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Premium member Presentation Transcript The Geography of Grass: The Geography of Grass Lecture 3 Justin Borevitz Land InstituteWind Powered Desalinization: Wind Powered Desalinization Perth Seawater Desalination Plant, Seawater Reverse Osmosis (SWRO), Kwinana, Australia "Supplying 17% of Perth’s needs, the plant will be the largest single contributor to the area’s integrated water supply scheme Electricity for the desalination plant comes from the new 80MW Emu Downs Wind Farm, which consists of 48 wind turbines located 30km east Grass Physiology: Grass Physiology Water loss, leaves? Stems, stomata, meristem http://www.missouriplants.com/Grasses/Grass Diversity: 650-785 genera 10,000 species USA: 170 genera and 1400 species Grass family has the most warm-season plants Grasses can be warm- or cool-season plants, so grasses are the most widely adapted plants Grasses are annuals or perennial There are no biennial grasses Grass can be small – annual bluegrass large – bamboo ` Grasses are vital to life on earth. Grass Diversity members of Poaceae plant family Monocotyledonous mostly herbaceous (non woody) jointed culms, sheathed leaves parallel veination Role of stomata: Role of stomata Plants open stomata (microscopic pores in their leaves) to gain CO2, and in the process they lose water. Plants must regulate this loss by regulating stomatal conductance from their leaves. It's a trade-off; to get more carbon, they must 'spend' water. Development of the Root System: Development of the Root System Radicle (primary root) appears at germination Seminal roots develop from the seed Radicles and seminal roots are short-lived Adventitious roots develop from coleoptile node Additional roots can form at nodes Rizhomes: Rizhomes Stem or root?Rhizomes: Rhizomes Quackgrass, johnsongrass, Kentucky bluegrass, switchgrass, reed canarygrass are highly rhizomonous Rhizomes start from an axillary bud Grow laterally underground Rhizomes are actually a series of buds and can root at each node Rhizomes contain stored food Rhizomonous species create thick sods Thick sods purify the water by acting as a filter Tall fescue has short rhizomes – looks like a bunchgrass Stolons: Stolons Lateral stems located above ground Have a creeping nature Form from axillary buds Have nodes and internodes Each node produces a new bud Stoloniferous species form sods Bermudagrass and buffalograss are highly stoloniferous Stems: Stems Thick, lower internodes form a crown in perennial grasses The crown stores carbohydrates and proteins Some species, like timothy, develop a corm Elongation: once or every time?: Elongation: once or every time? Most tillers go through the elongation process to develop a reproductive culm only once. Some species have tillers that essentially elevate the shoot apex at every regrowth: timothy reed canarygrass smooth bromegrass These grasses must be managed properly or they will disappear from the stand. Many of these grass do have active tillering.Protecting meristems: Protecting meristems Plants need active shoot apices and other meristems to provide new growth or re-growth after harvest. Critical management period for grasses occurs during reproductive growth (after transition) when internode elongation elevates the shoot apex to a vulnerable height. Timothy, smooth bromegrass, and prairie grass are examples of grasses susceptible to mismanagement (untimely defoliation). Defer grazing or clipping until crown buds are ready for growth (boot stage or later).Grazing implications: Grazing implications Grasses in vegetative stages, producing lots of leaves are the best for grazing Elongation indicates the shoot apex (growing point) is rising and may be vulnerable Grasses in reproductive stage have more culm which is not as palatable or nutritious Hay is best cut before the inflorescence appears above the flag leaf (boot stage) because of the balance between yield and qualityPhotorespiration: Photorespiration RUBISCO binds O2 instead of CO2 Photorespiration occurs in hot climates and when there is high oxygen levels and low levels of carbon dioxide Plants avoid photorespiration by C4 photosynthesis C4 plants concentrate CO2 in special cells Matt Ritter CalPoly San Luis ObispoSlide15: Vascular Bundle surrounded by Bundle Sheath Cells C4 Plant “Kranz