Vergara - 1976 - Physiological and morphological adaptability of ri

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INDEX 553 water soluble. elTect of soil temperature. Z56 IRRI lines. performance under upland conditions, ill IRRI phytotron. 6, l2, 1H1 IRS variety nitrogen response of, 511 perfonnflncc under upland condition-i. 527 IRS variety. QLQZ-Qfisfifitlfifi 931ml)? [L6, 119 elongation of, 76 filled-grain percentage of. 473. 485 germination. in relation to temperature. fi, 161 (See also Seeds. gennination) grotnh duration of. 93 leaf area index of. 15 nitrogen response of. in Pertl. 5i]. relative growth rate, 171 sterility percentage of. 4E1 yield of 488-. 527 in relation to solar radiation. 52.2 yieid stability. lifi IRZO variety; nitrogen response of. 11.5 [R24 variety, E28 Ishizuka. Y.. 298, 316, HQ Jackson. B. ~12, ti; Q, 3_0_lj, Q1, 161 Japan adaptation trials in. 1.011 cold damage areas. expansion of. in. 281 genetic studies of floating ability‘ in. 99 grain yield in different locations in. 452 grouth patterns in. 1431 Local Productivity" Group. 4512 net production of plant populations in. eliQ nitrogen respimse and grain yields of rice in. 11.1 rice consumption in. 3.5 rice productivity in. 35 rice season in. 1H2 sterile-type cool injury in. 2.81 yield of rice in. 452 yield studies in. 1112 Japanese varieties drought resistance in. 1L!!! gennination temperature of, lfifl particle development. temperature range for. Q5 seeding-to-heading period of. Q4 temperature response. 25 Japonica varieties drought resistance in. 99 germination temperature of. L611 panicle initiation in. 24 photosynthesis. optimum temperature range, Z3 seed donnaney of. 163 shattering characteristics of. 23 temperature constant of, 21 Jaya variety. 521 Kato. H.. 391, 414. 417*, 538 Kinetics of flooded soils chemical. 251 effect of soil temperature. 252 electrochemical. 2531 Kisimoto, R., 367‘, 191 Laodelphax strralelius diapause induction. and day length. 1'13. distribution of. 311 migration source. Z21 populations. and humidity. Jfiél Latitudinal eline. and photoperiod. SQ Leaf area decrease. and climatic factors, i5] (See also Photosynthetic organs. elTeet of climate on development and maintenance) increase of. $12 Leaf area development. 515.1 and growth stage. 4.55 and solar radiation. 15A and temperature. 4E1 Leaf area growth rate and temperature. A53 components of, iii in relation to nitrogen content of leaves. 45.5 Leaf area index and albedo of rice population. 122. 232 and dry matter production. 215. and growth. All and solar radiation, effects on net assimilation rate. 459 (See alto Photosynthetic organs. effect of climate on efficiency’ of) in relation to growth. 43.3 of floating rice, 3.13 of IRS. 75 of Peta, 1i Leaf development stage and intemode elongation. M Lealhoppers. See specific insect names
554 CLL\LA'I'E AND RICE Leaf “rater potential and photosmthcsis. 32S Leaves angle. and photosynthesis, 23:1 enlargement. in cereal grains. 321 growth. eflects of drought. 323 nitrogen content. as related to leaf area growth rate. 455 light intensity and photosynthesis. 23.0 physiological state. effects on net assimilation rate. 451 position. as related to lightphotosymthesis curve. 23.0 senescence during drought. 325 thickness, effects on lightphotosgmthesis curve. 232 water potential in. 123 and photosynthesis. 121$ Leplocorasa acwla population as related to humidity, 3J2 rainfall, 312 Libon silt loam. 25.1 Life cycles. manipulating, l8 Light and photosynthesis. 230 and production process of plant population, 212 and temperature. effects on reproductive growth and ripening of rice. 1.31 and water turbidity. effect on iuternode elongation. 11E artificial sources of, 1.45 effects on intemode elongation, 3112 plant survival under submergence. 1H5 reproductive growth. LS1 ripening grade. 2B2 intensity and dry matter production. 233 effect on root growth and nutrient uptake. 2.59 and photosynthesis. a related to leaf nitrogen content, 23.1 and temperature. lowland riee. effect on root growth. 26‘! root nutrient uptake. 211 and water depth, as related to flooding resistance. 391 and water turbidity, effect on intemodc elongation. 3112 gtovath response to. in controlled eitviroiunent. 1.4.8 response of photosynthesis in a single leaf. 23f] simulation. 1&6 spectral balance and lamp types. 1:41 Light-photosynthesis curve effects of extinction coefficient and leaf area. 231 effects of leaf thickness. 23.2 in relation to leaf position. 23!