Marcescence

Marcescence is the retention of dead plant organs that normally are shed.[1] Trees transfer water and sap from the roots to the leaves through their vascular cells, but in some trees as autumn begins, the veins carrying the sap slowly close until a layer of cells called the abscission layer completely closes off the vein allowing the tree to rid itself of the leaf.[2] Leaf marcescence is most often seen on juvenile plants and may disappear as the tree matures. It also may not affect the entire tree; sometimes leaves persist only on scattered branches.[3] Marcescence is most obvious in deciduous trees that retain leaves through the winter. Several trees normally have marcescent leaves such as oak (Quercus),[4] beech (Fagus) and hornbeam (Carpinus), or marcescent stipules as in some but not all species of willows (Salix).[5] All oak trees may display foliage marcescence, even species that are known to fully drop leaves when the tree is mature.[6] Marcescent leaves of pin oak (Quercus palustris) complete development of their abscission layer in the spring.[7] The base of the petiole remains alive over the winter. Many other trees may have marcescent leaves in seasons where an early freeze kills the leaves before the abscission layer develops or completes development. Diseases or pests can also kill leaves before they can develop an abscission layer.

Typical partial marcescence on a mature beech (Fagus sylvatica) tree
Oak with marcescent foliage

Marcescent leaves may be retained indefinitely and do not break off until mechanical forces (wind for instance) cause the dry and brittle petioles to snap.[8]

Many palms form a skirt-like or shuttlecock-like crown of marcescent leaves under new growth that may persist for years before being shed.[9][10] In some species only juveniles retain dead leaves[11] and marcescence in palms is considered a primitive trait.[12]

The term marcescent is also used in mycology to describe a mushroom which (unlike most species, described as "putrescent") can dry out, but later revive and continue to disperse spores.[13] Genus Marasmius is well known for this feature, which was considered taxonomically important by Elias Magnus Fries in his 1838 classification of the fungi.[14] The evolutionary reasons for marcescence are not clear, theories include: protection of leaf buds from winter desiccation, and as a delayed source of nutrients or moisture-conserving mulch when the leaves finally fall and decompose in spring.[15]

Advantages

One possible advantage of marcescent leaves is that they may deter feeding of large herbivores, such as deer and moose, which normally eat the twigs and their nutritious buds. Dead, dry leaves make the twigs less nutritious and less palatable.[16] They are also more noisy when browsed, thereby potentially deterring browsers.[17]

Some ecologists suggest that marcescence has adaptive significance for trees growing on dry, infertile sites. Beech and oak often grow relatively well and can outcompete other species on such sites. The hypothesis is that retaining leaves until spring could be a means of slowing the decomposition of the leaves (which would rot faster on the ground) and that dropping them in spring delivers organic material, much like compost or mulch, at a time when it is most needed by the growing tree.[18]

Some experimentation on plant litter from marcescent trees indicates that keeping the leaves above ground may increase the amount of photodegradation the leaves are exposed to. Because some marcescent species' leaves do not decompose well, the increased photodegradation may allow them to decompose better once they finally fall off the tree.[19]

Others theorize that leaves which remain on a tree due to marcescence allow the tree to trap snow during the winter months. By using their dead leaves to collect additional snow, trees are able to provide themselves more water in spring when the snow begins to melt.[20]

Marcescent leaves may protect some species from water stress or temperature stress. For example, in tropical alpine environments a wide variety of plants in different plant families and different parts of the world have evolved a growth form known as the caulescent rosette, characterized by evergreen rosettes growing above marcescent leaves. Examples of plants for which the marcescent leaves have been confirmed to improve survival, help water balance, or protect the plant from cold injury are Espeletia schultzii and Espeletia timotensis, both from the Andes.[21][22]

The litter-trapping marcescent leaf crowns of Dypsis palms accumulate detritus thereby enhancing their nutrient supply,[23] but in trapping nutrient-rich detritus, palms with marcescent leaf bases are also more likely to allow the germination of epiphytic figs in the marcescent leaves, with the figs possibly subsequently strangling the palms.[24] Palm genera with taxa having marcescent leaf bases and attracting epiphytic fig growth include Attalea, Butia, Caryota, Copernicia, Elaeis, Hyphaene, Livistona, Phoenix, Sabal, and Syagrus.[24]

Marcescence in various species.