Anatomy”C4 Carbon Fixation: C4 Carbon Fixation C4 cells have both the Calvin Cycle and the C4 mechanism C4 fixation occurs in mesophyll cells and the Calvin Cycle occurs in the bundle sheath cells C4 plants: sugarcane, millet, corn, sorghum, bougainvillea PEP carboxylase has no affinity for O2Approaches to Photosynthesis: Approaches to PhotosynthesisRadiation effects: Radiation effects Photosynthesis increases in a nearly linear manner with irradiance to near 50% full sun for C3 plants. C4 plant photosynthesis continues to increase with increased radiation due to PEPCase keeping CO2 levels low creating a larger gradient. At full sun, C4 species photosynthesis rates may be double that of C3 species. Thus, C3 grasses are more digestible and higher in protein!!! David B. & Kimberly J. Hannaway OSU ForagesTextChapter5.pptSlide20: C3 grow better in cool seasons Examples: Legumes: alfalfa, red clover, white clover, crimson clover, birdsfoot trefoil Grasses: tall fescue, orchard grass, ryegrasses, timothy, smooth bromegrass, Kentucky bluegrass Brassicas: turnips,rape, kale, swedes Cereal grains: oats, wheat, triticale, rye all dicotyledonous weed species C4 higher Water Use Efficiency corn big bluestem switchgrass bermudagrass sorghum sudangrass summer annual grass weeds are typically C4 Local Adaptation: Local Adaptation Flowering time Moisture, water use efficiency. Clinal variation North to South, East to West John McKay’s talkFlowering: When stimulated to flower… Shoot apex (terminal meristem, apical meristem, primordial meristem) stops producing leaves Shoot apex focus on developing an inflorescence Not all tillers become reproductive at any given season Once a tiller produces an inflorescence, the tiller and roots die FloweringSlide24: What was the solution? Go back to problems Before it can grow crops land has to be ploughed. Until the arrival of the homesteaders in the 1860s however, the soil on the Plains had never been cut by a plough. The Prairie grass that covered the Plains had thick deep roots of up to 10cm. These roots grew in dense tangled clumps that were difficult to cut. The first homesteaders that arrived on the Plains brought their iron ploughs from the Eastern USA. These could cut through the previously ploughed soft soils there, but they broke when used on the Great Plains.Slide25: To cut through the soil of the Plains the homesteaders needed a much stronger plough. In 1830 an Illinois blacksmith named John Deere had made a steel plough for one of his neighbours, in order to solve the same problem the homesteaders faced. This ‘Sodbuster’ plough was soon adopted by the homesteaders and provided them with the means to plough their land. Steel is a much stronger metal than iron, so the plough did not break.Slide26: To overcome the lack of timber to build their houses the Homesteaders used sods of earth cut from the Plains as bricks. They built their houses out of this earth and called them sod houses. Many sod houses were huge affairs, with many rooms, but they all suffered from the same problems. They were dirty, drafty and leaked whenever it rained. The walls and floor were infested with lice, which crawled over the Homesteaders as they slept. Mud fell off the ceiling into the Homesteaders’ cooking pots, and germs were rife. Despite this, many Homesteaders were proud of their first ‘soddy’ and often lived in them for decades.Prairie Weather: Prairie Weather Grasses ride the Prairie Climate Rollercoaster 80C differential! -40C to +40C Day changes of >15C, not correlated with day night, like the desert. Semi arid, cannot sustain forestland As Europeans were used to But not an obvious desert Jet Stream: Jet Stream Prevailing Winds from the West Desert, southwest, Pacific, northwest, Artic North (Winter), or gulf South (summer) Chicago area, gulf meats Pacific! Thunderstorms Wind, dense to less dense Moist, cold air is more dense, than dry warmSlide29: Adiabatic cooling results in rain shadows on the back side of mountains. Slide30: Earth has three Hadley cells per hemisphere with breaks at 0, 23-30, 50-60 and 90 degrees. Jupiter, which is a larger planet than Earth, has more Hadley cells.El Nino La Nina: El Nino La Nina ~ ~ ~Figure 4.15a: Figure 4.15aFigure 4.15c: Figure 4.15c You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Geography of Grass