Construction sands of Podillya: patterns of distribution, resources and use Текст научной статьи по специальности «Строительство и архитектура»

ISSN 2617-2909 (print) ISSN 2617-2119 (online)

Journ. Geol.Geograph.

Geoecology, 27(3), 510-519 doi:10.15421/111875

M. Syvyj, B. Gavrychok Journ.Geol.Geograph.Geoecology, 27(3), 510-519

Construction sands of Podillya: patterns of distribution, resources and use

M. Syvyj1, B. Gavrychok1

1Ternopil National Pedagogical V. Hnatyuk University, Ternopil, Ukraine, syvyjm@ukr.net

Abstract. This article presents the characteristics of the resource base of building sands Received 11.09.2018; within the three Podillya regions, the patterns of sands distribution, and proposals for

Received in revised form 20.09.2018; increasing the extraction of raw materials . The construction sands of Podillya are con-Accepted 20.10.2018 fined to the Upper Cretaceous, Neogene and Anthropogenicdeposits. The decrease of the

thickness of the sandy strata of the Opilsk Neogene suite in the eastern direction was observed with the simultaneous increase in the thickness of the overlapping strata of the rocks. There is no apparent correlation between the thickness of sandy interlayers and the quality of sands. The interdependence of the chemical composition of Neogene sands and the sand size module is established.The genetic predisposition for the distribution of building sands in different parts of the Podillya territory has been established. Four groups of sand deposits of different age have been identified within the Podillya regions, which contrast sharply with single deposits in the neighbouring territories.There is a very uneven distribution of explored reserves of sandy raw materials across the region and accordingly in the provision of construction sands in the different oblasts /regions of Podillya. The areas best provided with sandy raw materials are the central districts of Ternopil region and Slavutsky district of Khmel-nytsky region . Sands of the Baltic stage distributed in Vinnytsia region are mostly poor in quality, clogged with clay material and require enrichment. The further development of the mineral raw material base and the prospects for increasing the production of construction sand in the Podillya regions is associated with the increase in production at the prepared deposits, the commissioning of reserve deposits, the conducting of prospecting and exploration work in the proposed potentially exploitable areas and additional exploration of individual deposits that are exploited. The research allows us to evaluate objectively the existing base of sand raw materials for various purposes in the Podillya region and to develop on this basis measures to increase it. The importance of the study is determined by the acute shortage of the raw material in most administrative districts of Khmelnytsky and Vinnytsia regions, by the growth in the volume of construction work (and accordingly the requirements for sandy raw materials) both in Podillya and in the country.

Keywords: sand raw materials,construction sands, book volume, inferred resources, provision of sand raw materials

Будiвельнi теки Подшля: закономпрносп поширення, ресурси, використання

М. Сивий1, Б. Гавришок1

1Teрнопiльський нацюнальний педагогiчний ушверситет iMeni Володимира Гнатюка, м. Тернотль, Украина, syvyjm@ukr.net

Анотащя. Подано характеристику ресурсно! бази будiвельних шсюв у межах трьох подшьських областей, 3aKOHOMipHOCTi поширення шсюв, пропозицп щодо нарощування видобутку сировини. Встановлено, що будiвельнi тски Подшля приурочен до вiдклaдiв верхньо! крейди, неогену та антропогену. Простежено зменшення потужност тщаних верств опшьсько! свт неогену у схвдному напрямку з одночасним зростанням потужностей перекриваючих товщ порщ. Видимого взаемозв'язку мiж потужтстю тщаних проверстюв та яюстю шсюв не виявлено. Установлюеться взаемозалежтсть хiмiчного складу неогенових шсюв i !хнього модуля крупность Установлено генетичну зумовлетсть поширення на теренах Подшля будiвельних шсюв piзного призначення - в межах подшьських областей виявлено чотири угруповання родовищ шсюв piзного вку, як piзко контрастують з поодинокими покладами на сусщтх теpитоpiях. Встановлено дуже неpiвномip-ний розподш розвщаних запаЫв тску будiвельного по територп репону й, вщповщно, piзну забезпечетсть ними окремих адмшютративних одиниць подшьських областей. Найкраще забезпечет тщаною сировиною центральт райони Тернопшь-сько! та Славутський район Хмельницько! областей.Шски балтського ярусу, поширеш на Вшниччиш, в основному дpiбнi, зaсмiченi глинистим мaтеpiaлом та потребують збагачення.Подальший розвиток мтерально-сировинно! бази та перспекти-ви зростання видобутку будiвельного тску в подшьських областях пов'язуються з нарощуванням обсяпв видобутку на тдготовлених родовищах, введенням у експлуатащю резервних родовищ, проведенням пошукових та розвщувальних роб^ на запропонованих перспективних площах, дорозвщкою окремих родовищ, яю експлуатуються.Здшснене дослщження дозволяе об'ективно ощнити наявну базу будiвельного тску piзного призначення в подшьських областях, розробляти на цш

