A Garden of Marvels

Page 32

by Ruth Kassinger

pollen/pollinators and, 273, 274, 280, 281, 307, 310

pH meters, 343

phloem, 67, 92, 101, 198, 289

phlogiston principle, 181, 182, 187, 188. See also oxygen

phosphate, 124, 137

phosphorous, 116, 123, 125, 129, 130, 132

photosynthesis

animals and, 198–202

C3, 236–37, 341

C4, 236–37, 341

complexity of, 344

Cooksonia and, 212

and evolution of earth, 204, 209, 212, 213, 215, 222

and fruit cocktail tree, 337

grass and, 236–37

humans and, 200–202

leaves and, 189, 190–92, 201, 213

liverworts and, 117

miscanthus and, 233

mixotrophs and, 23n

mutations and, 213

nutrients essential for, 125

petunias and, 278

Saussure’s experiments with, 190–91

and Senebier’s experiments, 189

slugs and, 193, 195–200, 202

trees and, 201–2

wheatgrass and, 137

phototropism, 330–34

phytohormones, 334–35, 340

phytoremediation, 121–32

Pierce, Sidney, 193–96, 199, 200, 201

pigweed, 237

pine trees, 287

Pinkham, Buzz, 156–58, 159

Pinkham’s Plantation, 156–57

pinnules (little leaflets), 213–14

pistils: plant sex and, 249, 250, 254, 258, 344

plant-animals, 18, 19–32

plants

anatomy/physiology of, 60, 64–71, 75–81, 82–88, 89–103

animals as analogous to, 28–29, 60, 71, 92, 95, 97, 98

circulation in, 90–103, 106

composition of, 170

definition of, 20–21

differentiation between animals and, 20–22, 70

growth of, 28–29, 68, 70–71

humans as analogous to, 90–91

imaginary stomach in, 90

importance of oxygen to, 215

and male role in reproduction, 258–70

purpose of, 28

sea slugs as aquatic chimeras between animals and, 200

size of, 86–87

understanding the “how” of, 70–71

weight of, 191

See also specific person, topic, or type of plant

Plato, 32

“pleaching,” 17

Pliny the Elder, 29–31

Pliny the Younger, 30

pollen

in Amborella trichopoda, 285

of angiosperms, 288

of conifers, 285

Darwin’s views about, 270, 299–300

as excrement, 249

fragrance and, 295, 303, 307

Gärtner’s study of, 268

of gymnosperms, 288

hermaphrodic flowers and, 295–96

homospecificity of, 274

hybridization studies and, 267–68

Mendel’s comments about, 270

microscopic studies of, 268–69

occurence of, 295

orchid, 300, 301, 302–4

petunias and, 273, 274, 280, 281, 307, 310

pistils and, 344

plant sex and, 86, 247, 249, 250, 251, 257, 258, 295–96, 344

pumpkin, 86

Schleiden’s study of, 269

self-fertilization and, 295n

Spallanzani’s study of, 266

Sprengel’s studies about, 295–97

sunflower, 145

as waste of life, 261

and wind-pollinated plants, 277, 288

Wydler’s views about, 269

See also pollinators

pollinators

bees as, 273, 296, 302–4

fragrance and, 307

gnats and flies as, 295

insects as, 288, 289, 294–95, 298, 299–300, 301, 302

moths as, 300, 301

and purpose of flowering plants, 277

and tongue length, 300

pollution, 127, 129, 137

polyploids, 286

Pope, Alexander, 96–97

Portulaca flowers: Amici’s study of, 268–69

potato plants, 108, 328

Potrykus, Igor, 339–40

potting soil, 113, 114, 118, 343

Priestley, Joseph

air experiments of, 177–81, 186, 187, 188

Calvinism and, 171–72, 173

chemistry experiments of, 176–81

at Daventry Academy, 173–74

death of, 192

early professional career of, 174–77

early scientific work of, 175, 176–78

elected to Royal Society, 177