} Ling. K. C.,i 1L5 Local Productivity Group, Japan, {L49 Lodging and filled-grain percentage. and rainfall. 1L Q8 resistance to, 9.8 Lowland riee Q35 annual productivity’, 4.8.3 effect of plant type on nitrogen response 0f. nitrogen response (See in lowland rice) Luisiana clay, i, 255 Nitrogen response. Maahas clay. 252 McPherson. H. G- 12.11 ltlaize floral development and pollination. effects of drought on, 112 nitrate reductasc in. 13.1 photosynthesis in, 3.28 translocation in. 129 Malabuyoc. .l.. 509* Nlalaysia. variations in yield components in. 481 lvlaligaya Rice Research and Training Center. Philippines. 521 ltlanagement practices. effect on nitrogen response in lowland rice. 5.13 Manganese reduction in flooded soils. 258 effect of soil temperature. 213 water-soluble. effects of temperature on kinetics of. 2§B Nlanryti variety. Llfi. l_l_2, 115.1 Iiianuel, F, C» 3_4. Q 1E TE. 3i. E. 4i 423 hfesocotyl elongation. effects of temperature. L65 tvfessenger. P. 8., §4_7f_, 165 Nlicrocliniate of rice crop. U5 Migration. long-distance. of insects. synoptic factors. 18G
Page 1 and 2:
\ m 5-7’. _ ! i‘ -‘ I I ’
Page 3 and 4:
Correct citation." Intemationa] Ric
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llulrmflnn gamma Mimi
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CLIMATIC STRESS ON GROWTH AND YIELD
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4 CLINIATE mo) RICE agricultural an
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6 cuivnvri-i AND RICE R. N. Morse.
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8 CLItvhYfE an) RICE ice of agricul
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infill! IHNIQI Chill
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12 (JLLNLXTE AND rues In saving thi
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14 (ZLIh-L-XTE ant: RICE essential
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l 6 CLIlvLJtTE AND RICE Groin yield
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l8 CLIMATE AND RICE MANIPULATING LI
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20 (JLlMA'l‘E AND tour; Dcrkness
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22 CLIh-IATE AND RICE Photosynthesi
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24 cuivrxru AND rues temperature. l
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26 CLIh-IATE AND RICE REFERENCES BA
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Climatic environment 0f rice cultiv
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GEOGRAPHY mo) curt-tars OF RICE 31
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Gsooawm" .~'t.\1D CLIMATE or ates 3
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GEOGRAPHY AND CLINIATT-I OF RICE 35
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GEOGRJIPHH’ AND (jLlh-DYTE OF RIC
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GEOGRAPHY AND CLINIATE OF RICE 39 c
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oration-win‘ AND (ILIAIATE or RIC
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GEOGR.~'\PH\’ AND CLIlylATE OF RI
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GEOGRAPHY AND CLIMATE or RICE 45 No
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CIEOGRAPHY‘ AND (ILIh-LATE or RIC
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GEOGKAPIIH’ mo) CLIMATE OF RICE 4
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CROP PLANNING AND ILAINFALL 5i Clim
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(tRoP PLANNING mo RAINFImL 53 is al
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cnor PLANNING AND RAisFaLi. 55 the
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(IROP PLANNING AND RAINFALL 57 Tabl
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CROP PLANNING into RAINFALL 59 valu
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REFERENCES CROP PLANNING AND IL-XIN
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CROP PLANNING AND RAINFALL 63 the c
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PI-IY'SI(JL(')F1ICAL AND .\I(‘)RP
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PHYSIOLOGICAL AND NIORPIIOLOGICAL A
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l‘HYSl0L(_)(il(fi'\L AND .\IURPH(
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PHYSlOLt')GItT.=\I. AND l\tlORPHt')
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PHYSIOLOGICAL AND MORPHOLOGICA]. AD
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PH‘t'SIOLOGI(,‘.+-\L AND tvltiR
