CHARACTERISTICS OF LIVING ORGANISMS Living and non-living organisms What are the characteristics these two share? Living organisms And what are the characteristics these two share? Characteristics of living organisms • Movement • Respiration • Sensitivity • Growth • Reproduction • Excretion • Nutrition MRS GREN Movement An action by an organism or part of an organism causing a change of position or place Locomotion and Movement Is there a difference? Respiration The chemical reactions in cells that break down nutrient molecules (usually glucose) and release energy. This energy is used to make other chemical reactions (metabolism). Sensitivity The ability to detect or sense stimuli in the internal or external environment and respond to changes in the environment. Growth A permanent increase in size by an increase in cell number or cell size or both. How can we measure growth? For example by using the dry mass of an organism. Various growth stages of the Emperor gum moth caterpillar (Opodiphthera eucalypti). Sources: Encyclopædia Britannica Reproduction The processes that make more of the same kind of organism. Excretion Removal of waste products of metabolism, such as toxic materials and substances in excess of requirements. Excretion and Egestion are the same process? Nutrition Plants Animals Taking in of materials for energy, growth and development AUTOTROPHIC NUTRITION HETEROTROPHIC NUTRITION ANOTHER FEATURE: THE CELL CLASSIFICATION OF ORGANISMS: WHY AND HOW Division of organisms into groups according to particular features. Why? • To more easily study organisms, • To better protect them, • To understand the evolutionary relationships. The common ancestor Biologists try to classify organisms according to how closely they think they are related! The common ancestor is a species that lived in the past and is thought to have given rise to several different species alive today. How? • Morphology and anatomy • DNA analyses and proteins structure (organisms which share a more recent ancestors have base sequences in DNA more similar than those that share distant ancestors) Manis javanica Species Smallest group in which biologists classify living organisms. “Group of organisms that can reproduce with each other to produce offspring that can also reproduce (fertile offspring)”. Manis crassicaudata Manis culionensis Manis pentadactyla © Roger G Dolorosa A hierarchical system System of grouping things according to a hierarchy! Organisms are grouped into taxa (group which forms a unit) and these groups are given a taxonomic rank; groups of a given rank can be aggregated to form a more inclusive group of higher rank, thus creating a taxonomic hierarchy. (The group becomes more and more specific, until the species level) Kingdom Animalia Phylum Chordata Class Mammalia Order Pholidota Family Manidae Genus Manis Species Manis javanica (Desmarest, 1822) The binomial naming system Genus: a group of species that share similar features and a common ancestors • Binomial: Each species has a two-part name (genus + species) • Introduced in 1735 by Linnaeus Kingdom Animalia Phylum Chordata Class Mammalia Order Carnivora Family Canidae Genus Canis Species Canis lupus (Linnaeus, 1758) This file was derived from: Eurasian wolf.JPG, CC BY-SA 4.0, https:// commons.wikimedia.org/w/index.php?curid=95523086 Dichotomous keys Method to identify an organism by providing two descriptions at a time and asking to choose between them. Each choice leads to another pair of descriptions and this process leads to the scientific name of the organism. Dichotomous key step by step How to construct a dichotomous key • Look at the organisms to classify and make a list of features that clearly differ between them. • Choose one of the features that can split the organisms into two groups. The groups don’t have to be of the same size! • Write down the two opposites statements for the chosen feature. • Concentrate on the group that contains more organisms and choose another feature that allows to split those organisms into two further groups. Keep following this process until each group contains only one organism! • Go back and improve the key, by using a clear wording, check that there are two clear alternatives and try to reduce the key to the smallest possible number of statement pairs. Practical investigation 1 You will: Getting started Construct a dichotomous key • Think about the main features of • When you have completed your key with athat you are looking the work organisms • Make a biological drawing and use the to test the key. at. drawing to identify anpartner organism • Once you are happy that your key actually works you can present it to the class You will need: Tip • • Range of specimens of leaves • Paper and pencil • When constructing a dichotomous key, use the most obvious features that you can actually see! Recording data 1. Make a large drawing of one of the organism and label the drawing! 