\nIn fertile landscapes, however, a substantial part of ponds was drained and turned into fertile fields in the 18th century. Among the \u201cfishmasters\u201d, knight Kun\u00e1t mlad\u0161\u00ed Dob\u0159ensk\u00fd of Dob\u0159enice (1465?\u20131539) clearly stands out; he worked as a royal fishmaster before 1500, and later worked for the Czech nobility, including the Ro\u017emberk family (Dvo\u0159i\u0161t\u011b, Kocl\u00ed\u0159ov, Tis\u00fd). In 1513, he began systematically working for the Pern\u0161tejn family. For them, he managed, for example, the completion of the Opatovice channel and the construction of \u010ceperka, apparently the largest pond in Bohemia (> 1,000 ha, later converted into a field; the village of \u010ceperka is documented since 1777). His descendants collected debts for work even after Ferdinand I. He had a stork in his coat of arms, which today is a direct symbol of wetland fauna, and the Dob\u0159ensk\u00fd family still own estates in the region. Josef \u0160t\u011bp\u00e1nek Netolick\u00fd (1460\u20131538), a simple serf, who learned the \u201ccraft\u201d from Kun\u00e1t Dob\u0159ensk\u00fd (probably during surveying of Horusick\u00fd pond) worked in the T\u0159ebo\u0148 region, and, for example, introduced targeted summer pond drying to increase fish production. \u0160t\u011bp\u00e1nek was rewarded, among other things, by being freed from serfdom (1515). A generation later, in the middle of the 16th century, his work was followed up by the famous \u201cRo\u017emberk regent\u201d Jakub Kr\u010d\u00edn, from Jel\u010dany and Sedl\u010dany (1535\u20131604), who surveyed his first pond in 1565. Unlike the Dob\u0159ensk\u00fd family, however, the Kr\u010d\u00edn family did not continue after the battle of B\u00edl\u00e1 hora (many daughters, evangelical religion, etc.).
\nThe still-cultivated T\u0159ebo\u0148 tradition somewhat overshadows the Pern\u0161tejn fish farming on the Labe, especially the activity of Vil\u00e9m II of Pern\u0161tejn (1438\u20131521) who, in 1491\u20131498, built the Opatovice Canal on the Labe to supply his pond\u00a0 system, which is still functioning today. According to Dubravius and the commentary on translation [3], Pern\u0161tejn claimed, among other things, that a pond\u00a0 is more stable than a field against the vagaries of the weather. Other writings dealing with the issue of fish farming have also appeared. In 1540, Jan Brtv\u00edn from Ploskovice published This book contains two pages… , a general guide to holding the right faith and running a proper farm, which also deals with fish farming. The work was then republished under the title Hospod\u00e1\u0159 (Farmer) in 1587 by Daniel Adam from Veleslav\u00edn. Dubravius \u2013 Jan Sk\u00e1la from Doubravka and Hradi\u0161t\u011b (1486\u20131553) has an essential place among the \u201cwise old men\u201d. He studied law and successfully managed the economy of Olomouc Bishop Stanislav Thurzo for a long time. In 1541, he received priestly ordination almost at the same time and was appointed bishop of Olomouc as Jan XVIII. In Wroclaw (the second largest city of the Kingdom of Bohemia) in 1547, Dubravius publisher the book De Piscinis \u2013 a systematic \u201ctechnical manual\u201d on pond management, which he wrote at the request of one of the Fugger family. The Fuggers (related to the Thurzo family) were an important business family, perhaps the richest in Europe at the time, which financially supported the Habsburgs, owned Slovak copper mines, etc. By 1599, Dubravius\u2019s book had already been published in English, and then it was repeatedly published in Latin. It wasn\u2019t until 1906 that a well-edited German translation was published in Vienna; it was a sensation for Czech pond owners. Parts of the work were published in Czech only after 1900, and a complete Czech translation only in 1953 [3]. A. Schmidtov\u00e1\u2019s translation O rybn\u00edc\u00edch (On fishponds) also contains her thorough historical commentary. Dubravius described pond farming in detail \u2013 from the selection of a place, construction and maintenance of the pond, via the selection and breeding of fish (carp) to the economic side, including sales. Historically, ponds have developed and disappeared according to the general economic situation, which is basically still true today. A typical example is the disappearance of a significant part of the ponds around the Elbe, giving way to profitable agricultural land, in contrast to the relatively less productive (but romantic) T\u0159ebo\u0148 region, and others. Also, the list of functions of the ponds (in addition to the original source of fish as meat once allowed during Lent \u2013 the Lent used to be 140\u2013160 days per year, of which 51 days of strict fasting) is considerably broader and generally also includes the regulation of water regime and microclimate as well as other ecosystem functions [4]. Historically, ponds were important for fortification and also in the field of unifying ownership and land use \u2013 flooding the area was a general solution. Today, recreational, sports, and other functions have been added; the other functions were already known by Charles IV and his chronicler Bene\u0161 Krabice from Weitmile. In contrast, fortification and power engineering functions, often associated with fish production, disappeared. Until the \u201csteam age\u201d, the power of water, fed by ponds, was practically the only major source of kinetic energy for mills, hammer mills, sawmills, etc. Local droughts often meant hunger because there was nowhere to grind grain.<\/p>\n
