Tlukvaequabora

Replacing their ancestor the fuzzbora in all overlapping environments, the equabora is a true giant. Doubling in size, they tower over the surf. They form sprawling mangrove forests along the coasts of the major Barlowean landmasses. They play a vital role in the landscape of the coastal shorelines of Barlowe, as their deep roots provide a barrier against the eroding forces of the tidewaters and storm surges by trapping sediment with their roots. They are characterized by their large size and their aerial root systems, which hang from their top branches and wrap around eachother and those of their neighbors, giving the groves a tangled, weaving canopy with plenty of space for creatures to make their home.

=Size= Reaching heights that dwarf all but the largest individual Terran trees, undisturbed equabora can reach sizes of upwards of 100 meters in height, with an average diameter reaching 10 meters at the base. Because of its size, the equabora has had to further develop their abilities to pull water to the top of their. Water from the roots can be pushed up only a few meters by osmotic pressure, but can reach the full height of the equabora by using large negative pressures in the equabora's water tubules and subpressure from evaporating water at the leaves. Equaboras supplement water from the sand with fog, taken up through aerial roots that grow near the base of their puff stem junction.

=Marine adaptations= Transitioning to an amphibious lifestyle was a difficult process. The high salinity of the water and the poor oxygen content of the marine sediment proved a challenge to fuzzbora that grew along the coastal regions of Solpimr

Salt adaptations
To protect themselves from excess salinity in the soil of the intertidal zones, they have developed a series of adaptions that both prevent the uptake of a significant amount of salt, and remove any that may end up in their vascular systems. These adaptations allow for the delineation of the two major life stages of the equabora, marked primarily by their major methods of dealing with salinity; the pre-reproductive “secretor” stage and the fully grown “non- secretor” stage. The first stage, secretor, is geared towards protecting the equabora while they are growing. Specialized glands within the equabora, called salinicoules, concentrate the salt in hypersaline solution and excrete it through pores within their leaves and along the surface of their bark. As the water evaporates, salt crystals often form on the surface of the equabora. This has the added benefit of making the growing equabora unpalatable to most herbivores, protecting the growing seedlings from predation until they reach sufficient size for reproduction. Once reaching maturity, they will have reached a size where pumping salinated water all the way towards their leaves become impractical. Once they have begun this stage, their energy focus will shift towards reproduction and bark reinforcement, entering the “non-secretor” stage. They will grow thick roots and hides reinforced with lignin and suberin, acting as a filter preventing the uptake of salts. This is not perfect barrier, preventing about 80% of sodium salts from being absorbed. While this stage is called non-secretor, it is a bit of a misnomer, as they still will secrete some salts from their bodies, but instead of coating the flora any salts that remain within are excreted into "sacrificial leaves", which are leaves nearing the end of their productivity that will be dropped into the surf. These adaptations allow equaboras to grow in salinities up to 45 parts per thousand (ppt), though they grow optimally in salinities between 2 and 19 ppt.

Roots
The soil where equaboras are rooted poses a second challenge for them, as it is severely lacking in oxygen. While the soil of Solpimr are comparatively nutrient poor when measured against the coastal sediment and would normally be more ideal to grow in, the soil is saturated with water, causing oxygen to diffuse through the sol at a rate over 8000 times slower than through the air. This necessitated the development of a way to compensate, which the equabora solved in the form of aerial roots called pneumatophores. these pneumatophores grow out of the top branch structures, allowing the equaboras to receive oxygen out of the air.

=Reproduction= Life by the ocean has its perks—for equabora, proximity to the waves and tides helps with reproduction.

Like their ancestors, the equabora use airborne pollen which get caught in the fuzzy leaves of other equabora to pollinate them. One pollinated they will grow fuzzy blue berries which are meant to stand out on the flora to attract the attention of herbivores. The spores inside are capable of surviving digestion and will be able to germinate from droppings, facilitating terrestrial distribution.