Ethan Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 439 Category: Education License: All Rights Reserved Like it (1) Dislike it (0) Added: April 07, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript The Geography of Grass: The Geography of Grass Lecture 3 Justin Borevitz Land InstituteWind Powered Desalinization: Wind Powered Desalinization Perth Seawater Desalination Plant, Seawater Reverse Osmosis (SWRO), Kwinana, Australia "Supplying 17% of Perth’s needs, the plant will be the largest single contributor to the area’s integrated water supply scheme Electricity for the desalination plant comes from the new 80MW Emu Downs Wind Farm, which consists of 48 wind turbines located 30km east Grass Physiology: Grass Physiology Water loss, leaves? Stems, stomata, meristem http://www.missouriplants.com/Grasses/Grass Diversity: 650-785 genera 10,000 species USA: 170 genera and 1400 species Grass family has the most warm-season plants Grasses can be warm- or cool-season plants, so grasses are the most widely adapted plants Grasses are annuals or perennial There are no biennial grasses Grass can be small – annual bluegrass large – bamboo ` Grasses are vital to life on earth. Grass Diversity members of Poaceae plant family Monocotyledonous mostly herbaceous (non woody) jointed culms, sheathed leaves parallel veination Role of stomata: Role of stomata Plants open stomata (microscopic pores in their leaves) to gain CO2, and in the process they lose water. Plants must regulate this loss by regulating stomatal conductance from their leaves. It's a trade-off; to get more carbon, they must 'spend' water. Development of the Root System: Development of the Root System Radicle (primary root) appears at germination Seminal roots develop from the seed Radicles and seminal roots are short-lived Adventitious roots develop from coleoptile node Additional roots can form at nodes Rizhomes: Rizhomes Stem or root?Rhizomes: Rhizomes Quackgrass, johnsongrass, Kentucky bluegrass, switchgrass, reed canarygrass are highly rhizomonous Rhizomes start from an axillary bud Grow laterally underground Rhizomes are actually a series of buds and can root at each node Rhizomes contain stored food Rhizomonous species create thick sods Thick sods purify the water by acting as a filter Tall fescue has short rhizomes – looks like a bunchgrass Stolons: Stolons Lateral stems located above ground Have a creeping nature Form from axillary buds Have nodes and internodes Each node produces a new bud Stoloniferous species form sods Bermudagrass and buffalograss are highly stoloniferous Stems: Stems Thick, lower internodes form a crown in perennial grasses The crown stores carbohydrates and proteins Some species, like timothy, develop a corm Elongation: once or every time?: Elongation: once or every time? Most tillers go through the elongation process to develop a reproductive culm only once. Some species have tillers that essentially elevate the shoot apex at every regrowth: timothy reed canarygrass smooth bromegrass These grasses must be managed properly or they will disappear from the stand. Many of these grass do have active tillering.Protecting meristems: Protecting meristems Plants need active shoot apices and other meristems to provide new growth or re-growth after harvest. Critical management period for grasses occurs during reproductive growth (after transition) when internode elongation elevates the shoot apex to a vulnerable height. Timothy, smooth bromegrass, and prairie grass are examples of grasses susceptible to mismanagement (untimely defoliation). Defer grazing or clipping until crown buds are ready for growth (boot stage or later).Grazing implications: Grazing implications Grasses in vegetative stages, producing lots of leaves are the best for grazing Elongation indicates the shoot apex (growing point) is rising and may be vulnerable Grasses in reproductive stage have more culm which is not as palatable or nutritious Hay is best cut before the inflorescence appears above the flag leaf (boot stage) because of the balance between yield and qualityPhotorespiration: Photorespiration RUBISCO binds O2 instead of CO2 Photorespiration occurs in hot climates and when there is high oxygen levels and low levels of carbon dioxide Plants avoid photorespiration by C4 photosynthesis C4 plants concentrate CO2 in special cells Matt Ritter CalPoly