled by biotic and abiotic factors. 5.15: Understand the effects of climate change (changing rainfall patterns and changes in seasonal cycles) on plants and animals (distribution of species, development and life cycles). Practical skills 5a: a, b, c, d 5b: a, b, d Practice for 5c: 1, 2, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b Mathematical skills: A.1.2, A.1.4, A.1.5, A.1.9, A.1.10, A.2.1, A.2.3 5 ½ day INDIVIDUAL INVESTIGATIONS Students will use the skills they have developed during the course, and their synoptic biological knowledge, research, plan and carry out an investigation (individually, or in small groups). Students will record data, present, interpret and analyse their findings using their choice of statistical test and evaluate their investigation. Students will then , if time allows give feedback on their findings to the rest of the group. CARRY OUT CORE PRACTICAL 10: Carry out a study on the ecology of a habitat, such as using quadrats and transects to determine distribution and abundance of organisms, and measuring abiotic factors appropriate to the habitat Field site(s): Centre grounds and/or surrounding area No transport required Fieldwork times: Dependant on whether a half or whole day Practical skills 5a: a, b, c, d 5b: a, b, c, d Practice for 5c: 1, 2, 4, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b, 5a Mathematical skills: Students will have the opportunity to use some or all of the following: A.1.3, A.1.4, A.1.5, A.1.7, A.1.9, A.1.10, A.1.11, A.2.1, A.2.3, A.3.2 ALTERNATIVE DAY OPTIONS ZONATION AND ADAPTATIONS Note: This day is tide dependent Students will conduct fieldwork to look at the zonation of algae and animals down a rocky shore. Students will identify organisms and quantify them using abundance scale on a vertical belt transect with height down the shore. Students will present data graphically and use this as a basis to discuss the distribution of organisms with respect to biotic and abiotic gradients. This will include interspecific and intraspecific competition and consideration of the behavioural, physiological and anatomical adaptations of organisms to harsh condition. For a whole day: Students will have the opportunity to collect data on the dimensions of limpets found in two contrasting areas of the shore. This data can then be converted to height: width ratios and analysed using the T-test. Field site(s): Penmon Point, Anglesey (1:15 drive) Transport required Fieldwork times: Dependant on whether a half or whole day and tides Links to: New specification content: Topic 4 Biodiversity and Natural Resources 4.3: Understand the concept of niche and be able to discuss examples of adaptation of organisms to their environment (behavioural, physiological and anatomical). 4.4: Understand how natural selection can lead to adaptation and evolution. Topic 5 On the Wild Side 5.1: Understand the terms ecosystem, community, population and habitat. 5.2: Understand that the numbers and distribution of organisms in a habitat are controlled by biotic and abiotic factors. 5.3: Understand how the concept of niche accounts for distribution and abundance of organisms in a habitat. Practical skills 5a: a, b, c, d 5b: a, b, d Practice for 5c: 1, 2, 7, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b Mathematical skills: A.1.2, A.1.3, A.1.4, A.3.2 MANAGEMENT, CONSERVATION (whole or half day options – if tides are suitable a shortened version of this day may be combined with the Rocky shore day – just ask) Field site(s): Cwm Idwal NNR and Blaen y Nant farm (25 minute drive) Transport required Students will visit the upland National Nature Reserve of Cwm Idwal to consider how conservation of habitats is balanced with human needs. Students will see evidence of management practices and their effect on succession in exclusion plots across the area, and consider the case study of the Tufted Saxifrage, a rare arctic plant. Fieldwork times: Dependant on whether a half or whole day Additional whole day content: Students also have the opportunity to visit a local upland farm which encompasses part of Cwm Idwal, where they will interview the farmer, Gwyn ‘Buc’ Thomas or upland farming and consider the impact of farming on the diversity of the area. A sampling exercise can also be conducted, using random sampling to compare the species richness, diversity and community composition of grazed and ungrazed areas (Topic 3). Data will then be analysed using a Chi squared test. Links to: New specification content: Topic 4 Biodiversity and Natural Resources 4.1: Know that over time the variety of life has become extensive but is now being threatened by human activity 4.2: Understand how biodiversity can be compared in different habitats Using a formula to calculate an index of diversity (D) 4.3: Understand the concept of niche and be able to discuss examples of adaptation of organisms to their environment (behavioural, physiological and anatomical). 4.4: Understand how natural selection can lead to adaptation and evolution. Topic 5 On the Wild Side 5.1: Understand the terms ecosystem, community, population and habitat. 5.2: Understand that the numbers and distribution of organisms in a habitat are controlled by biotic and abiotic factors. 5.3: Understand how the concept of niche accounts for distribution and abundance of organisms in a habitat. 5.4: Understand the stages of succession from colonisation to a climax community. 5.13: Understand the causes of anthropogenic climate change, including the role of greenhouse gases (carbon dioxide and methane) in the greenhouse effect. 5.15: Understand the effects of climate change (changing rainfall patterns and changes in seasonal cycles) on plants and animals (distribution of species, development and life cycles). Practical skills 5a: a, b, c, d 5b: a, b, c Practice for 5c: 1, 2, 11 Practice for CPAC: 2a, b, c, d; 3a, b, c; 4a, b; 5a Mathematical skills: A.1.4, A.1.5, A.1.9, A.2.3 Group departs: 9.00-9.30am Transport, if needed will be charged at £8.50 per student per day. AND FOR SOMETHING COMPLETELY DIFFERENT OUTDOOR ACTIVITIES Rhyd y creuau is registered with the Adventurous activities Licensing Authority, this enables us to offer an range of outdoor activities which will enable you and your group to take a break from the rigours and strains of ‘A’ levels and experience the Snowdonian environment in a different light. Whole day Mountain walking: Climb Snowdon, the highest peak in England and Wales or another Snowdonian peak ½ day: Gorge scrambling. Scramble up a local ravine as water pours down it Activities we can offer at Rhyd y creuau: ½ day: Climbing – On a local crag (There is no extra charge for one of these activities on your course) Other Adventure Activities externally provided: Snowdonia is being promoted as the UK’s outdoor adventure hub. Within a short drive from the centre there are a wide range of adventure activities available that you could book a visit to. Some examples are: t http://www.field-studies-council.org/outdoorclassroom/ courses Tree tops high ropes course (10 minutes walk) Bounce Below (underground trampolining)! 30 minutes drive Surf Snowdonia : The world’s largest inland surf centre (20 minutes drive) Zip World – the Northern Hemispheres largest zip wire (30 minutes drive)