The watertight skin has, like their ancestor, given the equabora's seed's skin and elastic quality, so the berries bounce off the sides of the parent's trunk and the ground several times. The seed within the berry will germinate within a few days if untouched, forming into a purple puff on the forest floor. The puff will grow in size, from a centimeter width to a diameter of a meter, for about 3 years. Then the puff will begin forming a grey-purple woody stem, reaching a height of one meter in a year. It will then continue to lengthen and thicken its stem over the next 10 years until it looks like its ancestor the fuzzpalm. After reaching 5 meters in height, new purple puffs sprout on the stem, which quickly grow with the whole flora to form "sibling puffs"; the first group of siblings is 2-3. After 10 more years of growth, all the puffs mature and begin producing and accepting pollen; puff stalks will enter the pollen phase for 3-4 months, after which they will resort to growing new berries from the pollen they themselves received during this time. This process will continue, with more sibling puffs sprouting from the puff stem junction, maturing, and producing pollen and berries, until the flora has grown 10-14 puff stalks; stalks can share the genetic material collected from any one sibling, ensuing a multitude of berries is in stock.

If they are not eaten, the equabora have another method for spreading, using the ocean currents. Equabora spores are viviparous, beginning their germination process while the fruit is still attached to the parent equabora. Once germinated, the sporeling grows within the fruit to form a propagule which is already capable of preforming photosynthesis, and the fruit will drop from the parent. Once a fruit reaches this point it is generally considered "over-ripe" by most herbivores, as it will begin producing acids such as oxalic acid, giving the fruit a sour taste, discouraging ingestion. The gases produced by the fruit beginning decomposition, when combined with the water-tight skins of the fruit, make them exceptionally buoyant, allowing them to float out into the coastal water. Their pollination season is in the spring to take advantage of the calmer climate, while their fruiting season is in the fall, timing the drop of the fruits to coincide with the storm season, allowing for maximum spread of the fruit.

The mature propagule then drops into the water, which can transport it great distances. Propagules can survive desiccation and remain dormant for over a year before arriving in a suitable environment. Once a propagule is ready to root, its density changes so the elongated shape now floats vertically rather than horizontally. In this position, it is more likely to lodge in the mud and root. If it does not root, it can alter its density and drift again in search of more favorable conditions.

=Dispersal and Range=

The large scale spread of equabora to all tropical and temperate waters of Barlowe are thanks to three factors: currents, tropical storms, and the tamshrews. Their waterproof fruit allow for the spores to be carries to

The oldest mangroves are around the northern shores of the Solpimr and southern Ovi islands. In these old growth areas, they can grow up to a 1.5 km off shore, though there are many pockets of mangrove islets off in the coastal waters. These islets formed thanks to the relative shallow waters of the coastal areas, with various sandbars and reef pockets dotting along the seabed. These shoals are the remains of once higher elevated sections of Barlowe, though weathering has sunk much, it has left enough near the surface to allow equabora to establish themselves and stabilize the soil.

=Ecology= As they are a descendant of the fuzzbora, they have facilitated the dispersal of all bora communal species. These include the twinkboras, marbloras, and larandboras, which have spread to all environments shared by the equabora and through contact have begun to live on other closely related fuzzpalm relatives, including the equabora's direct ancestor the fuzzpalm and their cousin the penumbra fuzzpalm. Feeding on this abundant food source is species like the stowaway harmblesses and the borinvermees, which have similarly spread to all environments. These are in turn preyed upon by the bora scuttlers, but due to being relatively poorly adapted to terrestrial environments, they have been restricted to the humid, tropical regions in the range.

In addition to these species, the introduction to the Penumbra island has allowed for the dispersal of tamhooks from their original habitat out into the water. With the Equabora being a vurtually identical plant and having little need to protect themselves after the flora have reached maturity, the tamhook has begun in the assistance in the spread of the equabora seeds, as the tamhooks will regularly feed on their fruit when they are in season, helping to spread the seeds. The tamhooks nimble body-form allows them to easily make their homes in the branches, though the occasionally high salt content on the surface of the branches can lead to irritation and sometimes dehydration as a result of grooming methods. They have not spread everywhere, but can be found in the coastal areas surrounding the Hydro Tropical Coast, spreading to the interior of the Putspooza Tropical Rainforest and some headway into the central eastern regions of the Barlowe Tropical Rainforest, though they have remained localized to that region and have not spread more throughout Barlowe.

The phlice has similarly spread, feeding on the bora scuttlers primarily, but this spread has opened up the opportunity of them to come into contact with other tamshrew species, allowing them to have a more readily available food source outside of the regions the bora scuttlers have spread to, such as the tamjacks, marine tamows, andtamhooks. This is a rare occurrence, as they typically will stick to their normal food sources.

Tamkor, while readily eating equabora much in the way of their ancestors, have not proliferated far beyond the shores of Solpimr due to their large size as adults. The old growth have allowed them to reach Ovi island, but no easy route for them to reach the mainland exists.