Fishponds of the Třeboň Basin explained

Fishponds of the Třeboň Basin
Other Name:Třeboň fishpond system
Type:Fish ponds
Photo Alt:A landscape image; in the foreground can be seen the waters of the Svět pond, with light ripples. Behind them can be seen thick and vibrantly green foliage, out of which rises a steeple from the town of Třeboň. The sky is overcast.
Location:South Bohemian Region, Czech Republic
Coordinates:49.0667°N 57°W
Elevation M:410–450
Elevation Ft:410m (1,350feet)–450m (1,480feet)
Elevation Ref:[1]
Surface Elevation M:-->
Type:-->

The fishponds of the Třeboň Basin or Třeboň fishpond system (Czech: Třeboňská rybniční soustava) are a collection of over five hundred fish ponds. They were constructed from the 13th century onwards in the Třeboň Basin area of Bohemia, now the South Bohemian Region of the Czech Republic, with most work occurring between the 15th and 16th centuries, and collectively cover approximately 6370ha. The individual ponds vary significantly in size, and are connected by a labyrinth of canals, ditches, and streams.

They continue to be used for aquaculture, in addition to flood management, recreation, and biodiversity protection and are currently listed on the UNESCO World Heritage Tentative List as a significant Czech cultural site, but no decision has been made for their inclusion.

History

Fish ponds are first recorded to have existed within Bohemia in the 12th century, with a carp pond being described in the original 1115 Kladruby Monastery charter,[2] but development within the Třeboň area did not begin until the 13th century when Slavs from central Bohemia arrived in the region. This initial construction had the primary intent of draining the area, particularly swamps which had expanded due to deforestation, in order to make available additional arable land, with aquaculture being a secondary goal.

This process was initially slow, but it intensified from the late 14th century, when the Holy Roman Emperor Charles IV commanded the construction of fishponds "so that the kingdom would abound in fish and mist". The ponds resulting from this were often constructed in the spirit of civic competition and were of significant value; a large, 260hectare pond was considered as valuable as three villages, counting the land and inhabitants.[3] It further intensified during the 15th and 16th centuries when the fish trade was one of the most profitable farming activities in the area.

This period of intensification culminated under Štěpánek Netolický; in 1506 he submitted plans, now lost, for the construction of the 48km (30miles) long canal, which would supply the entire basin with water and enable ponds to be maintained during periods of drought. Construction on it began in 1508[4] and was completed at some point between 1518 and 1520.[5] While the canal was under construction, he further contributed to the intensification by developing a pond construction system that was used in the construction or expansion of a number of large ponds and resulted in the first major expansion of the Třeboň Basin ponds.

The next major period of development occurred in the late 16th century under Jakub Krčín working for the prominent Bohemian Rosenberg family. Under his direction, many ponds were restored or constructed, including, as a consequence of his construction of a dam on the Lužnice, the Rožmberk Pond which covers 4.89sqkm and is the largest pond in central Europe. Other work conducted under his direction include a canal connecting the Nežárka with the Lužnice called .

Following this development in 1607 the fish-harvest was recorded as being 219tonne, but the Thirty Years' War had a significant negative effect on production, and by 1626 the harvest had fallen to just 48tonne. Recovery began in 1677, but the process was slow, hindered by a lack of fishermen and managers. This recovery is documented to have been complete by 1751, where a harvest of 260tonne was recorded.

The final major development involved the construction of 36 new ponds under Josef Šusta, collectively covering 413hectare and bringing the total area of the ponds to 6370hectare in 1908, a value which has changed little since.

The ponds are currently owned by Rybářství Třeboň a.s., having been owned by the House of Schwarzenberg until 1920, and currently produce approximately 2900tonne of fish per year, with the vast majority of this total being carp.[6]

Current uses

From their beginning as an effort to drain the swamps in order to obtain farm land, the ponds have served a wide variety of functions. Today, these include aquaculture, water management, biodiversity protection, and recreation.

Biodiversity

The ponds serve an important role in ensuring biodiversity, as while they are man-made, their age has resulted in a semi-natural environment, allowing them to function as a microcosm of much wider regions, with area similar to tundra being found in close proximity to coniferous forests, deciduous forests, wet meadows and more. This allows a wide variety of flora to flourish in the region, which in turn supports a rich collection of fauna including over 150 species of birds and over 50 species of mammals alongside other vertebrates and invertebrates.

However, this role is threatened by the intensified farming since the end of the Second World War; it has caused the destruction of some of these environments, and it has caused eutrophication throughout the region. These issues are exacerbated by the choice to harvest fish from April to June, as this coincides and disrupts the bird breeding season.

Water management

The broader fishpond system has a water catchment across the entirety of the Lužnice River, including both the Czech and Austrian portions, resulting in a total catchment size of 1700sqkm, and when this region experiences floods the ponds perform a secondary function of water management during floods.

The fishponds have a water retention capacity of at least 52e6m3, and so function as a buffer during flooding, incidents the region suffers sporadically from; floods impacting the fishponds were recorded as early as 1586, and more recently in 2002 and 2006. However, this ability to protect downstream communities is degraded by the comparatively low-quality construction of the dams and dykes that make up the ponds; they are typically constructed from locally-sourced homogenous earth resulting in significant seepage. Meanwhile many of the drainage pipes, though they have been replaced over the years, are still wooden pipes that were installed in the 19th century, which sometimes results in a washout of material from the dam, resulting in large cavities which significantly impair water retention.

UNESCO status

The ponds are proposed for inclusion in UNESCO World Heritage sites,[7] while the Basin area has been listed as a UNESCO Biosphere Reserve since 1977. In 1990, many of the ponds were listed as Wetlands of International Importance per the Ramsar Convention and now make up approximately 70% of the ponds so classified, while in 1993 1080ha of the peat-bogs were registered as being of international importance.[1]

See also

Notes and References

  1. Book: Fishing for a living: the ecology and economics of fishponds in Central Europe. . 1997 . IUCN . Gland, Switzerland . 2-8317-0386-7.
  2. Book: Nash . Colin E. . The history of aquaculture . 2011 . Wiley-Blackwell . Ames, Iowa . 978-0-8138-2163-4 . 27–28.
  3. Book: Nash . Colin E. . The history of aquaculture . 2011 . Wiley-Blackwell . Ames, Iowa . 978-0-8138-2163-4 . 40.
  4. Book: Hule . Miroslav . Rybníkářství na Třeboňsku: historický průvodce . 2000 . Carpio . Třeboň . cs. 80-86434-00-1.
  5. Book: Hule . Miroslav . Průvodce po rybnících, památkách a hospůdkách Třeboňska . 2005 . Carpio . Třeboň . cs. 80-86434-10-9.
  6. Lhotský . Richard . The role of historical fishpond systems during recent flood events . Journal of Water and Land Development . 1 January 2010 . 14 . 1 . 10.2478/v10025-011-0005-5. free .
  7. Web site: Tentative Lists submitted by States Parties. Baku, Republic of Azerbaijan . 19 . 17 July 2019.