Marcescent species

Marcescent species are found in the following (incomplete) list of plant genera:

And in the following (incomplete) list of families

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See also

References

  1. Chisholm, Hugh, ed. (1911). "Marcescent" . Encyclopædia Britannica. 17 (11th ed.). Cambridge University Press. p. 685.
  2. "Abscission and Marcescence in the Woods | Vermont Center for Ecostudies". vtecostudies.org. Retrieved 2017-11-16.
  3. "When Leaves Don't Leave » Arnold Arboretum". Arnold Arboretum. 2016-02-19. Retrieved 2017-11-16.
  4. Berkley, Earl E. 1931. Marcescent leaves of certain species of Quercus. Botanical Gazette 92: 85-93.
  5. George W. Argus. "88. Salix planifolia Pursh". Flora of North America. 7.
  6. "Species of Oaks That Retain Their Dead Leaves". Garden Guides. Retrieved 2017-11-16.
  7. Hoshaw, R.W. and Guard, A.T. 1949. "Abscission of marcescent leaves of Quercus palustris and Q. coccinea". Botanical Gazette 110: 587–593.
  8. Addicott, Fredrick T. (1982). Abscission. University of California Press. p. 51. ISBN 978-0-520-04288-9.
  9. L.B. Holm-Nielsen, ed. (1989). Tropical Forests: Botanical Dynamics, Speciation & Diversity. Academic Press. p. 161. ISBN 978-0-08-098445-2.
  10. Dowe, John (2010). Australian Palms: Biogeography, Ecology and Systematics. Csiro Publishing. p. 160. ISBN 978-0-643-10185-2.
  11. Dransfield, John; Uhl, Natalie W. (2008). Genera Palmarum: the evolution and classification of palms. Kew Pub. p. 294. ISBN 978-1-84246-182-2. marcescent in immature [descriptive of several spp.]
  12. Moore, Harold Emery; Uhl, Natalie W. (1982). Major Trends of Evolution in Palms. New York Botanical Garden. p. 69.
  13. See introduction to Roy E. Halling "A revision of Collybia s.l. in the northeastern United States & adjacent Canada" Inst. of Syst. Botany, The New York Botanical Garden, Bronx, NY 10458-5126
  14. E. M. Fries Epicrisis systematis mycologici (1838) Uppsala: Typographia Academica
  15. "When Leaves Don't Leave » Arnold Arboretum". Arnold Arboretum. 2016-02-19. Retrieved 2017-11-16.
  16. Svendsen, Claus R. 2001. Effects of marcescent leaves on winter browsing by large herbivores in northern temperate deciduous forests. Alces 37(2): 475-482.
  17. Griffith, R. 2014. "Youtube.com: Marcescence (video with narration)".
  18. Woodlands, Northern. "Why Do Some Leaves Persist On Beech and Oak Trees Well Into Winter? | Winter 2010". Center for Northern Woodlands Education. Retrieved 2017-11-16.
  19. Angst, Šárka; Cajthaml, Tomáš; Angst, Gerrit; Šimáčková, Hana; Brus, Jiří; Frouz, Jan (2017-09-01). "Retention of dead standing plant biomass (marcescence) increases subsequent litter decomposition in the soil organic layer". Plant and Soil. 418 (1–2): 571–579. doi:10.1007/s11104-017-3318-6. ISSN 0032-079X.
  20. Woodlands, Northern. "Why Do Some Leaves Persist On Beech and Oak Trees Well Into Winter? | Winter 2010". Center for Northern Woodlands Education. Retrieved 2017-11-04.
  21. Goldstein, G. and Meinzer, F.1983. Influence of insulating dead leaves and low temperatures on water balance in an Andean giant rosette plant. Plant, Cell & Environment 6: 649-656.
  22. Smith, Alan P.1979. Function of dead leaves in Espeletia schultzii (Compositae), and Andean caulescent rosette species. Biotropica 11: 43-47.
  23. Bramwell, David; Caujapé-Castells, Juli (2011-07-21). The Biology of Island Floras. Cambridge University Press. p. 189. ISBN 978-1-139-49780-0.
  24. Kramer, Gregory T. (2011). "Palm Tree Susceptibility to Hemi-Epiphytic Parasitism by Ficus". (M.S. thesis). University of Florida.


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