Journal of Geology Geography and Geoe-cology

Journal home page: geology-dnu-dp.ua

основi заходи для И нарощування. Важливiсть дослiдження визначаеться гострим дефщитом охарактеризовано! сировини у бшьшост адмiнiстративних районiв Хмельницько! та Вшницько! областей, зростанням обсягiв будiвельних роб^ (i, вщпо-вiдно, потреб у будiвельному пiску) як на Подшл^ так в кршш загалом.

Ключовi слова: пщана сировина, будiвельнi теки, балансовi запаси, прогнозт ресурси, забезпечетсть пщаною сировиною

Introduction. The Podillya region (Ternopil, Khmelnytsky and Vinnytsia regions) is relatively poor in explored reserves of construction sands (5.9% of the explored reserves in Ukraine). In addition, the distribution of deposits across the territory is rather uneven, which requires the transportation of raw materials across considerable distances bothwithin the region and from the neighboring territories as well.The latter has a significant effect on the cost of sand. The extraction from the local explored deposits has increased somewhat in recent years (1,114 thousand m3 in 2017 compared with 701 thousand m3in 2010), but this is not enoughto meet the growth in the volume of construction work both in the region and in the country in general. Therefore, we consider that conducting research aimed at generalizing the available information on the present state of the raw material base of construction sand for various purposes in the regionisof current and urgent interest.

Purpose of the article. The tasks performed by the conducted research were as follows: a) to establish thepatterns ofdistribution of sandy deposits of different ages, their functions and genesis on the territory of Podillya regions; b) toanalyze the degree of exploration of Podillyasandy deposits; c) to establish the provision ofbuildingsandfor different purposes to administrative units of the region; d) to propose some possible ways to increase the raw material base and to increase the production of building sands in the region. Materials and methods of the investigation. It should be noted that there are very few published materials on the stated problem and almost all of them were published before the 1990s, when some exploration work on construction raw materials was widely conducted in the above mentioned areas. We can distinguish a number ofrecent papers where some aspects of the problem were considered(SyvyiM.Ya., 2004;SyvyiM.Ya., Paranko I.S, Ivanov Ye, B., 2013; Syvyi M.Ya., Havryshok B.B., 2016; Kitura V.M., Syvyi M.Ya., 2016; Syvyi M.Ya.etal., 2017).The questions of scientific-methodological and methodological support for research on mineral resources in general and of construction raw materials in particular have been discussed in the following publications (Hry-horovysch M.B, Nemyrovskaia M.H., 1987; Korghnev M.M., 2003; Mychailov V.A. et. al., 2011; Michshenko V.S., 2011; Paranko I., Burman L., Jarkov S., 2011; Rudenco L.H. et. al., 2004;

Rudco H.I., Kurylo M.M., Radovanov S.V., 2011; Syvyj M.Ja., 2009 etal.).

The basis for conducting the research and writing the research paper was the stock materials of the SRDE Geoinform of Ukraine and its local departments. The research was conducted in the context of the budget topic of the Geography Department of Ternopil National Pedagogical University named after V. Hnatiuk "Complex geographic studies of natural and economic geosystems in Po-dillya region". Traditional methods were used: collection of actual materials for the formation of the data on the construction sands deposits in the region, analytical work related to systematization and generalization of the collected stock materials, designing of cartographic models, etc. Research results. In the territory of Podillya, construction sands are confined to deposits of the Cretaceous, Neogene and Quaternary series.

