Patterns In Nature Part 3
Plants and animals have specialised structures to obtain nutrients from their environment
- identify some examples that demonstrate the structural and functional relationships between cells, tissues, organs and organ systems in multicellular organisms
-Inmulticellularorganisms,differentcellscanbecomespecialisedto performdifferentfunctions.
-Multicellularorganismsare madeup ofmanycells.
-CELLS arethe smallestunit of life. Theyperform specificfunctions:
- E.g.musclecell-its job is to contract or relax
-TISSUESaregroupsofcellswithsimilarfunctions.Theyperformfunctionsasagroup ofcells:
- E.g.muscle tissue -madeup ofmuscle cells, job is to contract or relax
-ORGANSaremadeup ofgroups of tissues that function as a whole:
- E.g. the stomach-made ofmuscletissues, is moves to churnfood
-ORGANSYSTEMSaregroupsoforgansthatfunctiontogetherasacoordinatedsystem to perform a roleforthe body
- E.g.digestive system -madeup oforgans such asthe stomach
- distinguish between autotrophs and heterotrophs in terms of nutrient requirements
-Autotrophicmeans‘self-feeding’.Autotrophs areorganisms thatmaketheirown food through photosynthesis:
- Nutrientrequirements:Autotrophs,suchasplants,requirethesubstancesnecessaryforphotosynthesis.Thesearewater,carbondioxideandsunlight.Theyalsoneed oxygen and sugarsfor respiration
-Heterotrophsareorganisms thatconsume otherorganismsfornutrition:
- Nutrientrequirements:Heterotrophsrequireotherorganismstofeedon,suchashowherbivoreseatplants,andcarnivoreseatmeat.Theyalsoneedoxygenforrespirationandwaterforlife.
-identify the materials required for photosynthesis and its role in ecosystems
-Photosynthesis is the process bywhich plants create glucose
-Thissynthesisoforganiccompoundsfrominorganiccompoundsisaprocessalllivingthings ultimatelydepend on.
-Plantsmakefoodthroughphotosynthesis,herbivoreseatplants,carnivoreseatherbivores, and the foodchaincontinues. However, theyallbegin with plants
-Thematerialsneeded forphotosynthesis are water,CO2, andchlorophyll
- identify the general word equation for photosynthesis and outline this as a summary of a chain of biochemical reactions
-Thegeneralwordequation forphotosynthesis is:
Carbon dioxide+ WaterSUNLIGHTAndCHLOROPHYLLSugarandOxygen
-Thechemicalequation for photosynthesis is:
6CO2+ 12H2O C6H12O6+ 6O2+6H2O
Photosynthesis is thought to occur in two stages:
Light Reactions of Photosynthesis:
-Onlythis stage requiressunlight
-Light absorbed bychloroplasts is used to split watermolecules
-This process is calledphotolysis
-In this process, thewater molecule is split into oxygenandhydrogen
-This processoccurs onthe thylakoids ofchloroplasts
Light-Independent Reactions of Photosynthesis:
-Also called the carbon-fixation stage
-Hydrogenreleasedfromthefirstreactionisjoinedwithcarbondioxidetoformsugars
-This processrequires energy
- explain the relationship between the organisation of the structures used to obtain water and minerals in a range of plants and the need to increase the surface area available for absorption
Obtainingwaterand minerals:
-Inaquaticenvironments,waterandmineralsareabsorbedacrossthewholesurface of theplants
-However,forterrestrial(land)plants,waterandmineralsareobtainedthroughroot systemsRootsystemsmusthaveaverylargesurfaceareatoabsorbenoughnutrientsforthe wholeplant
-Theyachieve this through havinga branchingstructureandmanyroot hairs
-Therootsystemcanalso be used to anchor theplant
-Manydifferenttypes of root systems exist
Differenttypes of roots used to absorbnutrients are:
-TAPROOTS:Thesetypesofrootsystemshaveonemainroot,calledthetaproot,fromwhichsiderootscomeoutfrom.Taprootsmanypenetratedeeplyintothesoil.Sometimesthetaprootsactasstorageorgansandswell up, suchascarrots.
-FIBROUSROOTS:Theserootsystemsformnetworksofrootsclosetothesoilsurface.Theycanspreadoutwidelytosupporttheplant,andprovide alarge surfacearea forabsorption of mineral ions andwater
-MYCORRHIZA:Thisiswheretherootsystemisassociatedwithfungiinasymbioticrelationship.Thefungiprovidestheplantswithadditionalmineralnutrientsandtheplantprovidescarbonbasedproductsforthefungi
-AERIALROOTS:Inareaslikewaterloggedestuariesorswamps,plantsproducerootsthatgrowabovetheground.Theserootshelpwithgasexchange
External Root Structure:
-Therootsystem of aplant is usuallybelow theground
-Roots do not photosynthesise,and do not haveleaves or buds
-Thegrowingpoints of roots are protectedbyrootcaps
-Asrootsgrowthroughoutthesoiltheybranchoutandprovidealargesurface area for absorption aswellas ananchorfor the plant
-Most of theabsorptionoccurs in the root hairs of the root
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Internal Root Structure:
-Thebasicrootstructureismadeupofthethreeparts:theepidermis,thecortexand the vascular tissue
-Epidermis:Theouterlayeroftheroot.Itlacksacuticle.Inyoungroots,the epidermis is coveredwith a slimycoatingor sheathcalledmucigel
-Cortex:Thecortexisinbetweentheepidermisandthevasculartissue.Itacts as astorage areafor excessmaterials,andhasairspaces for gasflow
-VascularTissue:Inroots,itformsacylinderinthecentre.Itismadeofxylemand phloem vessels.It transports waterandnutrients
-VasculartissueInrootsthevasculartissueformsacylinderinthecentre.Itconsistsofxylemandphloem,andissome-timescalledthestele.
