Horticulture Principles and Practices

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22.8 MANAGING SOIL PHYSICAL QUALITY A good farming soil should be maintained in a condition such that soil compaction and erosion are reduced, while soil water-holding capacity, aeration, and tilth are enhanced. Tillage and mechanical cultivation can be used judiciously to incorporate organic matter and other soil organic amendments into the soil to improve its physical quality. Incorporation of organic matter into the soil stabilizes soil aggregates and reduces soil erosion. Practices such as crop rotation also maintain good soil physical condition since crops vary in root depth and characteristics. 22.9 SOIL FERTILITY MANAGEMENT Soil fertility management is one of the key activities in organic production. As previously stated, one of the key foundational principles in organic production is the use of natural plant nutrition. 22.9.1 NUTRIENT MANAGEMENT PLANNING AND MONITORING Just like conventional production, nutritional balance is important in organic production. However, because of the more stringent production guidelines, nutrient management in organic culture should be carefully planned and monitored to remain compliant with NOP guidelines. The plan should include the approaches for using natural plant nutrition through practices like crop rotations as well as incorporating nutrient amendment and environmental protection from contamination. These should be detailed in the OSP. Another key aspect of nutrient management is soil testing to monitor nutrient concentration in the soil. 22.9.2 REPLENISHING SOIL NUTRIENTS BY NATURAL PLANT NUTRITION This approach to fertility management in organic production relies on natural cycles and carefully planned human practices to replenish the soil with nutrients extracted during a production cycle. Organic matter is incorporated into the soil to be decomposed by soil microbes to release nutrients by the process of mineralization. The major practices for natural plant nutrition are: 1. Green manures. Specific plants are cultivated with the sole purpose of incorporating into the soil while green. 2. Cover crops. Cover crops are grown for the primary purpose of soil and nutrient conservation. If leguminous, they can enrich the soil through nitrogen fixation. Cover crops may be used as green manures. Examples of cover crops are sunhemp (Crotalaria juncea), velvet bean (Mucuna deringiana), hairy vetch (Vicia villosia), and crimson clover (Trifolium incarnatum). If an inoculum is to be used for a legume species, it must be of the approved kind. 3. Animal manures. See book 4. Compost. General composting is discussed in Chapter 22. To be allowed for use in organic production, composts must be prepared according to NOP guidelines. Raw animal manure may be applied to crops grown for livestock feed but not for human consumption. If applied to a crop whose edible portion does not touch the soil, it cannot be harvested earlier than ninety days postapplication. If the edible portion touches the soil, harvesting must be delayed until 120 days postapplication. Municipal waste is prohibited from organic production. The carbon-to-nitrogen ratio (C:N ratio) of the raw materials should be between 25:1 and 40:1. Further, the 22.9 Soil Fertility Management 657
compost heap temperature must be maintained at between 131°F to 170°F for at least three days if the compost system is static-aerated, and for at least fifteen days if composting occurs in a wind-row system whereby the heap is periodically turned. 22.9.3 REPLENISHING SOIL NUTRIENTS BY SUPPLEMENTAL PLANT NUTRITION Deep, fertile, organic soils and other prime farmlands can support high crop productivity if properly managed with little or no supplemental nutritional inputs. On marginal farmlands and those that previously were under conventional production practices, conversion to organic production requires significant management not only to be compliant but to sustain high productivity. Organic producers may apply natural products like powdered rock minerals in their operations. These include dolomitic limestone, rock phosphates, gypsum, and mined potassium sulfate to supply phosphorus, potassium, calcium, magnesium, and sulfur, applied as needed. Materials like hydrated lime (slaked lime) and burnt lime (calcium oxide) are prohibited because of the synthetic method of production. Providing supplemental nitrogen, often the most limiting nutrient in vegetable production, is challenging because the organic sources are highly variable in their nitrogen concentrations. In addition to organic sources of nitrogen, producers may use sodium nitrate from mined rock to supply up to 20 percent of the crop’s total nitrogen requirement. Further, if the producer can document a specific nutrient deficiency, the certifying agency may approve the use of a synthetic material with relatively high solubility for corrective action. All supplements that have been pelleted are prohibited. Some companies now market low-analysis organic fertilizers (e.g., 8-5-5 and 4-2-2) composed of dehydrated granular by-products of animal production (e.g., feathers, bone meal, etc.). Fish emulsion is also used in organic production. 658 Chapter 22 Organic Farming 22.10 WEED MANAGEMENT Some consider weeds to be the most economic pests in organic culture. Herbicides are a major component of modern conventional crop production. However, since synthetic pest control is prohibited in organic culture, the most widely used weed management approach to weed control is prevention. The key approaches to weed control in organic production include the following: 1. Avoidance. Whenever possible, the producer should avoid locating plants in fields that are known to have high weed infestation. As previously discussed, the predominance of certain weeds in an area is indicative of the soil physical and nutritional condition. The producer may allocate crops to the field on the basis of plant growth requirements and competitive abilities, to make the best of the environment. 2. Solarization. This is the method of killing weeds by heating the soil using the sun as the source of heat. Solarization can control some weeds as well as soil pathogens. 3. Flame weeding. Flame weeding may be conducted as a preplant, preemergent, or postemergent treatment to control weeds. As preplant, the goal is to control the first flush of weeds that follows tillage. This method of weed control is noted to be more effective on hot, dry days. Further, just searing the plant is more effective and economical than charring, which is known to stimulate root development and plant regrowth. 4. Tillage. Tillage and cultivation are the most commonly used nonchemical weed management methods in traditional crop production. Tillage may be conducted as preplant operation to prepare the soil for seeding. Blind tillage is conducted as a