The sands of the Cenomanian stage of the Upper Cretaceous are distributed in the extreme southwestern part of Ternopil region and in the northwestern part of Khmelnytskyi region, in the valley near the Horyn River. The sands are earthy-grey and greenish-grey, quartz-glauconite, often argillaceous, sometimes with inclusions of flint pebbles, mostly fine-grained; in the valley near the Horyn River they are with thin interlayers of sandstone. As a rule, they are of smallthickness. Ada-mivske-2 deposit of glauconite-quartz sands in Yarmolyntsi district of Khmelnytskyi region has been explored, the stocks are approved by the State Commission of Ukraine in 2017, and the deposit is prepared for industrial exploitation.

The sands of the Badenian stage of the Neogene series are distributed in the southwestern, western and central parts of Ternopil region and are represented by deposits of two formations: Opillia and Kosiv, according to the nomenclature adopted by geologists-industrialists.

The Opillia formation of the Middle Miocene is composed of the sediments of several genetic types: argillaceous-calcareous-sand, algal, organo-genic-fragmental, sand and calcareous-sand. Sandy sediments were formed in the tidal sea area. The sands of Opillia formation are quartz, fine-grained and very fine-grained, argillaceous,some sections are ferruginized, light grey, yellowish-brown and dark grey. Their thickness varies widely - from 22.5 to 12-18 meters. According to the physical-mechanical analysis, the content of particles larger than 0.63 mm in the sands is usually less than 1%,

although in some areas it reaches 3-11 %, and the content of particles smaller than 0.11 mm in most cases does not exceed 10-12%. The size module of sand varies from 0.4 to 3 the content of clay particles is from 0.5 to 12%. The thickness of the overburdenis 2-16 m in the explored and examined deposits (Syvyi, 2004).

There is a clear interdependence between the content of different size particles and the chemical composition of sands: with an increase in the content of particles smaller than 0.16 mm, the content of silica is drastically reduced and the content of alumina is increased. This revealed feature can be used to predict the qualitative characteristics of sands in the new and less explored areas. There is no visible interconnection between the thickness of the sand layers and the quality of sands. However, we can clearly see a decrease in the thickness of the

sandy layers in the eastern direction with the simultaneous increase in the thickness of the covering earth formations (Syvyi, 2004).

Within Ternopil region, 20 deposits with reserves of more than34 million m3by A+B+C1categories and 20 occurrences of sands, which were examined with tests for physical and mechanical analysis, with inferred resources of more than 11 million m3are connected with the deposits of Opillia formation (Table 1). As has been already mentioned, they are located mainly in the southern, western and central districts of the region.

Several deposits are also found in Husiatyn, Pidvolochysk and Kremenets districts of the region, and they are referred to Kosiv formation of the Middle Miocene (Yablunivske, Maloberezhtsivske).

Table 1. Stratigraphic confinement of deposits and occurrences of construction sandsin Podillya*

Region The quantity of deposits and occurrences Distribution in the region (districts)

Stratigraphic taxa Exploredreserves, thousandm3 Inferred resources, thousandm3

Ternopil region Upper Anthropogenic (Qui) 4/8190 1/150 Buchach, Shumck

Lower and Middle Anthropogenic (Q-n) - 2/65 Zboriv, Borshchiv

Sarmatian stage Miocene (N1s) 16/23350 10/835 Lanivtsi, Terebovlia, Ternopil, Chortkiv, Shumsk

Kosiv formation (N1ks)

Badenian stage Miocene 2/3382 1/75 Husiatyn, Kremenets, Pidvolochysk

Opillia formation (N1op) Badenian stage 20/34170 20/11280 Berezhany, Borshchiv, Buchach, Zalishchyky, Zbarazh, Kozova, Zboriv

Miocene

Cenomanian stage Cretaceous series(K2) 1/130 - Monastyryskyi

Khmelnytskyi region Recent beds (QIV) 3/9800 - Slavuta

MiddleandUpperAnthropogenic (Qn-Qm) 26/59500 6/2700 Bilohiria, Iziaslav, Kamianets-Podilskyi, Po-lonne, Slavuta, Shepetivka

Sarmatian stage Miocene (N1s) 9/18000 16/6300 Vinkivtsi, Horodok, Kamianets-Podilskyi, Polonne, Stara Syniava, Chemivtsi

Vinnytsia region Upper Anthropogenic (QIII) 19/9150 9 Haisyn, Bershad, Illintsi, Pohrebyshche, Tros-tianets, Chechelnyk