Importance of ponds and fish production today<\/h3>\n
There can be found many lists of ponds in various historical periods and regions of the Czech Republic. However, if we are looking for a systematic recording of their occurrence, we will find that there is no list or register of ponds in the Czech Republic. The basic source of information are therefore \u201conly\u201d various yearbooks, which, on the other hand, provide validated data. There is a so-called Modr\u00e1 zpr\u00e1va (Blue Report) \u2013 Report on the state of water management in the Czech Republic in 2020, published jointly by the Ministry of Agriculture and the Ministry of the Environment [5]. From it we learn only the following general data, which are repeated in other documents and differ only slightly for previous years. According to this report, there are approximately 24,000 ponds in the Czech Republic covering a total (cadastral) area of 52,000 ha. The area of ponds and valley reservoirs used for fish farming is 41,000 ha; however, the area of reservoirs is insignificant in the balance of fish farming. The total yield from the ponds is 19,300 tons of fish, with 85 % being carp. (Approximately half of the rest is taken up by the breeding of salmonid fish in flow-hrough systems, i.e. not in ponds.) By simple calculation, the average production of all Czech, Moravian, and Silesian ponds is 471 kg\/ha\/year. The given production does not include coarse fish, but with standard twoyear management, this means that during the fishing out the second year after stocking, the production or yield is 940 kg of three-year-old carp per hectare. In the chapter \u201cHow many carp should be stocked in each pond\u201d, Dubravius says: \u201cAfter choosing the carp, we must first decide on how many carp should be placed in each pond according to its size. For, if you burdened the ponds with a greater number of carp than they can support, you could also burden yourself with a loss, because fish withered and thin from hunger must also be sold at a thin and meagre price. If you stocked fewer carp in the pond than there should be, you could again suffer quite a lot of damage due to the loss of fish. However, it is possible to avoid both problems, namely by using the right amount, which is desirable for each pond.\u201d Today\u2019s yields far exceed anything the old fishermen could even imagine before World War 1 \u2013 it is the result of intensive fertilization of ponds and artificial feeding of fish at today\u2019s technological level. However, this applies to food production in general. Today, the basis for calculating the yield of the pond, or the number of fish stocked, is the so-called natural production, which is, however, much higher than before artificial fertilizers. The situation report of the Ministry of Agriculture \u201cFish 2021\u201d [6] states:
\n\u201cMore than half of the total production of the main farmed fish \u2013 common carp \u2013 is based on natural food (zooplankton, benthos), which has a high content of animal protein. The energy component of the feed ration is supplemented by unmodified cereals. That results is carp of high consumption quality.\u201d (We dare to question this optimistic statement of the producers further.) About 42 % of the fish produced are sold alive in the Czech Republic, about 47 % are exported, the rest is \u201cprocessed fish products\u201d. The average citizen of the Czech Republic consumes 1.2 kg of freshwater fish per year; if we include sea fish, it is 6 kg per year. Recorded catches \u201con the rod\u201d amount to about 3\u20134 thousand tons, again mainly carp. Therefore, if all the catches of fishing union members were eaten, theoretically a maximum of 0.4 kg of fish consumption per average citizen would be added. The given data on production, catches and consumption are supplemented by data from the Statistical Yearbook of the Czech Republic 2019 [7]. The basic document for the development of the Czech fishery, the Fisheries Operational Programme 2021\u20132027 [8], on fish consumption in the Czech Republic states: \u201cFish consumption in the Czech Republic does not change much over time and is very low (2018: 5.5 kg per person per year, or only 1.29 kg per person per year of freshwater fish) compared to the EU average (25.1 kg per person per year).\u201d The Operational programme also confirms the above-mentioned data on ponds: \u201cIn the Czech Republic, fish is bread for production by more than 93.5 % in ponds, the most represented fish is common carp (over 82 %). There are over 24,000 ponds and small water reservoirs with a total area of approximately 53,000 ha in the Czech Republic, which hold more than 420 million m3 of water. Most of the ponds that are in run today were built in the 15th and 16th centuries and are still used for fish production.\u201d<\/p>\n