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HORTICULTURE Principles and Practic
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HORTICULTURE Principles and Practic
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With love to Theresa, quarterback;
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Brief Contents Preface xxi PART 1 T
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Contents Preface xxi PART 1 THE UND
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5.3 PLANT GROWTH PROCESSES 160 5.4
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8.20 COMMON GREENHOUSE DISEASES 276
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12.3 INTERNAL ENVIRONMENTAL CONTROL
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PART 6 Summary 541 References and S
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22.18 INDOOR COMPOSTING SYSTEMS 668
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Preface Horticulture is the area of
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ACKNOWLEDGMENTS I am very grateful
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PART 1 THE UNDERLYING SCIENCE CHAPT
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1 What Is Horticulture? PURPOSE AND
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(a) (c) (b) (d) FIGURE 1-1 The many
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FIGURE 1 Bridge. The plaza view of
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CYCADS Many people mistake these pr
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FIGURE 2 The world's largest unbran
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FIGURE 2 Sold flowers are loaded on
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FIGURE 1-4 Formal landscaping featu
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1.4 ROLEOFTHENURSERY AND SEED INDUS
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1.5 HORTICULTURE AND SOCIETY Hortic
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TABLE 1-3 U.S. Horticultural Export
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Turfgrass Operation 1. Landscape te
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What Is Horticulture? This site pro
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Examples of botanical gardens http:
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2 Classifying and Naming Horticultu
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Eight major taxa are commonly used
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TABLE 2-3 The Divisions of the King
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HISTORY OF PLANT TAXONOMY PAUL R. F
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AGE OF HERBALISTS Two major events
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possible system of nomenclature. Ho
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TABLE 1 Type Categories for Plant N
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2.3 OTHER CLASSIFICATION SYSTEMS (O
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2. Shrubs. A shrub has no main trun
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Simple Fruits Fleshy Fruits Drupe B
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FIGURE 2-14 A pome, represented by
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2.3.5 CLASSIFICATION OF VEGETABLES
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(a) (b) FIGURE 2-22 (Source: George
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FIGURE 2-25 A narrowleaf plant. (So
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FIGURE 2-29 Parts of a typical gras
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such as rosemary, sage, thyme, marj
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c. Leaves d. Bulbs 2. Cut across (t
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Whole plant Organs FIGURE 3-1 Level
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ibonucleic acid (RNA), proteins, an
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called cristae; this extreme foldin
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By virtue of its position, the prim
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Phloem Tissue Structurally, phloem
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(a) Stalk (b) Culm FIGURE 3-5 Cross
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Scale Compressed stem (a) Whole bul
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Upper epidermis Palisade layer FIGU
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usually occur in xerophytes. In cer
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FIGURE 3-22 Selected common leaf ma
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FIGURE 3-25 Selected common leaf ti
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absorption of water and minerals fr
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Outer bark Inner bark FIGURE 3-37 T
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Anther Filament Stamen FIGURE 3-41
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Exocarp Parts of a typi- FIGURE 3-4
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PRACTICAL EXPERIENCE LABORATORY 1.