electrical experiments of, 186

Ingen-Housz visit with, 186

and Lavoisier’s work, 189

marriage and family of, 176, 179

mint plant experiment of, 180–81

as Nonconformist, 172–73, 176

personal background of, 171–72

reproduction of experiments of, 188

as teacher, 175–77

at Warrington Academy, 175–77, 179

writings of, 177, 181, 182

Pringle, John, 181, 184, 185

prokaryotes (bacteria), 204, 206, 342

protein, 307, 339, 344

Proven Winners, 314

Prussia: truffles in, 115–16

pteridophytes, 224. See also ferns; horsetails; moss

pumpkin

and Damariscotta (Maine) celebration, 149–59

giant-sized, 82–88, 154, 158, 159

Spallanzani’s study of, 266

Pyramid Farms (Leamington, Ontario), 227–35, 237–38

rapeseed, 141, 198

Ray, John, 46, 249

Redi, Francesco, 262

Reinvent the Wheel (Kassinger), 167

Ren, Jianping, 272–73, 275–78, 280–81, 284

Renaissance, 32n, 90. See also specific person

reproduction

of cyanobacteria, 205

of eukaryotes, 206–7

and how conception occurs, 257–70

male role in, 258–70

parthenogenetical, 261, 266

of tracheophytes, 210

as vegetal chemistry, 268

See also breeding; meiosis; mitosis; sex

respiration, 191, 344

revolving door problems, 129–30, 132

rhizoids/rhizosphere, 114, 117, 137, 233, 235, 237

rice: genetically modified, 340–41

rock garden, Good’s, 319–20

root hairs, 106–7, 108, 110, 114, 116, 118

roots

aerial, 31, 77–78

air and, 187–88

Air-Pots and, 342–43

and evolution of earth, 216

evolution of, 117

in forests, 109

functions of, 89, 125

fungi and, 115, 117–18

grazing for, 109

hyperaccumulators and, 125

importance of caring for, 87

inerals for, 110

Ingen-Housz’s experiments and, 187–88

lateral, 80, 88, 110, 342–43

as major cause of plant problems, 81

mystery about, 89–98

nickel and, 131–32

nitrogen in, 108

nutrients for, 109, 110, 111, 125, 126–27, 343

oxygen and, 110

and perennial versus annual crops, 137, 140, 148

phytohormones and, 334

RuBisCO gene and, 236

Saussure’s experiments and, 191

in sewer lines, 79–80

shallow, 79

“sinker,” 80

soil and, 87, 88, 89–98, 106–7, 114, 191

spread of, 108–9

starving of, 105

storms and, 75–77

tap, 80, 88

Theophrastus’s views about, 25, 28

tree wells and, 104–5, 111n

water for, 88, 100, 106–7, 109, 110, 111n, 191, 336, 343

See also specific plant or tree

rose oil, 307, 308

roses, 307

Royal Society

and circulation in plant studies, 97

coat of arms for, 44

Copley Medal of, 181

early years of, 45–46

and experiments in eighteenth century England, 93

founding of, 44–45

Grew’s plant anatomy studies and, 64–65

Hooke and, 45, 46, 47–49, 50, 59

Ingen-Housz report to, 186

Leeuwenhoek’s paranoia about, 260

and Malpighi’s anatomy studies, 58–59, 60, 61, 65

Priestley’s presentations to, 181

RuBisCO gene, 198, 236–37

Sampson, Henry, 62, 63, 64

sand, 109

sap, 15, 25, 91–103, 289

Saussure, Horace-Benedict de, 190

Saussure, Nicolas-Théodore de, 189–92

Sbaraglia, Giovanni, 54, 57, 58

“scaffold” limbs, 11

scent. See fragrance

Schleiden, Matthias, 269

Schweppe, Jacob, 179

scientist: coining of term, 46n

sclerenchyma fibers, 66

scotoscope, Hooke’s, 47

sea creatures, 20, 21

sea slugs, 193–200, 202, 203

seeds

Amici’s study of, 269

of angiosperms, 282, 287, 288

carbohydrates in, 141