San Luis ObispoSlide15: Vascular Bundle surrounded by Bundle Sheath Cells C4 Plant “Kranz Anatomy”C4 Carbon Fixation: C4 Carbon Fixation C4 cells have both the Calvin Cycle and the C4 mechanism C4 fixation occurs in mesophyll cells and the Calvin Cycle occurs in the bundle sheath cells C4 plants: sugarcane, millet, corn, sorghum, bougainvillea PEP carboxylase has no affinity for O2Approaches to Photosynthesis: Approaches to PhotosynthesisRadiation effects: Radiation effects Photosynthesis increases in a nearly linear manner with irradiance to near 50% full sun for C3 plants. C4 plant photosynthesis continues to increase with increased radiation due to PEPCase keeping CO2 levels low creating a larger gradient. At full sun, C4 species photosynthesis rates may be double that of C3 species. Thus, C3 grasses are more digestible and higher in protein!!! David B. & Kimberly J. Hannaway OSU ForagesTextChapter5.pptSlide20: C3 grow better in cool seasons Examples: Legumes: alfalfa, red clover, white clover, crimson clover, birdsfoot trefoil Grasses: tall fescue, orchard grass, ryegrasses, timothy, smooth bromegrass, Kentucky bluegrass Brassicas: turnips,rape, kale, swedes Cereal grains: oats, wheat, triticale, rye all dicotyledonous weed species C4 higher Water Use Efficiency corn big bluestem switchgrass bermudagrass sorghum sudangrass summer annual grass weeds are typically C4 Local Adaptation: Local Adaptation Flowering time Moisture, water use efficiency. Clinal variation North to South, East to West John McKay’s talkFlowering: When stimulated to flower… Shoot apex (terminal meristem, apical meristem, primordial meristem) stops producing leaves Shoot apex focus on developing an inflorescence Not all tillers become reproductive at any given season Once a tiller produces an inflorescence, the tiller and roots die FloweringSlide24: What was the solution? Go back to problems Before it can grow crops land has to be ploughed. Until the arrival of the homesteaders in the 1860s however, the soil on the Plains had never been cut by a plough. The Prairie grass that covered the Plains had thick deep roots of up to 10cm. These roots grew in dense tangled clumps that were difficult to cut. The first homesteaders that arrived on the Plains brought their iron ploughs from the Eastern USA. These could cut through the previously ploughed soft soils there, but they broke when used on the Great Plains.Slide25: To cut through the soil of the Plains the homesteaders needed a much stronger plough. In 1830 an Illinois blacksmith named John Deere had made a steel plough for one of his neighbours, in order to solve the same problem the homesteaders faced. This ‘Sodbuster’ plough was soon adopted by the homesteaders and provided them with the means to plough their land. Steel is a much stronger metal than iron, so the plough did not break.Slide26: To overcome the lack of timber to build their houses the Homesteaders used sods of earth cut from the Plains as bricks. They built their houses out of this earth and called them sod houses. Many sod houses were huge affairs, with many rooms, but they all suffered from the same problems. They were dirty, drafty and leaked whenever it rained. The walls and floor were infested with lice, which crawled over the Homesteaders as they slept. Mud fell off the ceiling into the Homesteaders’ cooking pots, and germs were rife. Despite this, many Homesteaders were proud of their first ‘soddy’ and often lived in them for decades.Prairie Weather: Prairie Weather Grasses ride the Prairie Climate Rollercoaster 80C differential! -40C to +40C Day changes of >15C, not correlated with day night, like the desert. Semi arid, cannot sustain forestland As Europeans were used to But not an obvious desert Jet Stream: Jet Stream Prevailing Winds from the West Desert, southwest, Pacific, northwest, Artic North (Winter), or gulf South (summer) Chicago area, gulf meats Pacific! Thunderstorms Wind, dense to less dense Moist, cold air is more dense, than dry warmSlide29: Adiabatic cooling results in rain shadows on the back side of mountains. Slide30: Earth has three Hadley cells per hemisphere with breaks at 0, 23-30, 50-60 and 90 degrees. Jupiter, which is a larger planet than Earth, has more Hadley cells.El Nino La Nina: El Nino La Nina ~ ~ ~Figure 4.15a: Figure 4.15aFigure 4.15c: Figure 4.15c