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4.1 CLIMATE, WEATHER, AND HORTICULT
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concentration in the atmosphere.A c
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TABLE 4-1 Climatic Adaptation of Se
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and upward. Another important gener
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Rate of photosynthesis mg/sq. dm/hr
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and plants that flower under only c
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times of the year. Growers start th
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content. This section is sometimes
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TABLE 4-7 Soil Mineral Nutrients Es
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Micronutrients (Trace Elements) Mic
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Neutral FIGURE 4-11 A representatio
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4.4 FERTILIZERS Fertilizer sources
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One of the most commonly used contr
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Chlorosis (the yellowing of green l
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Fertilizers may be applied before p
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It is neither practical nor safe to
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Solution: How much of ammonium nitr
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1°C (34°F), the optimum temperatu
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Cellulose sponge Perched water tabl
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Overhead Sprinkler Irrigation Water
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FIGURE 4-19 Furrow irrigation of le
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can self-install an underground irr
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1. Surface drainage. Surface draina
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Secondary Tillage Primary tillage i
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(a) (b) (c) (d) FIGURE 4-20 (Source
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texture. The most commonly used gra
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TABLE 4-11 Selected Standard Mixes
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Steam Pasteurization Steam pasteuri
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Maracher, H. 1986. Mineral nutritio
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5 Plant Physiology PURPOSE AND EXPE
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Growth in an organism follows a cer
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5.1.2 THE ROLE OF SIGNALS IN GROWTH
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waxes are embedded. Waxes consist o
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5.3.1 PHOTOSYNTHESIS Photosynthesis
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CO 2 FIGURE 5-6 The C 4 pathway of
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Growth and Development The general
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TABLE 5-2 Energy Produced from Aero
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Certain plants are adapted to dry e
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conditions exist to sustain growth
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Shoot Elongation In certain plants,
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for success, since high temperature
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FIGURE 5-13 Ripening of plantain sh
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Terminal bud removed Unbranched pla
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conditions—pertaining to light, m
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them to maturity. The major process
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6 Breeding Horticultural Plants PUR
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Similarly, there can be no plant br
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APPLICATION, CHALLENGES, AND PROSPE
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hit with target DNA. Therefore, it
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Generally, within ten days of exper
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Aziz A.N., Sauve R.J., Zhou S., 200
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(b) F 1 Rr Rr round round F 2 RR R
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e.g., Aa × Aa), the lethal allele
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eeder’s equation. Simply stated,
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Before the seed or product becomes
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6.18.2 THE GENERAL STEPS OF RDNA TE
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2. Political disagreement. There ar
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REFERENCES AND SUGGESTED READING Ac
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PART 2 PROTECTING HORTICULTURAL PLA
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7 Biological Enemies of Horticultur
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8. Weeds may clog drains, waterways
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is also a root parasite that obtain
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LEGISLATIVE Both state and federal
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Example Integrated cultural, physic
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7.4.2 IMPORTANT INSECT ORDERS Insec
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Egg FIGURE 7-3 Life cycle of an ins
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sucking insects (also found with so
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FIGURE 7-12 Corn earworm damage. (S
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TABLE 7-1 Selected Fungal Diseases
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7.6.1 SMALL ANIMALS Rabbits, mice,
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FIGURE 7-16 The disease triangle. P
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fungitoxic exudates in its leaves,
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SUMMARY Insects are a major class o
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For the home growers or those who c
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for consumers and the environment).
