Our hormone square showed the following development:
Auxin IBA→
Cytokinin BAP ↓
|
0 mg/l
|
0.02 mg/l
|
0.2
mg/l
|
2
mg/l
|
0 mg/l
|
1. Very long roots, no ramification, no
callus, no fresh shoots
|
2. Very long roots but less than in nr.9, very
little ramification, no callus, no fresh shoots
|
3. Similar to nr.4 but less rooting and a bit
less callus
|
4. Dark, brown large callus, but many roots with
ramifications
|
0.02 mg/l
|
5. Only little rooting, very little callus,
no fresh shoots, but healthy
|
6. Little callus (also internodes), little
rooting but some ramification, not too long
|
7. Little rooting, thin and young roots,
green callus, healthy leaves
|
8. Callus, very compact, brown and green,
little shoots in internodes, root ramification
|
0.2 mg/l
|
9. Very long roots, less than in nr.1, little
ramification, no callus, no fresh shoots
|
10. some green callus, no roots, few little
shoots growing from internodes
|
11. big green callus, no roots, little shoots
growing from internodes
|
12. big green callus, no roots, little shoots
growing from internodes, plantlets smaller
|
2 mg/l
|
13. some green callus, no roots, many shoots
growing, plantlets smaller, stressed
|
14. some green callus, no roots, very many shoot
growing from internodes, real proliferation, stressed
|
15. same as 14.
|
16. even larger green callus, no roots, less shoots
growing from internodes
|
We tried to make a meaningful ranking for the roots and another one for
the shoots. In order to do the ranking, we considered the qualities which would
be most beneficial and which promise a good fitness if the explants were used
for a transfer into in vivo
conditions.
So concerning the roots, we determined that the explants already need to
have some. This is essential for a quick adaption to taking up water and nutrients
from the soil and quickly get good foothold. Even though the roots developed in
the container can’t really be used in in
vivo conditions, new ones can establish quickly if there is already some
rooting. However, the explants from the containers in which the most roots had developed
were almost too old. In Nr. 3, 4 and 8 there was very much rooting, but the
roots were already very long and did not ramify much.
We thought it better to take plantlets in a stage of young roots, so
that they will ramify a lot when cut and transferred into soil. In addition to that, direct rooting is better than when there's callus formed in between. Therefore, Nr. 5, 6 and 7 were considered as more
suitable.
Concerning the shoots, the highest activity and cell division was found
in high cytokinin (BAP) concentrations, where many little leaves were proliferating
even from the internodes. Nevertheless, we regarded only well grown and vigorous
shoots as desirable. If the internodes were very short, leaves were light green
and overall the plantlets looked stressed, the ranking was low (this was the
case in high concentrations of BAP). The best shoots could be found in Nr. 7 and 9.
Therefore, regarding both, roots and shoots the best hormone mix could
be found in Nr. 7 with 0.02 mg/l BAP
and 0.2 mg/l IBA. Also good plantlets in regard to suitability for in vivo
conditions could be found in Nr. 5, 3 and 9.
The other group also found the most intensive rooting in Nr. 3, 4 and 8,
yet also in Nr.12. Since this group probably didn’t define the ranking in
regard to suitability for a transfer to in
vivo conditions, they regarded these as the best ones.
This result is in accordance with scientific findings. Auxin is known to
stimulate root growth, but rather in concentrations higher than 0.2 mg/l and
not if there’s too much cytokinin.
On the other hand, the ranking of shoots looks completely different. This
group counted the shoots on leaves and on stems of leaves. The best hormone
combination for a good shoot formation was found to be 0.2 or 2 mg/l kinetin
and 0.02 mg/l NAA. These were containers Nr. 10 and 14.
In any case, the effect of a combination of auxin and cytokinin was
clearly visible in both. Some differences between the two hormone squares might
also be due to the use of different plant hormones in both groups or just due
to some mistakes in the preparation of the mixtures.
Hello Juliana,
AntwortenLöschenYou have again written a blog with great detail. I just concentrated on roots to make it less time consuming, but of course, for the final decision or recommendation for further use of these two hormones in Chrysanthemum in vitro cultures, you need to look at shoots and roots. I also had problems finding a suitable article for comparing with our results. They never show the results in such detail that it could be helpful.
Cheers
Hi Juliana
AntwortenLöschenyou did a perfect work until the end of these blog assingments. Congratulation. I appologize frustration about unsuitable abstracts and papers and non accessable references. But this is the real life in research as well. However you carefully compared the results and annotated thoroughly.
Hansruedi
Hey Juliana
AntwortenLöschenEspecially I liked your summary-table. I have nothing else to add, except giving you a compliment for all the whole blogging time...
Cheers Marc