2. State the features of your organism that help you to identify which group it belongs to 3. State the group that your organism belongs to Five kingdoms The largest group into which living organisms are classified • Animals • Fungi • Plants • Protoctista or Protista • Prokariotes Animals • Cells have a nucleus, but no cell walls or chloroplasts • Feed on organic substances made by other organisms Organic substances: substances whose molecules contain carbon. In biology organic compounds are the one made by living things Cellulose: a carbohydrate that forms long fibres and makes up the cell wall of plants Chlorophyll: a green pigment that absorbs energy from light. This energy is used to combine Carbon dioxide with water to make glucose Plants • Cells have a nucleus, cell walls (cellulose) and chloroplasts (Chlorophyll) • Autotrophic (Photosynthesis) • May have roots, stems, leaves and flowers • They are adapted to remain in one place Decomposers: organisms yay break down organic substances outside their bodies, releasing nutrients from them that other organisms can use Spores: small groups of cells surrounded by a protective wall used in reproduction Fungus • Have nuclei • Usually multicellular, but can be unicellular • Have cell walls (Chitin) • Do not have chlorophyll • Saprophytic or parasitic nutrition • Most fungi are decomposers • The main body of most fungi are made of hyphae (long threads made of many cells joined end to end) • They reproduce through spores Protoctist • Multicellular or unicellular • Cells have a nucleus • Cells may have or not a cell wall and chloroplasts • Autotrophic or Heterotrophic Plasmids: small extrachromosomal DNA molecule. Often carry genes that benefit the survival of the organism (e.g. antibiotic resistance) Prokaryote • Subdivided in Bacteria and Archaea • Unicellular, but can form colonies • Have no nucleus • Circular loop of DNA, free in the cytoplasm • Often have plasmids • Have cell walls, not made of cellulose, but of peptidoglycan • Have no mitochondria • Some can carry out photosynthesis Groups within the animal kingdom: Phyla Vertebrates Arthropods Vertebrates: five classes Have a rod running along the length of the body to support them • Fish • Reptiles • Birds • Amphibians • Mammals Class: Reptile Insects Crustaceans Arachnids Myriapods Class: Insects • 3 pairs of jointed legs! • 2 pairs of wings • Breathe trough tracheae • Body divided into head, thorax and abdomen • 1 pair of antennae Class: Arachnids • 4 pairs of jointed legs! • No antennae • Body divided into 2 parts: abdomen and cephalothorax Class: Crustaceans • More than 4 pairs of jointed legs! • Two pairs of antennae Class: Myriapods • Body consists of many similar segments • Each segment has jointed legs • One pair of antennae Activity 1.4 This file was derived from: Eurasian wolf.JPG, CC BY-SA 4.0, https:// commons.wikimedia.org/w/index.php?curid=95523086 Manis pentadactyla Classifying plants: Four phyla Algae Bryophyte (Mosses) (Pteridophyte) Ferns Flowering plants Pteridophyte: Ferns • Plants with roots, stems and leaves (fronds) • Have leaves (fronds) • Do not produce flowers • Reproduce by spores Flowering plants • Plants with roots, stems and leaves • Reproduce using flowers and seeds • Seeds are produced inside the ovary, in the flower. Two main groups of flowering plants Monocotyledons Plants with one cotyledon (seed leave) Dicotyledons Plants with two cotyledons (seed leaves) Dicots Vs. Monocots • Seeds with two cotyledons • Have main root with side roots • Leaves with veins • Flower parts in multiple of four or five • Vascular bundles in the stem arranged in a ring • Seeds with one cotyledons • Roots grow out directly from stem and then branch • Leaves with parallel veins • Flower parts in multiple of three • Vascular bundles in the stem arranged randomly Viruses • • Don’t show the seven characteristics of living organisms. • They need a host cell to replicate and infect other cells. The host cell is killed. They are made of: • • Piece of DNA or RNA A protein coat