Darwin’s studies and, 293

fragrance and, 307

nectar and, 296

and perennial versus annual crops, 138–40, 147–48

plant sex and, 249, 251

pollination and, 295

Saussure’s experiments and, 191

Spallanzani’s study of, 266

Theophrastus’s views about, 27

See also specific plant

“selfing,” 86

semen, 257–58, 260, 261, 264, 265, 266

Senebier, Jean, 188, 189

senses

phytohormones and, 334

of plants, 21

See also specific sense

serpentine barrens: Alyssum bertolonii in, 123–25, 128, 129–30, 131

sewage: heavy metals in, 123

sewer lines: roots in, 79–80

sex

among amphibians, 264–65

among animals, 257–66, 270

among flowers, 247–56, 257, 266–70, 271–81, 293–97, 305–14

fragrance and, 305–14

and male role in reproduction, 258–70

See also type of plant

Shadwell, Thomas, 49n

shattering, 140, 146

Sherard, William, 255–56

silkworm: Malpighi’s studies of, 58–60

silt, 109

silver maple saplings, 78–80

“sinker” roots, 80

size: of plants, 86–87

Sloan, Phillip, 39, 40

Sloane, Hans, 23, 24

sludge, 123

slugs

longevity of, 199

photosynthesis and, 193, 195–200, 202

See also brown slugs; sea slugs

smallpox: inoculations for, 184–86

soda water, 179

soil

acidic, 127

alkaline limestone, 115

for Buddha’s Hand tree, 113

clay in, 109–10

creation of, 134

decontamination of, 121–32

disturbances to, 133–34

evolution of earth and, 216

fungi in, 114–18

and hickory trees, 104–5, 111

inorganic components of, 109–10

for Kassinger’s conservatory, 246

leaves and, 238

minerals in, 87, 191, 343

nickel farming and, 128–32

nitrogen in, 108

nutrients in, 114, 125–27

and perennial versus annual wheat crops, 137

preparation of, 87

and roots, 88, 89–98, 106–7

roots and, 87, 88, 89–98, 106–7, 114, 191

Saussure’s experiments and, 191

in serpentine barrens, 124

sub, 110, 130

tomatoes and, 228

water and, 110, 113

See also potting soil; topsoil

solar energy, 201, 212, 213, 214, 217

Spallanzani, Lazzaro, 261–62, 263–66

Spann, Timothy, 336–37, 338

sperm/spermatozoa

and Amici’s studies, 269

and Leeuwenhoek’s study of microorganisms, 260

as parasites, 261

Spallanzani’s study of, 264, 265

and spermist theory of reproduction, 260–61, 269–70

spider mites, 325–26, 343

spiders, 211

spinach, 266, 317n

spontaneous generation, 262–63, 263n, 265

spores, 210, 213, 221

sporophytes, 209, 252

Sprengel, Christian Konrad, 294–97

Spring Valley neighborhood (Washington, D.C.), 119–21, 132

stamen

in Amborella trichopoda, 285, 288

of angiosperms, 285, 288

Darwin’s studies and, 293, 297

plant sex and, 248–49, 250, 254, 256

Stellpflug, Len, 87

stems

apical dominance and, 335

nutrients for, 125

Theophrastus’s views about, 25

See also phototropism; specific plant

stigma

of Amborella trichopoda, 288

Amici’s study of, 269

Gärtner’s study of, 268

of petunias, 273, 280, 310

plant sex and, 249, 250, 251, 258, 296, 299–300

stomata, 66, 107, 171, 187, 210–11, 212, 223, 236, 334, 340

storms: roots and, 75–77

strawberries, 286, 335

stroma/stromatolites, 196, 198, 205

suberin, 126

sucrose, 198, 325, 336

sugar maples, 336

sugarcane, 236, 341

sugars

cyanobacteria and, 204–5

deciduous trees and, 336

eukaryotes and, 207

evolution of earth and, 217

flowering plants and, 224

