Analysis of sink/source relations in bread wheat recombinant inbred lines and commercial cultivars under a high yield potential environment

•Under non-limiting growing conditions, grain yield in bread wheat is highly associated with sink capacity.•Yield:sink capacity falls from the expected 1:1 ratio above ∼8 tons ha−1, indicating source limitation for grain filling.•Sink limitation during grain filling in wheat seems more a consequence...

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Published in	European journal of agronomy Vol. 93; pp. 82 - 87
Main Authors	Alonso, M.P., Abbate, P.E., Mirabella, N.E., Aramburu Merlos, F., Panelo, J.S., Pontaroli, A.C.
Format	Journal Article
Language	English
Published	Elsevier B.V 01.02.2018
Subjects	Argentina breeding crops cultivars field experimentation filling period genetic improvement Grain number Grain weight grain yield inbred lines Selection Sink capacity Triticum aestivum wheat Yield Argentina Yield Grain number Grain weight Selection Sink capacity
Online Access	Get full text
ISSN	1161-0301 1873-7331
DOI	10.1016/j.eja.2017.11.007

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Abstract	•Under non-limiting growing conditions, grain yield in bread wheat is highly associated with sink capacity.•Yield:sink capacity falls from the expected 1:1 ratio above ∼8 tons ha−1, indicating source limitation for grain filling.•Sink limitation during grain filling in wheat seems more a consequence of breeding/environment than a ubiquitous attribute.•Source limitations that might arise from further improvement of grain number per unit area should not be disregarded. Grain yield in wheat is generally considered to be sink-limited during grain filling. But is this limitation inherent to the crop species or a consequence of the breeding process? A way to ascertain this is by using genetic materials not subject to selection. Grain yield could be analyzed as the product between: (i) grain number per unit area, (ii) the potential grain weight (i.e. weight per grain obtained without source limitation); and (iii) the degree of sink limitation (DSL). The product of the first two components defines the crop sink capacity (SICA), and the DSL could be assessed as the quotient between weight per grain and its potential weight. Such an analysis was carried out in a RIL population derived from the cross between Baguette 10 and Klein Chajá (Argentinean cultivars with contrasting grain number). Three field experiments were conducted at Balcarce, Argentina during the 2013, 2014 and 2015 crop seasons, under non-limiting conditions; 146 recombinant inbred lines (RILs), the parental cultivars and other commercial cultivars were evaluated. At maturity, grain yield and grain weight were determined. The potential grain weight was obtained by thinning rows at the beginning of grain filling. Grain number m−2 was calculated as grain yield/grain weight. Grain yield was highly associated with SICA; the slope of the relationship between grain yield and SICA was lower than the expected 1:1 ratio above ∼8 tons ha−1, indicating that the source for grain filling becomes a limiting factor when SICA increases, particularly in the RILs. This suggests that much of the sink limitation observed in modern wheat cultivars may be the result of genetic improvement.
AbstractList	Grain yield in wheat is generally considered to be sink-limited during grain filling. But is this limitation inherent to the crop species or a consequence of the breeding process? A way to ascertain this is by using genetic materials not subject to selection. Grain yield could be analyzed as the product between: (i) grain number per unit area, (ii) the potential grain weight (i.e. weight per grain obtained without source limitation); and (iii) the degree of sink limitation (DSL). The product of the first two components defines the crop sink capacity (SICA), and the DSL could be assessed as the quotient between weight per grain and its potential weight. Such an analysis was carried out in a RIL population derived from the cross between Baguette 10 and Klein Chajá (Argentinean cultivars with contrasting grain number). Three field experiments were conducted at Balcarce, Argentina during the 2013, 2014 and 2015 crop seasons, under non-limiting conditions; 146 recombinant inbred lines (RILs), the parental cultivars and other commercial cultivars were evaluated. At maturity, grain yield and grain weight were determined. The potential grain weight was obtained by thinning rows at the beginning of grain filling. Grain number m−2 was calculated as grain yield/grain weight. Grain yield was highly associated with SICA; the slope of the relationship between grain yield and SICA was lower than the expected 1:1 ratio above ∼8 tons ha−1, indicating that the source for grain filling becomes a limiting factor when SICA increases, particularly in the RILs. This suggests that much of the sink limitation observed in modern wheat cultivars may be the result of genetic improvement. •Under non-limiting growing conditions, grain yield in bread wheat is highly associated with sink capacity.•Yield:sink capacity falls from the expected 1:1 ratio above ∼8 tons ha−1, indicating source limitation for grain filling.•Sink limitation during grain filling in wheat seems more a consequence of breeding/environment than a ubiquitous attribute.•Source limitations that might arise from further improvement of grain number per unit area should not be disregarded. Grain yield in wheat is generally considered to be sink-limited during grain filling. But is this limitation inherent to the crop species or a consequence of the breeding process? A way to ascertain this is by using genetic materials not subject to selection. Grain yield could be analyzed as the product between: (i) grain number per unit area, (ii) the potential grain weight (i.e. weight per grain obtained without source limitation); and (iii) the degree of sink limitation (DSL). The product of the first two components defines the crop sink capacity (SICA), and the DSL could be assessed as the quotient between weight per grain and its potential weight. Such an analysis was carried out in a RIL population derived from the cross between Baguette 10 and Klein Chajá (Argentinean cultivars with contrasting grain number). Three field experiments were conducted at Balcarce, Argentina during the 2013, 2014 and 2015 crop seasons, under non-limiting conditions; 146 recombinant inbred lines (RILs), the parental cultivars and other commercial cultivars were evaluated. At maturity, grain yield and grain weight were determined. The potential grain weight was obtained by thinning rows at the beginning of grain filling. Grain number m−2 was calculated as grain yield/grain weight. Grain yield was highly associated with SICA; the slope of the relationship between grain yield and SICA was lower than the expected 1:1 ratio above ∼8 tons ha−1, indicating that the source for grain filling becomes a limiting factor when SICA increases, particularly in the RILs. This suggests that much of the sink limitation observed in modern wheat cultivars may be the result of genetic improvement.
Author	Panelo, J.S. Abbate, P.E. Aramburu Merlos, F. Pontaroli, A.C. Mirabella, N.E. Alonso, M.P.
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Snippet	•Under non-limiting growing conditions, grain yield in bread wheat is highly associated with sink capacity.•Yield:sink capacity falls from the expected 1:1... Grain yield in wheat is generally considered to be sink-limited during grain filling. But is this limitation inherent to the crop species or a consequence of...
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SubjectTerms	Argentina breeding crops cultivars field experimentation filling period genetic improvement Grain number Grain weight grain yield inbred lines Selection Sink capacity Triticum aestivum wheat Yield
Title	Analysis of sink/source relations in bread wheat recombinant inbred lines and commercial cultivars under a high yield potential environment
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