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TABLE 8-1 Strategy 4: Strategies an
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gibberellic acid spray overcomes st
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In a competitive industry, a variet
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Chemicals gain access to humans thr
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2. Pesticide management. Controllin
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Every organism has its natural enem
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TABLE 8-3 Selected Examples of Biol
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1 2 YEAR 3 4 FIGURE 8-5 cycle. A cr
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6. Heat treatment. In the greenhous
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Organic Compounds (Organics) Organi
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under enclosed conditions (e.g., wa
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FIGURE 8-9 A tractor-mounted spraye
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8.11.9 LANDSCAPE PESTS AND THEIR CO
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application, a particular herbicide
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Further, they do not provide unifor
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SUMMARY Herbicides are chemicals us
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Sulfur may be applied for both prev
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8.23 PREVENTING GREENHOUSE DISEASES
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PART 3 PROPAGATING HORTICULTURAL PL
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9 Sexual Propagation PURPOSE AND EX
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Anther Microspore Megaspore mother
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Lettuce seeds Red light Darkness Fa
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FEDERAL AND STATE SEED LAWS Federal
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Germination Test In laboratory prac
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FIGURE 15 The essential structures
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processing into flour or meal). How
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physiologically immature seeds must
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seeds may be treated in this way be
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The two basic modes of seedling eme
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locations in the field. Home garden
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FIGURE 9-9 A plastic flat. (Source:
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(a) (b) FIGURE 9-12 (a) Sowing seed
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y the gardener or grower. Whatever
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REFERENCES AND SUGGESTED READING Co
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species enables vegetative propagat
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for rapid rooting. There are two ba
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Cutting involving one node (e.g., s
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This practice is especially importa
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10.6.4 STICKING THE CUTTING Cutting
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(a) Indexing by budding Diseased pl
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10.11 M ETHODS OF GRAFTING Grafting
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Scion Wax FIGURE 10-17 Steps in bar
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MODULE 3 BUDDING 10.12 TYPES OF BUD
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MODULE 4 LAYERING 10.13 TYPES OF LA
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Buried part of shoot is nicked FIGU
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variety of ways. In air layering, a
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FIGURE 10-34 by using cormels. Prop
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Psuedobulbs In the Dendrobium orchi
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The technique is used widely in cro
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PART 4 GROWING PLANTS INDOORS CHAPT
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11 Growing Houseplants PURPOSE AND
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TABLE 11-1 Common houseplants Commo
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Saddle leaf Philodendron selloum To
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Window Displays Plants in windows e
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CONTAINER GARDENS DR. TERRI W. STAR
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annuals and hardy perennial species
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of the large container filled with
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perfection about four to six weeks
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FIGURE 11-6 Flowers displayed on th
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TABLE 11-5 Plant Selected Plants fo
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The lighting condition near these w
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Fluorescent Lights Fluorescent ligh
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may be used for one pot or a group
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garden rooms, atriums, or a large c
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The photoperiod affects when the ho
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patted firm to keep the plant erect
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Other Materials Apart from clay and
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(a) ( FIGURE 11-25 Support for plan
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TABLE 11-7 Common Problems of House
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• Keep soil moist all the time
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• Prefers high temperatures • P
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amount and quality of light. If sup
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12 Controlled-Environment Horticult
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6. Curvilinear 7. Curved eave 8. Do
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Detached greenhouses have several a
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12.2.3 FRAME DESIGN There are two b
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horticultural business a less-expen
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Texas, Hawaii, and California. The
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source of heat for times when the t