fragrance and, 307

in nectar, 289

photosynthesis and, 341

RuBisCO and, 236, 237

Saussure’s experiments and, 191

and symbiosis of eukaryotes and cyanobacteria, 207

sulfur, 125, 204, 206, 223, 231, 344

sun

effects on plants of, 93, 98, 100

and evolution of wild grasses, 148

phototropism and, 330–34

See also light; solar energy

sundew plants, 327–28, 329, 330

sunflowers, 100, 141–47, 198, 341

Swingle, 11

switchgrass, 232, 237

symbiosis, 117, 207–8, 209

Syngenta, 314

taproots, 80, 88

taste, 307–8

taxonomy, 24, 32n

telescopes, 40–41

temperature: Theophrastus’s views about, 25

Thales of Miletus, 21

Theophrastus, 24–29, 90, 248

thylakoids, 196–97, 198, 199–200

Tiesman, Dean, 227–35, 237–38, 239

tobacco plants: hybridization studies of, 267–68

tomatoes, 227, 228–29, 307, 308, 309, 311

topsoil, 109, 110, 111n, 113, 130, 133–34, 135

“topwork,” 7–8

Tournefort, Joseph Pitton de, 252, 253, 254, 255, 256

toxins: in Spring Valle
y neighborhood, 119–21

tracheophytes, 209–10. See also Cooksonia

transgenics. See genetic engineering

transpiration, 100–101, 103, 106, 336, 337

transporters, membrane, 126, 129–30, 132, 343

tree fern, 23–24, 215

“tree wells,” 104–5, 111n

trees

anatomy of, 66

apical dominance and, 335

and boundary between bark and wood, 67

circulation in, 91–92

“drip line” of, 109

“dusting” of, 25–26

evolution of, 215

fire and, 235

Malpighi’s experiments with, 91–92

photosynthesis and, 201–2

Pliny the Elder’s views about, 30–31

pollination of, 277

roots of, 75–80, 100, 105–11, 115

tenacity of, 218–26

Theophrastus’s views about, 25

turfgrass around, 109

See also type of tree

Trinity College: and experiments in eighteenth century, 93–94

truffles, 115–16

turfgrass, 109

Twining, Thomas, 96

universal forms, 32

University of Bologna: anatomy/dissection at, 51–60

University of California: topsoil study at, 134

University of Colorado: plant-root studies at, 81

University of Florida

Citrus Research and Education Center at, 5

Plant Innovation Program at, 310–11

See also Clark, David

University of Illinois

Long as professor at, 233

miscanthus research funding for, 239

University of Leiden: Grew at, 63, 64–65

University of Maryland: nickel farming and, 128

University of Notre Dame: microscope collection at, 39–40

Vaillant, Sébastien, 252–56

Vale, 129

Van Helmont, Jan, 170, 191

van Niel, C. B., 192

Van Tassel, David, 135–37, 138–39, 141, 146–47, 148

vegetable-lamb plants. See borametz

Venus flytrap, 329–30

Vesalius, 55, 55n

vines, 85–86, 88, 228–35

Viridian Resources LLC, 129–32

virions, 23n

vitamin A, 340–41

Voltziaceae conifers, 223

von Baer, Karl Ernst, 257

Wallace, Alfred Russel, 297

Wallace, Pap, 87

Wallace, Ron, 87

Wallis, John, 45–46

wasps, 116

water

amount/rate of taking up, 100

and circulation in plants, 100–101, 106

for citrus trees, 15–16

Cooksonia and, 211, 212

cyanobacteria and, 204

decontamination of, 121–32

evolution of earth and, 204, 217

flowering plants and, 289

for fruit cocktail tree, 321–23, 324–25, 337

fungi and, 117

for Kassinger’s conservatory, 246

nutrients in, 125–26

oxygen in, 191–92

and perennial versus annual wheat crops, 137

for petunias, 310

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