If you haven't already read the previous topic, please do so before reading or contributing to this because it sets the stage for what this topic will cover.
Link here:
http://www.growfruitandveg.co.uk/gra...ure_76277.html
Below are additional sets of pictures of apple varieties.
Each set contains one definite diploid; occasionally two.
The remaining pictures in each set are varieties that seem highly suspicious.
Most of the apples pictured below, especially the "suspicious" ones, are noted for being tough, disease resistant, large flowers of particularly attractive quality, often long-lived and often with the large, rounded, thick, dark, glossy leaves often seen in triploids, and, incredibly, many are reported to have a good degree of self-fertility (but how good are they at pollinating others?) despite the apparent triploid features!
But I note that many old fruit catalogues and books (from a century or more ago) list a large number of now-known-to-be-triploid varieties as self-fertile - including Bramley!
But some modern studies have suggested that the average triploid is more self-fertile than the average diploid - in other words the average triploid without a pollinator is more likely to produce a bigger crop than the average diploid without a pollinator.
So is it surprising that some triploids would be listed as self-fertile?
At least one variety below is known to be triploid but is self-fertile too.
So as for the previous topic, please state which picture in each set looks like diploid or triploid.
Thanks,
F
Link here:
http://www.growfruitandveg.co.uk/gra...ure_76277.html
Below are additional sets of pictures of apple varieties.
Each set contains one definite diploid; occasionally two.
The remaining pictures in each set are varieties that seem highly suspicious.
Most of the apples pictured below, especially the "suspicious" ones, are noted for being tough, disease resistant, large flowers of particularly attractive quality, often long-lived and often with the large, rounded, thick, dark, glossy leaves often seen in triploids, and, incredibly, many are reported to have a good degree of self-fertility (but how good are they at pollinating others?) despite the apparent triploid features!
But I note that many old fruit catalogues and books (from a century or more ago) list a large number of now-known-to-be-triploid varieties as self-fertile - including Bramley!
But some modern studies have suggested that the average triploid is more self-fertile than the average diploid - in other words the average triploid without a pollinator is more likely to produce a bigger crop than the average diploid without a pollinator.
So is it surprising that some triploids would be listed as self-fertile?
At least one variety below is known to be triploid but is self-fertile too.
So as for the previous topic, please state which picture in each set looks like diploid or triploid.
Thanks,
F
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