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FIGURE 12-17 Greenhouse production
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FIGURE 12-21 Moving tables allowing
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Research program on greenhouse engi
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greenhouses equipped with a variety
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FIGURE 1 Annual energy required per
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This system was demonstrated in a 5
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FIGURE 6 Amounts of waste energy ut
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Ekholt, B.A., D.R. Mears, M.S. Gini
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or object to be warmed. Failure to
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objects in its path (e.g., the floo
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FIGURE 12-27 Motorized ventilation
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FIGURE 12-30 Movable internal shade
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FIGURE 12-33 A high pressure sodium
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Source of Water The quality of loca
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FIGURE 12-37 Overhead sprinkler irr
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Intermittent Feed Greenhouse plants
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However, in winter, greenhouse vent
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OUTCOMES ASSESSMENT 1. Explain the
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. Foliage or green plants. Foliage
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2. Labor. The size of the labor for
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FIGURE 13-1 Greenhouse production o
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FIGURE 13-2 Lettuce plug is inserte
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13.8.4 AGGREGATE HYDROPONIC SYSTEMS
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(a) (b) (c) FIGURE 13-6 Plug produc
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14 Growing Succulents PURPOSE AND E
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FIGURE 14-3 Leaf succulent represen
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frost-hardy. Their rosettes are usu
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TABLE 14-1 Plant Selected Popular S
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(a) (b) FIGURE 14-12 Typical bromel
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14.7.1 WHAT ARE CACTI? 14.7 CACTI C
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FIGURE 14-16 Opuntia. (Source: Crai
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FIGURE 14-23 Mammillaria. (Source:
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FIGURE 14-28 Both desert and jungle
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Growing mix Gravel Cacti (a) (b) FI
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PART5 GROWING PLANTS OUTDOORS: ORNA
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15 Principles of Landscaping PURPOS
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8. Create recreational grounds. Suc
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knowledge, with concern for resourc
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(a) (b) (c) FIGURE 15-2 The occurre
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GUIDELINES FOR LANDSCAPE DESIGN DAV
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the landscape. Some very successful
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Rhythm and Line Panoramic view of a
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FIGURE 15-10 A formal garden. The e
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How frequently do they entertain? A
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the patio should be located on the
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15.7.1 SELECTING PLANTS A homeowner
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Plant Arrangement in the Landscape
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Shadow FIGURE 15-15 Planting a tree
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SUMMARY Landscaping enhances the su
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3. Supply materials on a timely bas
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such as preparation rooms (for mixi
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of environmental fluctuations. Furt
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FIGURE 16-4 A bare-root tree seedli
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17 Installation of the Landscape PU
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for walks, driveways, and patios (F
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Planting may be limited to accentin
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17.3.3 PREPARING THE BED The soil s
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FIGURE 17-4 Bedding plants raised i
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SUMMARY Bedding plants are largely
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TABLE 17-6 Selected Ground Covers T
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TABLE 17-7 Selected Ornamental Gras
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they determine the success and surv
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12. Wildlife attraction. Trees in t
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pennsylvanica), hackberry (Celtis s
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y winds. A stake, which is often a
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TABLE 17-8 Selected Narrowleaf Ever
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TABLE 17-11 Selected Deciduous Shru
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Blooming bushes 1. Blue mist shrub
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Planting Bulblets and Bulbils Speci
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may be divided such that each secti
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FIGURE 18-1 (Source: George Acquaah
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Cool-Season (Temperate) Grasses In
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Growth Habit Turfgrasses are the mo
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Heavy Use Lawns on playgrounds and
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The seed should be free from weeds
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Source of Sod As with seed, sod sup
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A plug of sod FIGURE 18-7 Plugging
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way, plants are able to adapt to th
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form of a can placed on the lawn wi