Middle Anthropogenic (QII) 6/13500 2 Lypovets, Haisyn

Baltian formation Miocene-Pliocene (N1-2bl) 10/15700 6 Vinnytsia, Nemyriv, Zhmerynka, Teplyk, Tyvriv, Chechelnyk

Sarmatian stage Miocene (N1s) 6/5940 19 Mohyliv-Podilskyi, Murovani-Kurylivtsi, Pishchanka, Tomashpil, Tulchyn, Chernivtsi

*Data from Geoinform of Ukraine

The sands are quartz, light grey, greenish-grey, very fine-grained and fine-grained with inter-layers of sandstones and clay. Their thickness varies from 5 to 16 m, and the explored reserves exceed 3 million m3.

The sands of Sarmatian stage are widespread in the territory of all three regions of Podillya.

In Ternopil region they have been explored and are being exploited in Ternopil, Terebovlia,

Chortkiv, Lanivtsi, and Shumsk districts. The sands are mostly quartz, consertalwith a predominance of fine fraction (the size module is often 0.4-2.0), light grey, greenish grey, sometimes with a brown or yellowish tint, with the interlayers of clayand sandstones. Often the explored reserves of sands (for example, in Ternopil region: Ternopil, Chystyliv, Shliakhtyntsi deposits) in their natural state (without enrichment) do not meet the requirements of the

existing state standards for sands as fillersfor concrete, construction mortars, and materials for road construction due to the low size module, large content of grains less than 0.16 mm, and large content of argillaceous, muddy and dusty particles. In the region, 16 deposits of Sarmatian sands with total reserves of more than 23 million m3 have been explored, and another 10 deposits have been inspected and their inferred resources are not great (Table 1).

In Khmelnytskyi region, 9sand deposits explored in detail and 2 previously explored ones are connected with Sarmatian formations. They are located in Iziaslav district (Novosilkivske and Piv-neva Hora withreserves of more than 14 million m3by C1+C2 categories) and 16 occurrences (the inferred resources are more than 6 million m3) are found in Vinkivtsi, Horodok, Ka-mianets-Podilskyi, Polonne, Slavuta and Shepetivka districts. The sands are mostly white, light grey, dark grey, yellowish-grey, consertal with the predominance of fine-grained. In the sand series, the interlayers of thick dark brown coal clay and cobbles can be seen. Sometimes the sands are with a large amount of clay material. Their thickness varies widely - from several meters to 15-20 m, sometimes even more. The deposits of Sarmatian sands in the northern parts of the region can be of great interest, where they often lie directly under the sands of Anthropogenic age, which contributes to their joint development.

In Vinnytsia region, the reserves of 6 explored deposits in Mohyliv-Podilskyi, Tomashpil and Yampil districts with sand reserves of more than 5,940 thousand

m3

and 19 surveyed occurrences in Murovani Kurylivtsi, Pishchanka, Tulchyn and Chernivtsi districts are connected with the Sar-matian deposits. The sands are quartz yellowish-gray, white, greenish-grey from fine-grained to coarse-grained, but mostly their size module is 1.02.1. They often meet the requirements of State Standard of Ukraine B V. 2.7-32-95 (Instrukcia .., 2007). In some cases they are suitable for the production of silicate bricks (Israilivske depo-sit).Sometimes,due to the large content of clay particles and the low size module, they need to be enriched for usage in construction mortars (Komar-horodske, Rakivske deposits).

The sands of the Baltian Miocene-Pliocene formation are distributed exclusively in Vinnytsia region, in its central and southeastern parts: Zhme-rynska, Nemyriv, Tyvriv, and Chechelnyk districts. 10 sand deposits of Baltian stage with totalraw materials reserves of about 16 million m3have been explored. 6 investigated occurrences, the reserves of which have not been evaluated, have been found as well. The sands aregrey and greenish-grey, finegrained and medium, with the large content of clay

fraction, and their average thicknessis up to 2.0-3.0 m. The size module is preferably 1.0-2.0. In their natural state they mostly do not meet the requirements of State Standard of Ukraine B V. 2.7-32-95 (Instrukcia .., 2007) due to the large content of clay particles and can only be used afterenrichment (Sy-vyi, Paranko & Ivanov, 2013).