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PHYSIOLOGICAL non) MORPHOLOGICAI. A
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PHYSIOLOGICAL AND NIORPI-IOIJJGKTAL
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PHYSIOLOGICAL AND IMIORPHOLIJGILTAL
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PHYSIOLOGICAL AND IVIORPHOLOGILTAL
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(jtENETItT \’.-’\RI(_)L.'SNESS
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GENTETTIZT \".=\RIOLTS.\IFSS IN CLI
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GENETIC \"'.-\RI(,)l.'SI\'ESS IN t,
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GENETIC \';—\RIOLTS?\TESS IN FLIN
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GEYETIC INFORIv-LATTON ON CLIMATIC
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GENETIC VARIOUSNESS IN CLIMATTC ADA
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GENETIC VARIOIISNESS 1N ("LINIATTF
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GENETIC \';-\RIOL='S1\'lESS IN CLIM
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GENETIC‘ VARIOUSNESS IN (“LINIA
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GENETIC WXRIOLTSNESS IN cut-taut: A
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GENETIC \".=\R101.IS1\'ESS nv (ILIN
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GENETIC VstRlOLlSNESS IN CLIAIAIIC
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GENETIC VZARIOLISNESS m ClJlytNflC
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llmmwminh Quinlan mum
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116 CLIMATE AND RICE about the micr
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l l8 curt-ran; AND RICE xtinctm ooe
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i ~ I20 cLniATF. AND RIFF. [ml (g h
Page 127 and 128:
122 cusiixrs mo RICE Albedo and rad
Page 129 and 130:
124 cLuxiAnz AND RICE Relative reig
Page 131 and 132:
126 curt-tyre AND RICE tribution. I
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I28 (‘LIMATE AND RICE 0d 56,855 .
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130 CLIAiL-YFE AND RICE temperature
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132 euixixna ma) RICE 0.19 for a ri
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134 Curt-tan; AND RICE solar elevat
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136 CLlk-LATE AND RICE REFERENCES C
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138 CLIMATE AND RICE UDAGAiwA, T..
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140 CLIMATE AND RICE estimated by t
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142 (rut-tars mo arcs closely relat
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I44 CLINIATE am Rica we assume that
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146 CLlxL-Yfl-L AND RILTE DUPLICATI
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14S cumara mo RICE lamp type was su
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150 curtmrs AND RICE Table 5. Influ
Page 157 and 158:
152 (tuners AND RICE amount of dama
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154 culture ANT) RICE enviromnent a
Page 162:
Environmental control 0f growth and
Page 165 and 166:
160 CLIh-LATE AND RICE The effect o
Page 167 and 168:
162 curt-LATE AND RICE Temperature
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164 curt-tare are) RICE (20°C) at
Page 171 and 172:
166 cunt-ms AND RICE mersion at 25
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168 CLINLATE AND RICE Top growth To
Page 175 and 176:
170 cur-airs ANT) RICE and dropped
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172 CLINIATE AND RICE Dividing cell
Page 179 and 180:
174 CLIIMIATE AND RICE Rate of stre
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176 rim-tam AND RICE 60°—62°C.
Page 183 and 184:
178 culture AND RICE REFERENCES ADA
Page 185 and 186:
180 CLIMATE AND RICE LEE. H. S.. an
Page 187 and 188:
182 CLINIATE AND RICE SAKAI. K. 194
Page 189 and 190:
184 (TLlb-LYIE AND rucs DISCUSSION
Page 191 and 192:
llulrmflnn gamma Mimi
Page 193 and 194:
188 CLIMATE AND RICE reactions othe
Page 195 and 196:
190 crux-tars AND RICE SD 0t temper
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192 CLIlvlNfE AND RICE where '1‘
Page 199 and 200:
194 trusarns imp RICE Spikeiets [no
Page 201 and 202:
196 ems-tars AND RICE of tillers ha
Page 203 and 204:
198 CLIh-LATE AND RICE Both of thes
Page 205 and 206:
200 truatars AND RICE Ripemnq erode
