748J.Zhuetal.
700600Seed number/plant
500400
3002001000Individual seed dry weight (g)
0.2
thatRCAreducesthemetaboliccostsofsoilexploration,leadingtogreaterwateracquisitionindryingsoil.WesuggestthatRCAdeservesconsiderationasatraittoimprovethedroughttoleranceofmaizeinbreedingprograms.
ACKNOWLEDGMENTS
ThisresearchwassupportedbyUSDA-CSREESgrant207-35100-18365toJPL,SMKaepplerandKMB.WeacknowledgeDrShawnKaepplerattheUniversityofWis-consinforprovidingseedsandRobertSnyderfortechnicalassistance.WealsothankAmyBurtonforassistanceinquanti cationofaerenchyma.
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0.1
33
248
331
34
77
284
364
Low RCAHigh RCA
Recombinant inbred lines
Figure13.Seednumberperplantandindividualseeddryweightofsevengenotypesat oweringstageinwell-watered(WW)andwater-stressed(WS)conditionsinthe eld.Data
shownaremeans SEofthemean(n=4).Meanswiththesamelettersarenotsigni cantlydifferent(P 0.05).
rootexplorationofdeepersoil,greaterwateracquisition,andgreatershootbiomassandyieldunderstress(Figs2,3,4,6,8,11,12&13).Collectively,theseindicate(1)anincreaseofRCAindifferentroottypesatvariousdevelop-mentalstagesinwaterstresstobeapositiveadaptationforplants;and(2)themagnitudeofRCAresponsestowaterstressmayberelatedtoroottype,plantdevelopmentalstage,anddroughtseverity.
Roothydraulicconductivityisanimportantparameterforplantwateracquisition.Roothydraulicconductivitywasreducedundernitrogen,phosphorusandsulfurde ciencies(Karmokeretal.1991;Clarksonetal.2000).Fanetal.(2007)reportedthataerenchymaformedunderphosphorusde ciencycontributestothereducedroothydrauliccon-ductivityinmaizerootsinasolutionculturesystem.Poten-tialtradeoffsforRCAunderwaterstress,includingreducedhydraulicconductance,meritfurtherresearch.
WeobservedsubstantialgeneticvariationforRCAamongsevenmaizegenotypesunderwater-stressedcondi-tions.Ourresultsareentirelyconsistentwiththehypothesis
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