Sand deposits of the Quaternary agecan be found mostly in Khmelnytskyi and Vinnytsia regions. In Ternopil region there is only one explored depositwith small reserves in Buchach district. Another 3 surveyed deposits with small inferred resources have been found in Shumsk, Zboriv and Borshchiv districts as well.

The main sand reserves of the Quaternary ageare located in Slavuta district of Khmelnytskyi region, and partially in other northern parts of this region such as Bilohiria, Iziaslav, Shepetivka, and Polonne districts. The total explored sand reserves of the Middle and Upper Anthropogenic are estimated at over 59 million

m3

of raw materials, and another 2.7 million m3belong to the inferred resources in 6 surveyed deposits (Table 1). The sands of the Middle-Upper Anthropogenic of two genetic types are alluvial and fluvioglacial. The first are formed mainly in the valleys nearsuchrivers as the Dniester, the Horyn, theKhomory. They are composed mainly of fine-grained and medium quartz, light grey, yellowish-grey sands, often with the gravel interlayers, sometimes with impurities of calcareous particles, and clay material. The sands are mostly conditioned, high-quality, suitable for various types of construction works, as concrete fillers, silicate bricks, etc. (Instrukcia.., 2007). Fluvioglacial sands occupy large areas in Slavuta district. These are quartzvery fine-grained and medium sorts, sometimes very argillaceous. The size module is mostly 0.3-2.0. The sands are conditioned. Their thickness varies from several meters to 10-15 m, the depth of occurrence is small (Syvyi, Paranko & Ivanov, 2013).

In Vinnytsia region, the sands of the Upper Anthropogenic are also represented by two genetic types: alluvial and fluvioglacial. Alluvial sands are confined to the deposits of I-III terraces above the floodplain and are distributed along the valleys near such rivers asthe Dniester,the Pivdennyi Buh. Also, they can be found in the valleys near small rivers likethe Sob, the Savranka, and others. The sands are quartz, fine-grained and medium, mostly yellowish-grey, brownish-yellow, grey with gravel and pebble inclusions, with a thickness up to 6 m. The size module varies from 0.8 to 3.4. Their quality often meets the requirements of the State Standard 873685. Some deposits (Lukashivske, Skybynetske, Be-rizko-Chechelnytske, etc.) need to be enriched. 19 sand deposits of such type have been explored

mainly in Bershad, Haisyn, Trostianets, and Che-chelnyk districts. (Syvyi, Paranko & Ivanov, 2013).

The fluvioglacial sands are found mainly in the northeastern part of the region and are represented by consertal, often fine-grained and medium varieties, and quartz. Sometimes they are argillaceous with a low size module. As a rule, these sands need to be enriched. There are noex-plored deposits.

Three deposits (Polonske, Repyshchenske and Slavutske-1) related to recent sediments (Q1v) have been explored in the valley near the Horyn River in Slavuta district of Khmelnytskyi region. Their total reserves are estimated at 9.8 million m3. The sands are quartz, fine-grained and medium, light grey, grayish-white, sometimes with a pink tint. The size module is 1.0-2.1. The sands are intended for filling concrete and construction mortars.

Nowadays, in the territory of Podillya, 120 construction sand deposits have been explored and included in the asset list. The total amount of reserves by the categories A + B + C1 exceeds 191 million m3 (Korpan N.W. et al., 2018). As of 01.01.2018, 55 deposits of these typeswere being exploited, and 65 were in reserve. In the region, 11 deposits have been explored before (reservesare over 79 million m3by the categories C1+C2) and 9 deposits have been searched (reserves are more than 17 million m3by C1 category).

113 surveyed deposits are also found, the inferred resources of which were estimated in Terno-pil and Khmelnytskyi regions and exceed 26 million m3. The inspected deposits are periodically exploited by private individuals forlocal necessities and there ispracticallyno information about the movement of reserves.

The sand deposits are usually small, with reserves of less than 10 million m3. There are only 7 deposits with the average reserves (approximately 10-15 million m3), 4 of them are included in the asset list, 3 deposits have been previously explored and one large deposit with reserves of more than 15 million m3is in Khmelnytskyi region (Solo-viivske).

