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8-2 photosynthesis an overview
- 1. Unit 3: Cells Chapter 8: Photosynthesis 8-2: Photosynthesis: An Overview Ms. Petrucci Biology
- 3. History of PhotosynthesisHistory of Photosynthesis & Plant Pigments& Plant Pigments
- 4. PhotosynthesisPhotosynthesis • Involves the Use Of lightInvolves the Use Of light Energy to convertEnergy to convert WaterWater (H(H22 0)0) andand Carbon DioxideCarbon Dioxide (CO(CO22 )) intointo Oxygen (OOxygen (O22 )) andand High Energy CarbohydratesHigh Energy Carbohydrates (sugars, e.g. Glucose) &(sugars, e.g. Glucose) & StarchesStarches
- 5. InvestigatingInvestigating PhotosynthesisPhotosynthesis • Many Scientists HaveMany Scientists Have Contributed ToContributed To UnderstandingUnderstanding PhotosynthesisPhotosynthesis • Early ResearchEarly Research Focused OnFocused On TheThe Overall ProcessOverall Process • Later ResearchersLater Researchers Investigated The DetailedInvestigated The Detailed
- 6. Early Questions onEarly Questions on PlantsPlants Several Centuries Ago,Several Centuries Ago, The Question Was:The Question Was: Does the increase inDoes the increase in mass of a plant comemass of a plant come from the air? The soil?from the air? The soil? The Water?The Water?
- 7. Van HelmontVan Helmont ’s’s Experiment 1643Experiment 1643 • Planted aPlanted a seedseed into Ainto A pre-measured amount ofpre-measured amount of soil andsoil and wateredwatered for 5for 5 yearsyears • Weighed Plant & Soil.Weighed Plant & Soil. Plant Was 75 kg, SoilPlant Was 75 kg, Soil The Same.The Same. • Concluded Mass CameConcluded Mass Came From WaterFrom Water
- 8. PriestleyPriestley’s Experiment 1771’s Experiment 1771 • Burned Candle In Bell Jar Until It Went Out. • Placed Sprig Of Mint In Bell Jar For A Few Days. • Candle Could Be Relit And Burn. • Concluded Plants Released Substance (O2) Necessary For burning.
- 9. IngenhouszIngenhousz ’s Experiment’s Experiment 17791779 Repeated Priestly experiment with & without sunlightRepeated Priestly experiment with & without sunlight
- 10. Results of IngenhouszResults of Ingenhousz ’s’s ExperimentExperiment • Showed That PriestleyShowed That Priestley ’s’s Results Only Occurred InResults Only Occurred In The Presence OfThe Presence Of SunlightSunlight.. • Light Was Necessary ForLight Was Necessary For Plants To Produce ThePlants To Produce The “Burning Gas” or“Burning Gas” or oxygenoxygen
- 11. Julius Robert Mayer 1845Julius Robert Mayer 1845 Proposed ThatProposed That Plants canPlants can ConvertConvert LightLight Energy IntoEnergy Into ChemicalChemical EnergyEnergy
- 12. Samuel Ruben & MartinSamuel Ruben & Martin KamenKamen 19411941 UsedUsed Isotopes ToIsotopes To DetermineDetermine That TheThat The OxygenOxygen Given Off InGiven Off In PhotosynthePhotosynthe sissis ComesComes From WaterFrom Water KAMENKAMEN RUBINRUBIN
- 13. 13 The PhotosynthesisThe Photosynthesis EquationEquation Photosynthesis uses the energy of sunlight to convert water and carbon dioxide into high-energy sugars and oxygen. Photosynthesis is a series of reactions that uses light energy from the sun to convert water and carbon dioxide into sugars and oxygen.
- 14. 14 PigmentsPigments • In addition to water, carbon dioxide, and light energy, photosynthesis requires Pigments • Chlorophyll is the primary light-absorbing pigment in autotrophs • Chlorophyll is found inside chloroplasts
- 15. 15 Light andLight and PigmentsPigments • Energy From The Sun Enters Earth’s Biosphere As Photons • Photon = Light Energy Unit • Light Contains A Mixture Of Wavelengths • Different Wavelengths
- 16. 16 Light & PigmentsLight & Pigments • Different pigmentsDifferent pigments absorbabsorb differentdifferent wavelengthswavelengths of lightof light • Photons of lightPhotons of light ““exciteexcite”” electrons in the plantelectrons in the plant’’s pigmentss pigments • Excited electrons carry theExcited electrons carry the absorbed energyabsorbed energy • Excited electrons move toExcited electrons move to HIGHERHIGHER energy levelsenergy levels • LinkLink
- 17. 17 ChlorophyllChlorophyll There are 2 main typesThere are 2 main types of chlorophyllof chlorophyll molecules:molecules: Chlorophyll aChlorophyll a Chlorophyll bChlorophyll b Magnesium atom at the center of chlorophyll
- 18. 18 Chlorophyll a and bChlorophyll a and b
- 19. 19 Chlorophyll aChlorophyll a •Found in allFound in all plants, algae, &plants, algae, & cyanobacteriacyanobacteria •Makes photosynthesis possibleMakes photosynthesis possible •ParticipatesParticipates directlydirectly in the Lightin the Light ReactionsReactions •CanCan accept energyaccept energy from chlorophyllfrom chlorophyll bb
- 20. 20 Chlorophyll bChlorophyll b • Chlorophyll b is anChlorophyll b is an accessoryaccessory pigmentpigment • Chlorophyll b actsChlorophyll b acts indirectlyindirectly inin photosynthesis by transferringphotosynthesis by transferring the light it absorbs tothe light it absorbs to chlorophyllchlorophyll aa • Like chlorophyll a, it absorbsLike chlorophyll a, it absorbs red & blue light andred & blue light and REFLECTSREFLECTS GREENGREEN