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202 crux-tars AND RICE At such low
Page 209 and 210:
204 CLIMATE AND RICE (l/Yflo‘? =
Page 211 and 212:
206 tiLIMATE AND RICE Equations (T)
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208 cits-ems awn RICE DISCUSSION TA
Page 215 and 216:
210 CLIh-LATE AND RICE hlANtJEL: So
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212 curt-tars AND RICE EFFECTS 0F C
Page 219 and 220:
214 CLIMATE min RICE cOzlpnmt 35o 3
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2 l6 CLINIATE ANT) RICE may in part
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218 CLINIATE AND RICE could largely
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220 cuixiirrs AND RICE DISCUSSION T
Page 228 and 229:
223 Climatic influence on photosynt
Page 230 and 231:
CLIMATIC INFLUENCE ON PHOTOSYNTTLES
Page 232 and 233:
(_'[.l\l.A'l'IC INFLUENCE ON PHOTOS
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CLINIATIC mrurswca on Pnorosiwn. IE
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CIJh-LATIC‘ [XTFTIFENCE ON PHOTOS
Page 238 and 239:
LTLIMAHC INFLUENCE ON PHOTOSYbTfHES
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curt-write INFLUENCE cs PHtJTOSYNTH
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237 CLTNIATTC INFLUENCE ON PHOTOSYN
Page 244 and 245:
CLIhLATTC INFLUENCE OY PIIOTOSYNTHE
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cunmrs INFLUENCE ON PHOTOSYNTHESIS
Page 248 and 249:
CIJMATTC HNTLUENCE ON PHOTOSYhTl-IE
Page 250 and 251:
CLINIATIC INFLUENCE ON PHOTOSYNTI-I
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CLllvL-YTIC INFLUENCE ON Pl-lO'l‘
Page 254 and 255:
249 Temperature and the chemical ki
Page 256 and 257:
TENIPERATTIRE AND truss-nest. Kinet
Page 258 and 259:
TEh-IPERi-KTITRE AND CHENHCAI. KINE
Page 260 and 261:
TEMPERATURE AND CIIENHCAL KINETICS
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TEkIPEILATLRE AND CIIENHCAL KINETIC
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l l TEMPERATIIRE awn FHENfltX-U. KI
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TENIPERATLIRE ANT) CI-IENIICAL KINE
Page 268:
TENIPERATLTRE AND CHEMICAL KINETICS
Page 271 and 272:
266 (TLIINL-KTE two RICE _“ _'“
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268 ciriyrprna AND RICE the oxytgen
Page 275 and 276:
270 FLINIATE AND RIPE Table 2. Effe
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272 CLltx-MTE AIMTD RICE Percent |2
Page 279 and 280:
2'14 CLIMATE AND RICE Table 3. Reco
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276 (Tl.l.\t.»\"l1~‘. AND RICE I
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llnlznclvlzll wuzlnnnll-ul
Page 285 and 286:
un-Iuuuzvtng-uml:usll
Page 287 and 288:
282 CLIMATE AND RICE Brown rice yie
Page 289 and 290:
284 CLIh-IATE AND RICE Susceptible
Page 291 and 292:
286 cusutrs AhD RICE tillers were s
Page 293 and 294:
288 CLIINIATE mo RICE Hoyuyuhi lNtl
Page 295 and 296:
290 CLIh-IATE AND RICE us to make a
Page 297 and 298:
292 curtrars AND RICE postulated th
Page 299 and 300:
294 cummia am) RICE Cooling treatme
Page 301 and 302:
296 eta-ctr]; AND RICE Isntztnza.
Page 303 and 304:
298 (fLllt-iitTE AND RICE TORIYAMA.
Page 305 and 306:
300 curaaTF. AND RICE and the toler
Page 307 and 308:
302 CLllt-IATE AND RICE the low-lyi
Page 309 and 310:
304 cuxmn: AND RICE Water depth ter
Page 311 and 312:
306 (tux-tats AND RICE Fertilizer i
Page 313 and 314:
308 CLINIATE AND RICE of the plant
Page 315 and 316:
3 l0 CLIMATE ANT) RICE The floating
Page 317 and 318:
312 cuxranz AND RICE Branching does
Page 319 and 320:
314 culture AND RICE variety would
Page 321 and 322:
316 CLIMATE AND RICE [in Japanese,
Page 323 and 324:
318 CLIMATE AND RICE by adventitiou
Page 325 and 326:
LhflklfllillrxfiibMill
Page 327 and 328:
322 cLnuArE AND RICE fied in the se
Page 329 and 330:
324 CLIMATE AND RICE Photosynthesis
Page 331 and 332:
326 CLIMATE AND RICE maize was grow
Page 333 and 334:
328 CLIMATE AND RICE sunflower. It
Page 335 and 336:
330 (fLlIvlATE am: RICE maze m“ (
Page 337 and 338:
332 cLix-L-vra AND RICE and ‘wate
Page 339 and 340:
334 CIIXIATE AND RICE IMPROVEMENT O
Page 341 and 342:
336 cusmnz Ann RICE cell elongation
Page 343 and 344:
338 CLINIATE AND RICE REFERENCES AC
Page 345 and 346:
340 Cl.l.\t.-'\'l'E AND RICE DIS CL
Page 347 and 348:
342 CLINLATE AND RICE ALLURI: Could
Page 349 and 350:
""1133"lflhllll “IIIII
Page 351 and 352:
UlljiflllijlllhfiHid
Page 353 and 354:
348 crLnuATs AND RICE Experimental
Page 355 and 356:
350 CLIMAtTE AND RICE constant.”
Page 357 and 358:
352 CLINIATE AND RICE Scamens (1923
Page 359 and 360:
354 CLIMATE AND RICE constant-facto
Page 361 and 362:
356 criixinrs Aim RICE sider how th
Page 363 and 364:
358 CLIMAJE AND RICE BIOCLINLNPIC I
Page 365 and 366:
360 CLIh-IATE awn RICE faster rate.
Page 367 and 368:
362 CLIIvLATE AND RICE REFERENCES A
Page 369 and 370:
364 CLINIATE AND RICE —. 1959. Ef
Page 371 and 372:
366 crumars AND RICE rliferrenger:
Page 373 and 374:
368 (ILlh-IATE AND RICE Moreover. i
Page 375 and 376:
370 curt-i-rra AND RICE caused tl1e
Page 377 and 378:
372 CLIMATE Am) RICE Insects oftrop
Page 379 and 380:
374 CLIMATE awn RICE Amaini. in the
Page 381 and 382:
376 CLIMATE AND RICE former outbrea
Page 383 and 384:
378 CLItvLATE AND RICE 1965. All bu
Page 385 and 386:
380 CLlhiXfE AND RICE Future work I
Page 387 and 388:
382 cuzxrars AND RICE Tsuruoka. 196
Page 389 and 390:
384 crux-LATE AND RICJF. Wind direc
Page 391 and 392:
386 CLIMATE AND RICE in June and Ju
Page 393 and 394:
388 cur-ran: AND RICE JOHN. V. T..
Page 395 and 396:
390 CLINIATE AND RICE PRADHAN. S. 1
Page 397 and 398:
unmmmmnq-um-u-u
Page 399 and 400:
394 (‘LIA-LATE AND RICE in that y
Page 401 and 402:
396 CLIMATE AND RICE 26 inches long
Page 403 and 404:
398 crnxrara AND RICE the 0.001 lev
Page 405 and 406:
400 ci.ixi.»\'r|-: AND Rjtfl-I Ano
Page 407 and 408:
402 euxiivrs AND RICE ation periods
Page 409 and 410:
404 CLIMATE AND RICE Disease onset
Page 411 and 412:
406 ctnvrara AND RICE If subsequent
Page 413 and 414:
408 (fLlN-LAII-i AND RICE Spores ob
Page 415 and 416:
410 CLINLATE AND RICE 29.900/aere L
Page 417 and 418:
412 CLIMATE AND RICE Synthesis of d
Page 419 and 420:
414 CLINIATE ma) RICE REFERENCES HY
Page 421 and 422:
mnnnmmmrumanumrd
Page 423 and 424:
418 (TLIMATE AND RICfE: Lesimlrrwnl
Page 425 and 426:
420 cuMATE AND RICE COHIGIO |5 [I03
Page 427 and 428:
422 CLL\-IATE AND RICE less than l
Page 429 and 430:
424 CLIMATE AND RICE under field co
Page 432 and 433:
Climate and crop productivity
Page 434 and 435:
429 Comparisons of rice growth in d
Page 436 and 437:
RICE (iROWFH IN DIFFERENT EI\'\"IR(
Page 438 and 439:
RICE oaowrn m DIFFERENT ENVIRONMENT
Page 440 and 441:
RICE GROWTH l.\l DII~'FERE.\IT' ENV
Page 442 and 443:
RICE GROWTH IN DIFFERENT Emotions-i
Page 444 and 445:
RICE GROWTH IN DIFFERENT EBFVIRONNI
Page 446 and 447:
RICE GROWTH IN DIFFERENT ENVIRONMEN
Page 448 and 449:
RICE oaoyvnr n; DIFFERENT ENVIRONIN
Page 450 and 451:
RICE cRowni as DIFFERENT Eminomunst
Page 452 and 453:
RICE GROWTH IN DIFFERENT ENVIRONNIE
Page 454 and 455:
449 Productivity of rice in differe
Page 456 and 457:
RICE PRODIlCTH-TTY IN ("IAlh“i|AT
Page 458 and 459:
RICE PRODUCTIVITY IN CLIMATIC REGIO
Page 460 and 461:
RICE PR()[)t.t(’l‘I\"l'I‘Y IN
Page 462 and 463:
RICE PRODUCTIVITY IN CLINIATIC REGI
Page 464 and 465:
RICE PR()I>t.T(.'Tl\-"lT‘t' m tru
Page 466 and 467:
RICE PRODUCTIVITY I.\I CLIMATIL" RE
Page 468 and 469:
RICE PRODLYt“.TI\-"'ITY' IN ('3I.