As we can see in Figure 1, which identifies the explored and surveyed sand deposits of Podil-lya, their distribution within the above-mentioned territory is rather uneven. Visually,some separated clusters of deposits are shown up in the central, western and southeastern parts of Ternopil region, in the northern parts of Khmelnytskyi and, partially, Ternopil regions, in the central and southern parts of Vinnytsia region. The location of sand deposits on the territory of Podillya is genetically predetermined. Thus, we can consider a zone of mainly alluvial sands of the Quaternary age as a whole, which extends along the Dniester through the

southern districts of Podillya (Monastyryskyi, Buchach, Zalishchyky, Borshchiv, Kamianets-Podilskyi, Murovani Kurylivtsi, Mohyliv-Podilskyi, Yampil, Pishchanky, Chechelnyk). Another group of deposits clearly stands out in the central and western parts of Ternopil region. These are the Ba-denian sands of Berezhany, Zboriv, Kozova, Terno-pil and Zbarazh districts. A very compact group of explored and surveyed deposits of alluvial and fluvioglacial sands of the Pleistocene is located in the north of Khmelnytskyi region. These are the deposits of Slavuta, Bilohiria and Iziaslav districts. And, finally, the fourth group of deposits associated with those of Miocene-Pliocene Baltian formation and Middle and Upper Anthropogenic occupies the central and eastern parts of Vinnytsia, in particular Vinnytsia, Tyvriv, Teplyk, Lypovets and Pogre-byshche districts. These four groups of deposits are quite clearly distinguished in the picture and contrast with the single occurrences or the complete absence of sandy raw materials in the neighbouring territories.

We provide some more information which is demonstrated by Picture 1 - a relatively small number of deposits which are exploited together with the explored reserves and a significant number of searched deposits, wherethe undiscovered reserves are exploited periodically. Of course, it is an alarming situation that has occurredin recent years and-needsimmediate resolution.

In Ternopil region, among 43 sand deposits included in the asset list, 26 were exploited with the reserves of 30.3 million m3by A+B+C1 categoriesin 2017 (Korpan N.W. et al., 2018).

Thus, 17 deposits withthe supplies of 38.9 million m3 form a reserve in the region. Besides, 3 deposits with total reserves of 9 million m3have been previously explored. These deposits can be considered as priority sites forcon-ducting detailed exploration work and further commissioning. Another 4 deposits of the region are being searched and 39 have been already surveyed. The majority of sand deposits are located in two southern districts - Zalishchyky and Borshchiv, but they have been surveyed only and are classified as small ones.

The deposits of industrial interest are located mainly in three districts: Zbarazh, Ternopil, and Terebovlia. Here the main amount of balance reserves of the region's sands is concentrated. First of all, these are such deposits as Chernykhovetske and Zarudechkivske in Zbarazh, Chystylivske in Terno-pil, and Volytske in Berezhany, and other districts. The last two deposits are not currently being exploited.

There is also a group of sand quarries directly close to the consumers which areconstruction or-

ganizations. For instance, we can see this in such towns as Berezhany, Chortkiv, Ternopil, Zbarazh, Terebovlia and Shumsk. Such location of deposits creates certain conveniences in their exploitation and contributes to the cost reduction of sand.

Figure 2 shows the density of distribution of the explored reserves of construction sands in Podil-lya and their provision to separate administrative districts. In Ternopil region, the largest concentrations of construction sands per unit of the territory are observed in Zalishchyky and Berezhany dis-

tricts. A high saturation of the territory with raw materials is also found in Ternopil and Zbarazh districts. In all other regions, the figures of saturation vary in the range of 0.7-33.2 m3/ha. Monasty-ryskyi, Pidhaitsi, Zboriv and Pidvolochysk regions are completely devoidof exploredsand reserves. Zalischyky, Berezhany and Zbarazh districts are also famous for the provision of sand (the share of explored reserves per person of the district). All other areas are very poorly provided with this kind of raw material - 0.8-46 m3/person.