- explain the relationship between the shape of leaves, the distribution of tissues in them and their role
Obtainingsunlightand carbondioxide:
-Thespecialisedleafstructureoftheplantusedforobtaininglightandcarbondioxide isthe leaf
-Most of thephotosynthesis of plants occurs in leaves
-Thelamina is thebladeof theleaf
-Thepetiole is the part that attaches it to thestem
ExternalLeafStructure:
-Arrangement:Leavesareusuallyarrangedalongthestemsinawaythatexposesthemtothemaximumamountofsunlight.Theyareusuallypositioned so thatsunlightstrikes the upperpart of theleaf.
-Shape:Most leaves are broad,thinandflat. This givesthemalargesurfaceareafor thecaptureofsunlightandgasexchangeneededforphotosynthesis and respiration.
InternalLeafStructure:
-Cuticle:Thisisawaxylayeroverthesurfaceoftheleaf.Itiswaterproofandprovidesshapeandprotection.Itplaysanimportantpartinreducingwaterloss in terrestrial plants
-Epidermis:Itisasingleprotectivelayerofcellsontheupperandlowerside of leaves.It is transparent to allow light to pass through.
-Stomates:Theseareporesintheleafthatcanopenandclose.Whenopen,theyallowgasexchange,but this results in waterloss.
-Mesophyll:Mesophyllarethecellsinthemiddleofthecell,inbetweenthe upperepidermis and lower epidermis. There aretwo types:
- PalisadeMesophyll:Theyareregularlyarranged,elongatedandpackedwithchloroplasts.Mostofthephotosynthesisoccursinthesecells.
- SpongyMesophyll:Situatedunderthepalisade,butabovethelowerepidermis.Containslesschloroplasts,andarerandomlyarrangedwithlarge airspaces toallowgasexchange.
-Veins:Veinsaretubesofvasculartissueinplants.They formabranchingnetwork in the leaves, providingstructureand shape. Vasculartissue:
- XYLEM:Transportswaterandmineralsfrom roots to leaves
- PHLOEM: Transports products of photosynthesisto the rest of plant
- describe the role of teeth in increasing the surface area of complex foods for exposure to digestive chemicals
-Animals areheterotrophic; theyget nourishment from the external environment
-Thedigestivesystemisthesystemresponsibleforbreakingdownfoodtoasizewheretheycanbeusedbycells
-Therearetwo parts of digestion:
- MechanicalDigestion:
-This involves breakingfood down through mechanical means.
-Theteeth arethe most importantmeans of mechanicaldigestion.
-Theroleofteethistobreakfooddownintosmallerpiecestoincreasethesurface area of the food.
-Thegreaterthesurfacearea,thebetterthedigestivechemicalscanactonthe food.
-Thestomach is also involved withmechanicaldigestion.
- Chemicaldigestion:
-This involves the useof enzymes to chemicallybreakfood down.
-Amylases- enzyme thatacts on carbohydrates.
-Proteases-enzyme that acts on proteins.
-Lipases - enzyme that acts on lipids.
- explain the relationship between the length and overall complexity of digestive systems of a vertebrate herbivore and a vertebrate carnivore with respect to:
–the chemical composition of their diet
–the functions of the structures involved
Herbivores:
-Themain component ofa herbivore’sdiet is plantmaterial
-Most of themass ofplant material is madeup ofcellulose
-Theyhaveflatteeth togrind the fibrous plant material
-Plant material is difficult to breakdowncomparedtoanimalmaterial
-Herbivores usethe helpofmicro-organisms to helpdigest thecellulose
-This digestioncan occurin two places:
- FORE-GUTFERMENTERS:Thistypeofherbivore(e.g.cows)digeststheirfoodin a chamberbefore the stomachcalledtherumen
- HIND-GUTFERMENTERS:Thistypeofherbivore(e.g.horses)digestsits food in a chamberafter thesmall intestine called thecaecum.
-Compared to meat,plantmaterial is low in energy
-Plants alsotake longer and is harder to digestthanmeat
-This meansthatherbivoreshave to constantlyeatto survive
-Thedigestivesystemsofherbivoresarealotlargerandlongerthanthatofcarnivores. This is because plants take longer to digest
Carnivores:
-Themain component oftheir diet is meat
-Meat is high in energy, and is relativelyeasyto digest
-Thismeansthatthedigestivesystemsofcarnivoresareshortcomparedtoherbivores and also have to specialisedorgans likethe caecum or rumen
-Theyhaveveryshortlargeintestines,asthemeathasalreadybeenabsorbedin thesmall intestine
- plan, choose equipment or resources and perform first-hand investigations to gather information and use available evidence to demonstrate the need for chlorophyll and light in photosynthesis
- perform a first-hand investigation to demonstrate the relationship between surface area and rate of reaction
- identify data sources, gather, process, analyse and present information from secondary sources and use available evidence to compare the digestive systems of mammals, including a grazing herbivore, carnivore and a predominantly nectar feeding animal
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