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TABLE 18-3 Some Common Lawn and Tur
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even surface soil surface for layin
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MacCaskey, M. 1987. All about lawns
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Pruning is sometimes done in conjun
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4. Pruning may be done to reduce th
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19.4.2 SAWS A saw may be designed t
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defeat the purpose of pruning. The
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Bud withers as cut end dries back d
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19.6 STRATEGIES FOR PRUNING ABOVEGR
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Rejuvenation Pruning Cut canes to a
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3. In the third and subsequent year
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(a) Cut Prune (b) FIGURE 19-16 Step
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Eucalyptus and Paulownia are amenab
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TRAINING & PRUNING DECIDUOUS FRUIT
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Summer pruning eliminates an energy
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a) b) FIGURE 2 Newly planted apple
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FIGURE 6 Wooden limb spreaders can
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FIGURE 9. An apple tree trained to
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years to promote continued lateral
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Horizontal Espalier The horizontal
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19.16.1 CANE FRUITS Cane fruits are
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FIGURE 19-26 Shearing of Christmas
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pyramid-like form that is wider at
Page 632 and 633: After selecting the appropriate spe
Page 634 and 635: PART 6 GROWING PLANTS OUTDOORS: VEG
Page 636 and 637: 20 Growing Vegetables Outdoors PURP
Page 638 and 639: The National Agricultural Statistic
Page 640 and 641: (This item omitted from WebBook edi
Page 642 and 643: growers should take to determine an
Page 644 and 645: pests and reduce/ eliminate hail da
Page 646 and 647: square yard (10 to 68 grams per squ
Page 648 and 649: High tunnels help increase the prof
Page 650 and 651: (This item omitted from WebBook edi
Page 652 and 653: 20.4 VEGETABLE MARKET TYPES Fresh V
Page 654 and 655: Establishing the Crop Planting into
Page 656 and 657: home water supply from the tap. Thi
Page 658 and 659: Cole crop Cabbage Root Potato Bean
Page 660 and 661: 6. Adequate nutrition. While overfe
Page 662 and 663: variable, ranging from creamy yello
Page 664 and 665: There are two general production pr
Page 666 and 667: This toxin is heat resistant and no
Page 668 and 669: large, or jumbo. The bulb may be sw
Page 670 and 671: REFERENCES Growing selected vegetab
Page 672 and 673: TABLE 21-1 Popular Herbs and Their
Page 674 and 675: (a) (b) (c) (d) (e) (f) FIGURE 21-1
Page 676 and 677: 22 Organic Farming PURPOSE AND EXPE
Page 678 and 679: 22.3 PRINCIPLES OF ORGANIC FARMING
Page 680 and 681: and the specific materials to be us
Page 684 and 685: preemergent or early postemergent o
Page 686 and 687: Composting is a deliberate activity
Page 688 and 689: 22.14.5 THE CARBON-TO-NITROGEN RATI
Page 690 and 691: Moisture Supply Water is required b
Page 692 and 693: Compost materials FIGURE 22-4 a wir
Page 694 and 695: As microbial decomposition proceeds
Page 696 and 697: Establishment and Management of an
Page 698 and 699: night, freezing can occur in spring
Page 700 and 701: accomplished by stratification. It
Page 702 and 703: transmitted by the dagger nematode
Page 704 and 705: PART 7 SPECIAL TECHNIQUES AND HANDL
Page 706 and 707: 24 Cut Flowers and Floral Design PU
Page 708 and 709: to more than four-fold in standard
Page 710 and 711: Temperature and Humidity Wilting re
Page 712 and 713: FLORAL DESIGN: AN OVERVIEW BY WM. J
Page 714 and 715: Principle Definition Types (or Uses
Page 716 and 717: pH value-a measure of the acidity o
Page 718 and 719: FIGURE 6 Parallel Design-Parallel d
Page 720 and 721: 24.3.2 TOOLS AND MATERIALS The tool
Page 722 and 723: 3. Establish the focal point. 4. Ad
Page 724 and 725: Natural Drying To dry naturally, fl
Page 726 and 727: 24.4.3 DRIED FLOWER ARRANGEMENTS Dr
Page 728 and 729: 25 Terrarium Culture PURPOSE AND EX
Page 730 and 731: FIGURE 25-3 Terrarium containers ar
Page 732 and 733:
FIGURE 25-5 Assortment of tools use
Page 734 and 735:
25.6.7 ENHANCING THE DISPLAY Certai
Page 736 and 737:
(a) (b) FIGURE 26-1 Bonsai can be c
Page 738 and 739:
TABLE 26-3 Plant A Selection of Pop
Page 740 and 741:
26.3.1 COLLECTING BONSAI PLANTS FRO
Page 742 and 743:
Strip bark Bare branch FIGURE 26-9
Page 744 and 745:
26.5.2 SANITATION It is critical to
Page 746 and 747:
27 Postharvest Handling and Marketi
Page 748 and 749:
whereas oranges are picked (they ha
Page 750 and 751:
(b) (a) (c) (d) (e1) (e2) (f) FIGUR
Page 752 and 753:
To reduce packaging injury, contain
Page 754 and 755:
is replaced by the by-product of re
Page 756 and 757:
Stored produce may lose some color,
Page 758 and 759:
with pricing. When selling by volum
Page 760 and 761:
(a) (b) FIGURE 27-5 Horticultural p
Page 762 and 763:
APPENDIX A Temperature: Converting
Page 764 and 765:
APPENDIX B Metric Conversion Chart
Page 766 and 767:
APPENDIX D Common and Scientific Na
Page 768 and 769:
Pecan (Carya illinoensis) Peony (Pa
Page 770 and 771:
GLOSSARY A Abaxial Turned away from
Page 772 and 773:
Cellulose A complex carbohydrate th
Page 774 and 775:
Floriculture The science and practi
Page 776 and 777:
M Macronutrient An essential elemen
Page 778 and 779:
Root cap A mass of hard cells cover
Page 780 and 781:
INDEX A-frame, 395 A-horizon, 108 A
Page 782 and 783:
defined, 390 fertilization, 432-434
Page 784 and 785:
Radiant heaters, 378 Radicle, 90 Re
Page 786 and 787:
color plate 1 (a) (b) (c) (d) (e) M
Page 788 and 789:
color plate 3 (b) (a) (c) (d) (e) (
Page 790 and 791:
color plate 5 (a) (b) (d) (c) (e) (
Page 792 and 793:
color plate 7 (b) (c) (d) (a) (e) (
Page 794 and 795:
color plate 9 (a) (b) (c) (d) (e) (
Page 796 and 797:
color plate 11 (a) (c) (b) (d) Grow
Page 798 and 799:
color plate 13 (a) (b) (c) (d) (e)
Page 800 and 801:
Page 802 and 803:
Page 804 and 805:
Page 806 and 807:
color plate 21 (a) (b) (c) (e) (d)
Page 808 and 809:
color plate 23 (c) (b) (a) (d) (e)
Page 810 and 811:
color plate 25 (c) (a) (b) (d) (e)
Page 812 and 813:
color plate 27 (a1) (a2) (b2) (b1)
Page 814 and 815:
Page 816 and 817:
color plate 31 (a) (b) (c) Floral d
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Horticulture Principles and Practices

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