Hornwort: Difference between revisions
No edit summary |
|||
(7 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
==Description== | ==Description== | ||
<p>Hornworts are small, non-vascular plants which belong to the division Anthocerotophyta, and is known as a [[Bryophyte]]. They are one of the oldest land plant lineages around, dating back roughly 500 millions years ago. Hornworts are named for their horn-shaped sporophyte structures, and unique for their green, flat-bodied structures (thallus), during the gamete phase.<p> | <p>Hornworts are small, non-vascular plants which belong to the division Anthocerotophyta, and is known as a [[Bryophyte]]. They are one of the oldest land plant lineages around, dating back roughly 500 millions years ago. Hornworts are named for their horn-shaped sporophyte structures, and are unique for their green, flat-bodied structures (thallus), during the gamete phase.<p> | ||
==Characteristics== | ==Characteristics== | ||
Line 25: | Line 25: | ||
<li>Gametophyte Phase: The dominant phase in the life cycle of hornworts is the gametophyte. It is a thalloid structure that carries out photosynthesis and produces sex organs.</li> | <li>Gametophyte Phase: The dominant phase in the life cycle of hornworts is the gametophyte. It is a thalloid structure that carries out photosynthesis and produces sex organs.</li> | ||
<li>Sporophyte Phase: The sporophyte phase begins when the female sex organ (archegonium) is fertilized by the sperm produced by the male sex organ (antheridium).</li> | <li>Sporophyte Phase: The sporophyte phase begins when the female sex organ (archegonium) is fertilized by the sperm produced by the male sex organ (antheridium). This is done when the biflagellate sperm swims to the egg cell, fusing into a zygote. </li> | ||
<li>The fertilized egg develops into a sporophyte, which is the horn-like structure that emerges from the gametophyte. The sporophyte produces spores through meiosis.</li> | <li>The fertilized egg develops into a sporophyte, which is the horn-like structure that emerges from the gametophyte. The sporophyte produces spores through meiosis.</li> | ||
Line 34: | Line 34: | ||
==Classification and Phylogeny== | ==Classification and Phylogeny== | ||
<p>Hornworts belong to the division Anthocerotophyta, which is one of the three divisions of non-vascular land plants. They are further | <p>Hornworts belong to the division Anthocerotophyta, which is one of the three divisions of non-vascular land plants. They are further described by their families and genera based on their morphological and molecular properties. There are currently about 200 known species of hornworts. There are constantly new discoveries, as this particular plant is understudied.<p> | ||
==Evolution== | ==Evolution== | ||
<p>Hornworts are theorized to be one of the earliest groups of evolved land plants. They are suggested to have descended from algae species, roughly 500 million years ago. They have characteristics that suggest they evolved in primitive conditions, such as the lack of vascular tissues. | <p>Hornworts are theorized to be one of the earliest groups of evolved land plants. They are suggested to have descended from algae species, roughly 500 million years ago. They have characteristics that suggest they evolved in primitive conditions, such as the lack of vascular tissues. Understanding the evolution of hornworts has played a significant role in the understanding of the colonization of land by plants. It is suggested that this is an early predecessor of vascular land plants, and branched off very early in the evolution of plants. <p> | ||
==Uses== | ==Uses== | ||
<li>Hornworts have been used in traditional medicine for their medicinal [[properties]]</li> | <li>Hornworts have been used in traditional medicine for their medicinal [[properties]]</li> | ||
<li>They also have ecological significance, contributing to soil formation and [[Nutrient Cycling | <li>They also have ecological significance, contributing to soil formation and [[Nutrient Cycling|nutrient cycling]].</li> | ||
<li>In scientific research, hornworts are used as model [[organisms]] to | <li>In scientific research, hornworts are used as model [[organisms]] to research many properties of plant biology, and evolution.</li> | ||
</ul> | </ul> | ||
== | ==Work Cited== | ||
< | <p>(N.d.). . https://www.anbg.gov.au/bryophyte/what-is-hornwort.html. | ||
(N.d.). . https://nph.onlinelibrary.wiley.com/doi/full/10.1111/nph.16874. | |||
Bryophytes (mosses, liverworts, and hornworts). 2021, July 14. . https://www.earth.com/plant-encyclopedia/bryophytes/. <p> |
Latest revision as of 12:45, 10 May 2023
Description
Hornworts are small, non-vascular plants which belong to the division Anthocerotophyta, and is known as a Bryophyte. They are one of the oldest land plant lineages around, dating back roughly 500 millions years ago. Hornworts are named for their horn-shaped sporophyte structures, and are unique for their green, flat-bodied structures (thallus), during the gamete phase.
Characteristics
Habitat
Hornworts are found in many ecosystems around the world. They are most abundant in moist environments such as forests, wetlands, and along stream banks. However, some species can tolerate dry conditions such as deserts or tundras.
Life Cycle
The life cycle of hornworts follows an alternation of generations between haploid and diploid phases:
- Hornworts have been used in traditional medicine for their medicinal properties
- They also have ecological significance, contributing to soil formation and nutrient cycling.
- In scientific research, hornworts are used as model organisms to research many properties of plant biology, and evolution.
Classification and Phylogeny
Hornworts belong to the division Anthocerotophyta, which is one of the three divisions of non-vascular land plants. They are further described by their families and genera based on their morphological and molecular properties. There are currently about 200 known species of hornworts. There are constantly new discoveries, as this particular plant is understudied.
Evolution
Hornworts are theorized to be one of the earliest groups of evolved land plants. They are suggested to have descended from algae species, roughly 500 million years ago. They have characteristics that suggest they evolved in primitive conditions, such as the lack of vascular tissues. Understanding the evolution of hornworts has played a significant role in the understanding of the colonization of land by plants. It is suggested that this is an early predecessor of vascular land plants, and branched off very early in the evolution of plants.
Uses
Work Cited
(N.d.). . https://www.anbg.gov.au/bryophyte/what-is-hornwort.html. (N.d.). . https://nph.onlinelibrary.wiley.com/doi/full/10.1111/nph.16874. Bryophytes (mosses, liverworts, and hornworts). 2021, July 14. . https://www.earth.com/plant-encyclopedia/bryophytes/.