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[[File:Germination-en.svg|thumb|335px|Epigeal vs. hypogeal germination]]
[[File:Germination-en.svg|thumb|335px|Epigeal vs. hypogeal germination]]
'''Hypogeal germination''' ([[Greek language|Greek]]: ὑπόγαιος/ὑπόγειος ''hypógaios/hypógeios'' = 'below ground', from ὑπό ''hypo'' = 'below', γῆ ''gè'' = 'earth/ground') is a [[botany|botanical]] term indicating that the [[germination]] of a plant takes place below the ground. An example of a plant with hypogeal germination is the [[pea]] (''Pisum sativum''). The opposite of hypogeal is [[epigeal germination|epigeal]] (above-ground germination).
'''Hypogeal germination''' ([[Greek language|Greek]]: ὑπόγαιος/ὑπόγειος ''hypógaios/hypógeios'' = 'below ground', from ὑπό ''hypo'' = 'below', γῆ ''gè'' = 'earth/ground') is a [[botany|botanical]] term indicating that the [[germination]] of a plant takes place below the ground. An example of a plant with hypogeal germination is the [[pea]] (''Pisum sativum''). The opposite of hypogeal is [[epigeal germination|epigeal]] (above-ground germination).


==Germination==
==Germination==
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==Phanerocotylar vs. cryptocotylar==
==Phanerocotylar vs. cryptocotylar==
In [[1965]], botanist [[James A. Duke]] introduced the terms [[cryptocotylar]] and [[phanerocotylar]] as synonyms for hypogeal and epigeal respectively, because he didn't consider these terms etymologically correct.<ref>Duke, J.A. (1965) "Keys for the identification of seedlings of some prominent woody species in 8 forest types in Puerto Rico" ''Ann. Missouri. Bot. Gard'' no. 52 pp. 314-350</ref> Later, it was discovered that there are rare cases of species where the germination is epigeal and cryptocotylar. <ref>Franceschini, M. (2004) "An unusual case of epigeal cryptocotylar germination in ''Rollinia salicifolia'' (Annonaceae)" ''Botanical Journal of the Linnean Society'' vol. 146 no. 1</ref> Therefore, divisions have been proposed that take both factors into account.<ref>Garwood, N.C. (1996) "Functional morphology of tropical tree seedlings", in: ''The ecology of tropical forest tree seedlings'', pp. 59-129. New York: Swaine</ref>
In 1965, botanist [[James A. Duke]] introduced the terms [[cryptocotylar]] and [[phanerocotylar]] as synonyms for hypogeal and epigeal respectively, because he didn't consider these terms etymologically correct.<ref>Duke, J.A. (1965) "Keys for the identification of seedlings of some prominent woody species in 8 forest types in Puerto Rico" ''Ann. Missouri. Bot. Gard'' no. 52 pp. 314-350</ref> Later, it was discovered that there are rare cases of species where the germination is epigeal and cryptocotylar.<ref>Franceschini, M. (2004) "An unusual case of epigeal cryptocotylar germination in ''Rollinia salicifolia'' (Annonaceae)" ''Botanical Journal of the Linnean Society'' vol. 146 no. 1</ref> Therefore, divisions have been proposed that take both factors into account.<ref>Garwood, N.C. (1996) "Functional morphology of tropical tree seedlings", in: ''The ecology of tropical forest tree seedlings'', pp. 59-129. New York: Swaine</ref>


==References==
==References==

Revision as of 18:14, 15 December 2013

Epigeal vs. hypogeal germination

Hypogeal germination (Greek: ὑπόγαιος/ὑπόγειος hypógaios/hypógeios = 'below ground', from ὑπό hypo = 'below', γῆ = 'earth/ground') is a botanical term indicating that the germination of a plant takes place below the ground. An example of a plant with hypogeal germination is the pea (Pisum sativum). The opposite of hypogeal is epigeal (above-ground germination).

Germination

Hypogeal germination implies that the cotyledons stay below the ground. The epicotyl (part of the stem above the cotyledon) grows, while the hypocotyl (part of the stem above the cotyledon) stays the same length. In this way, the hypocotyl pushes the plumule above the ground.

Normally, the cotyledon is fleshy, and contains a many nutrients that are used for germination. No photosynthesis takes place within the cotyledon.[1]

The seeds are much bigger than those of plants with epigeal germination. Because the cotyledon stays below the ground, it is much less vulnerable to for example night-frost [2] or grazing. The evolutionary strategy is that the plant produces a relatively low number of seeds, but each seed has a bigger chance of surviving.

Plants that show hypogeal germination need relative little external nutrients to grow, therefore they are more frequent on nutrient-poor soils. The plants also need less sunlight, so they can be found more often in the middle of forests, where there is much competition to reach the sunlight.[1]

Plants that show hypogeal germination grow relatively slow, especially in the first phase. In areas that are regularly flooded, they need more time between floodings to develop. On the other hand, they are more resistant when a flooding takes place.[1] After the slower first phase, the plant develops faster than plants that show epigeal germination.

It is possible that within the same genus one species shows hypogeal germination while another species shows epigeal germination. Some genera in which this happens are:

Phanerocotylar vs. cryptocotylar

In 1965, botanist James A. Duke introduced the terms cryptocotylar and phanerocotylar as synonyms for hypogeal and epigeal respectively, because he didn't consider these terms etymologically correct.[3] Later, it was discovered that there are rare cases of species where the germination is epigeal and cryptocotylar.[4] Therefore, divisions have been proposed that take both factors into account.[5]

References

  1. ^ a b c Parolin, P., Ferreira, L.V., Junk, W.J. (2003) "Germination characteristics and establishment of trees from central Amazonian flood plains" Tropical Ecology 44(2): 157-169
  2. ^ Rigetti, S. (1998) Weed control in direct-seeded pea and lentil University of Saskatchewan
  3. ^ Duke, J.A. (1965) "Keys for the identification of seedlings of some prominent woody species in 8 forest types in Puerto Rico" Ann. Missouri. Bot. Gard no. 52 pp. 314-350
  4. ^ Franceschini, M. (2004) "An unusual case of epigeal cryptocotylar germination in Rollinia salicifolia (Annonaceae)" Botanical Journal of the Linnean Society vol. 146 no. 1
  5. ^ Garwood, N.C. (1996) "Functional morphology of tropical tree seedlings", in: The ecology of tropical forest tree seedlings, pp. 59-129. New York: Swaine