000			02193nab a22003737a 4500
001			67846
003			MX-TxCIM
005			20250311125948.0
008			240826s1978 -us|||p|op||| 00| 0 eng d
022			_a0011-183X
022			_a1435-0653 (Online)
024	8		_ahttps://doi.org/10.2135/cropsci1978.0011183X001800060040x
040			_aMX-TxCIM
041			_aeng
100	1		_aRhue, R.D. _936658
245	1	0	_aGenetic control of aluminum tolerance in corn
260			_aUnited States of America : _bJohn Wiley & Sons, _c1978.
500			_aPeer review
520			_aInbred lines, F1 hybrids, and composites of corn (Zea may L.) exhibited a wide range in tolerance to aluminum. F1 hybrids obtained from inbred lines differing in A1 tolerance exhibited tolerance equal to or greater than that of the more tolerant parent, indicating that tolerance is a dominant trait. F2 and backcross (BC) populations had two distinct classes of tolerance when screened over a wide range of AI stress, with segregating ratios of tolerant: sensitive plants of 3:1 and 1:1, respectively. Progeny obtained by selling tolerant plants from a composite also segregated into distinct classes of tolerance. The wide range in tolerance to AI among genotypes as well as the existence of distinct classes of tolerance in S1, F2, and BC populations suggested that AI tolerance in corn is controlled at a single locus by a multiple allelie series. Screening of reciprocal crosses as well as inbred lines in various cytoplasms showed no cytoplasmic affect on A1 tolerance in corn.
546			_aText in English
650		7	_aGenetic control _2AGROVOC _91694
650		7	_aAluminium _2AGROVOC _915626
650		7	_aTolerance _2AGROVOC _94711
650		7	_aCytoplasm _2AGROVOC _929151
650		7	_aControl methods _91834 _2AGROVOC
650		7	_aAlleles _2AGROVOC _92185
650		7	_aScreening _2AGROVOC _95621
650		7	_aZea mays _2AGROVOC _91314
700	1		_aGrogan, C.O. _929485
700	1		_aStockmeyer, E.W. _936659
700	1		_aEverett, H.L. _936660
773	0		_dUnited States of America : John Wiley & Sons, 1978. _gv. 18, no. 6, p. 1063-1067 _tCrop Science _wG444244 _x0011-183X
942			_2ddc _cJA _n0
999			_c67846 _d67838