METHODS AND RESULTS<\/h2>\nDatabase of ponds<\/h3>\n
The question still remains: What is hidden behind the \u201cstandard\u201d annual data \u201cThere are about 24,000 ponds in the Czech Republic with a total area of 52,000 ha\u201d? It is certainly a cadastral area, and in 2021\u20132023 we dealt with this issue as part of the project \u201cDivLand \u2013 Centre for Landscape and Biodiversity\u201d (TA CR, No. SS02030018). In the sub-task of WG C \u2013 \u201cAgrosystems and soil\u201d, part of WPC3 includes the sub-project WA C 3.3 \u201cApplication of sediments to soil\u201d, focused on the use of pond sediments as a means of improving the quality of agricultural land. One of the outputs is the \u201cMap of water bodies of the Czech Republic\u201d [9], processed primarily as a map of ponds as possible sources of sediments to improve soil quality. Like all outputs of the \u201cDivLand\u201d project, it is processed in the one kilometre network (grid) used by the European Environment Agency (EEA). As the basis for the database of water bodies, we chose the Basic Geographical Data Base of the Czech Republic (ZABAGED), Chapter 4 Water management. According to ZABAGED data, there are over 8,500 water bodies larger than 1 ha in the Czech Republic. It shows that the majority of the 24,000 ponds mentioned in the yearbooks are small ponds. For such small ponds, a significant difference between the cadastral area and the actual area of the water surface can generally be expected. It can also be assumed that their economic importance is at most local and that they do not represent a serious technical issue for handling sediments. That is why we did not include them in our database.
\nAll water bodies larger than 1.0 ha (8,728 items) are included in the database, but we did not further specify water bodies between 1 and 4.99 ha. For water bodies larger than 5 ha, we classified them into basic types according to various sources:
\n\u2014 RYB (pond): The structure has a dam and a discharge device, it is possible to fish it out, or it shows in the documents that it is kept a fishery.
\n\u2014 PN (reservoir): The structure has a dam but does not have the attributes of a pond (discharge, outfishing system, etc.).
\n\u2014 ZP (flooded area): The structure usually does not have a raised artificial dam, the surface is at the level of the terrain, a nearby watercourse, or groundwater in the floodplain. There are usually two basic types: flooded mining facilities (sand pits, gravel pits) and separate river branches.
\n\u2014 JEZERO (lake): It includes the \u0160umava lakes, regardless of possible anthropogenic interventions. They are the subject of nature conservation, i.e. outside the project area.
\nIn many cases, the inclusion of a water body in a type is not absolute; however, this should not be an obstacle to using the map and database (second generation 2023), which is generally accessible at www.dibavod.cz\/divland-rybniky-sedimenty. Under the recommended abbreviation FUKOMAT, it is already commonly used as a tool for various purposes. Anyone can download and save the database (xls) and, in case of \u201cdisagreement\u201d, send proposals for modifications to TGM WRI.<\/p>\n
Database content and comparison with general data<\/h3>\n
A comparison of our results shows that the summary \u201cyearbook\u201d data on the number and area of ponds in the Czech Republic do not contradict the data from our database. Our bottom-up analysis thus confirms the yearbook topdown data; the classic potential concerns about the existence of a \u201csecond globe inside the Earth\u201d [10], always necessary when compiling overall balance sheets, etc., were not confirmed. The unspecified share (difference) consists of small ponds (< 1 ha), which have an average area of 0.37 ha \u2013 they are therefore economically insignificant and also without fundamental issues with handling sediments. There is not a lot of available data on sediments, but it seems that the issue with their contamination applies mainly to small ponds, village ponds, etc. If their sediments were to be classified as waste, their volumes do not represent a fundamental issue for disposal, landfilling, etc.<\/p>\n
The summary of results and data comparison can be seen in ; we recommend opening the Map and Database for details.<\/p>\n
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