Page 470 and 471:
RICF. PRt)l')L.'(f‘l‘t\r'lTY 1N
Page 472 and 473:
RICE PRODUCTIVITY IN (TLIINLATIC RE
Page 474 and 475:
RICE PRODUCTIVITY IN CLIMATIC REGIO
Page 476 and 477:
471 Climatic influence on yield and
Page 478 and 479:
‘ITELI? AND YIELD (‘Ol\'[PONEN'
Page 480 and 481:
YIELD AND ‘FIELD (‘(’J.\lPt'J
Page 482 and 483:
Table. 2. YIELD AND ‘KIRLD (‘Tt
Page 484 and 485:
‘HELD AND YIELD (,7()l\-ll‘()l\
Page 486 and 487:
YIELD AND YIELD COMPONENTS 0F LOVtL
Page 488 and 489:
YIELD .-’\.\lD YlELD ("OMPONERWS
Page 490 and 491:
YIELD AND YIELD COMPONENTS 0F LOWLA
Page 492 and 493:
‘ITELD AND YIELD COMPONENTS OF LO
Page 494 and 495:
YIELD AND YIELD COMPONENTS OF LO\\"
Page 496 and 497:
YIELD AND YIELD COMPONENTS OF LOVfL
Page 498 and 499:
YIELD AND YIELD (.‘.(IJl\rfP()NEl
Page 500 and 501:
495 Climate and crop productivity i
Page 502 and 503:
CLIMATE AND CROP PRODUCTIVITY IN AL
Page 504 and 505:
CLlMikTl-i AND CROP PRODUCTTVYTX’
Page 506 and 507:
CIJMATTZ AND CROP PROI)LI(TI"IVI'I'
Page 508 and 509: cunt-yrs AND tutor PR()[)tJ(,"l‘l
Page 510 and 511: (TLIMATE AND CROP PRODLFCTR-‘YTY
Page 512 and 513: (tin-acre mo) can? PRODU(J'l'lV1'1
Page 514 and 515: 509 Nitrogen response of lowland an
Page 516 and 517: Gruinviefl (t/hal IO NITROGEN RESPO
Page 518 and 519: NITROGEN RESPONSE OF RICE IN 'l'R()
Page 520 and 521: NITROGEN RESPONSE or RICE IN TROPIC
Page 522 and 523: NITROGEN RESPONSE OF RICE IN 'I'ROP
Page 526 and 527: NITROGEN RESPONSE or RICE l.\‘ TR
Page 528 and 529: NITROGEN sssmnsr: 0F lure m raoiatr
Page 530 and 531: NITROGEN RESPONSE OF RICE IN TROPIC
Page 532 and 533: NITROGEN RESPONSE or RICE [N TROPIC
Page 534 and 535: NITROGEN RESPONSE OF Rltflrl 1N TRO
Page 536 and 537: NITROGEN RESPONSE or RIPE IN TROPKT
Page 540 and 541: xmzoonn RESPONSE or RICE I.\I TROPI
Page 546 and 547: CONCLUDING REMARKS 541 Their influe
Page 548 and 549: Ui#- b) List 0f Participants AHN. S
Page 550 and 551: tune); 545 Index Abnonnalities, cyt
Page 552 and 553: INDEX 547 fixation in photosynthesi
Page 554 and 555: INDEX 549 mean. and net production.
Page 556 and 557: moex S51 Gene analysis, components
Page 560 and 561: INDEX 555 Millhr-QZ) variety, 521 h
Page 562 and 563: INDEX 557 Photosynthesis and leaf a
Page 564 and 565: INDEX 559 Reproductive cycles, cont
Page 566 and 567: INDEX 561 Solar elevation and albed
Page 568 and 569: INDEX 563 stetilitv (See Sterility}
Page 570: INDEX 565 breeding. Mexico. 102 nit
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