.Su;Immary. 'T'lhc -ffect of 0. oni the CO. exchange of (letaclle(l leaves ot corli (Zca ways) wlleat (Triticitmn -,u/gare), oats (Ar'eiia sativa)., barley (Hor(iciiii vidgarc), tinmothy (Ph/cor)n pratcnsc ) anld cat-tail (T'I'phla anigstifoli(a) was m1leasuired witlh a Clarl-k oxvgeni electro(le an(l inifrared carbon dioxide analysers in both open aiid closed systenis.Corn leaves did niot pro(luce CO., in the light at anly 0., conicelntration, as was show-ni by the zero CO., compensation point anid the absenice of a CO., burst in the first minute of darkness. The rate of photosynithesis was inhibited by 02 anlI the inihibition was not completely reversible. On the other haiid the stead) rate of respiration after a few\ minutes in the dark wNas niot affected bv 0._ These results wer-e interpreted as inidicating the albsence of allv measurable resl)iration during photosynthesis. Twelve (liffereint varieties of cornl studied all responded to O., in the same way.Tihe other 5 imonocotyledonis studied did produce CO., in the light. AIoreover. the CO2, compensation l)oint inicreased linearly with 02 in(licatinig a stimulation of photorespirationl.The imiplications of the lack of photorespiration in studies of primary productivity are discussed.I n previous communications fromii this laboratory it was show-ni that lpart of the inhibition of apparent photosynthesis by O., in tobacco and(I soybean leaves was duie to a stimulation of photorespiration which (liffere(l fromii dark respiration (1 3. 6). Hoever, ini addition to stimlulating plhotorespiration, 0., also had a seconid effect, which w-as attributed to a (lirect inihibitioni of p)hotosynlthesis.This seconid effect cani be sttilie(1 (firectlv iM a plant wlhich does nlot produce CO.. in thle light (i.e.-hicil lias n1o Ilhotorespiration '). Corln is suich a plailt sinice, in air, younig corin leaves lack both a llleasural)le CO., co.llpelnsationi point all( a Illeasurale CO., blirst i.e. tile iniitial Iligil rate of CO., prodtictioni during the first minute of (larkiless followinga light period (2,6). 'T'his mllealls tilat eitlier tilere is 110 CO., produced by leaxves of this species ill the light, or the CO., prodiuce(l is re-utilized before it can escape ilitO the atillosphere. If this latter explaliatioil is correct, then ilicreasing the 02 coIlcenltratioll from 1 to 100 % would ilncrease tile rate of CO., production in the light anid decrease the rate of photosynthesis, as showil ill the prece(ling paper for soybeall (1). This should result in ani increased CO.2 compelnsatioll poinit aidl ail ilicrease ill the illagniitilde of 1 The fiilalicial sul)port for this wsork camIle froli the Nationlal Researclh Council of Caniada.