Legend:

ia Detailed explored

the deposit. Large, medium, smalj

III Pre-explored deposits. Large, medium, small A Minor deposits are fermented • Small deposits, examined and with spent stocks

Fig. 1. Distribution and exploration of construction sand deposits in Podillya

Provision of raw materials population of districts, nf/person

O not secured

® 0,7-10

Density of distribution of raw materials byS ^Q^lthoufstocks Balance reserves of deposits, thousands mJ: □ 0,2-5,0

□ 5,1 -10,0

□ 10,1 -100,0 □ 100,1 - 535,4

5000,1 -64250,4 1500,1 - 5000,0 I 500,1 - 1500,0 I 25,1 -500,0

Fig.2. Distribution of reserves and provision with construction sand of the administrative districts of Podillya

The majority of explored sand reservesin the region are suitable only for productionof construction mortars (more than 31 million m3). Theirmain part is located in Berezhany, Ternopil and Zalish-chyky districts, some small reserves can be found in Husiatyn, Kozova, Terebovlia, Shumsk districts.

The sand reserves that are suitable for production of silicate bricks amount to a little more than 24 million cubic meters in the region and their main deposits are connected with Chernykhovetske deposit in Zbarazh, Chystylivske - in Ternopil and Novosilkivske - in Zalishchyky districts. Malobe-rezhtsivske deposit in Kremenets district has some lessreserves.

Sand for concrete, silicate blocks and bricks is found only in Zarudechkivske deposit (Zbarazh district).

In addition, in the region there are certain sand reserves for concrete, construction of roads and building mortars of 3.6 million

m3

(small deposits in Zbarazh, Ternopil and Terebovlia districts).

On valuable arable lands in the region there are over 32 million m3 of sand reservesthat cover an area of more than 281 hectares, andmake some difficulties while conductingextraction operations. More than 40 million cubic meters of raw materials are located on non-arable lands and in the forests, with a total area of 275 hectares. The deposits on unoccupied territories are considered as a priority forfuture developments.

The exploitation of deposits is mainly carried out by commercial structures. The largest volume of production (66.8 thousand m3) was recorded at Zarudechkivske deposit in 2017, where the private enterprise "Grafit" extracts sand for silicate blocks, silicate bricks and construction mortars.

In total, in 2017, 356.6 thousand m3 of sand raw material was extracted in the region (Korpan N.W. et al., 2018).

In Khmelnytskyi region, as of January 1, 2018, 14 sand deposits with the approved reserves (20.2 million m3) were exploited, 22 more deposits with the potential of more than 57 million m3 were in reserve (Korpan N.W. et al., 2018). In addition, two pre-explored deposits with medium-sized reserves are found in Iziaslav district of the region: Novosilkivske deposit with the reserves of 13,200,000 m3 by C1 category, which is located in a wetland, and the deposit Pivneva Hora with reser-vesof 13,032,000 m3 byC1 category, which is located in a forested area. Both deposits are promising for detailed exploration work. In the region, there are 5 well-known searched deposits located mainly in Kamianets-Podilskyidistrict (alluvial sands), fine sands with reserves in of 8,256 thousand

m3

by C1+C2 categories. One deposit (Bilotynske) is undergoingresearch work in

Iziaslav district (C1+C2- 5,821 thousand m3). The investigated deposits are not being exploited. Moreover, in Khmelnitskyiregion 35 deposits (occurrences) of construction sands were ex-amined.They are usually finewith total inferred reserves of over 14 million m3. Some of them are periodically developed by private individuals for local needs (unauthorized extraction).

The distribution of construction sand deposits on the territory of the region is extremely uneven (Picture 1). Almost all explored reserves are located in Slavuta (95%) and, partially, in Kamia-nets-Podilskyi districts. Many small surveyed deposits with few reserves are also found in Bilohiria district. In most districts of the region, 2-3 small deposits are usuallysurveyed, and such districts as Krasyliv, Khmelnytskyi, Starokostiantyniv, Syn-iavtsi, Derazhnia, Yarmolyntsi (central) are completely devoid of construction sands.

Slavuta district is clearly distinguished due to the number of balance reserves.There are 18 deposits explored in detail with total reserves of over 64.2 million m3 by A+B+C1 categories, 7 of which are being exploited (total reserves are over 43 million m3). According to the dimensions of reserves, such deposits as Horyn-Krupetske, Re-pyshchenske, Slavutske, Soloviivske are distinguished. The last two are not being exploited. Some smaller reserves are found in two previously explored deposits of the neighboring Iziaslav district.

Only one district Slavuta(586.2 m3/person)is rich in explored reserves of construction sand.In Kamianets-Podilskyi and Polonne districts,this kind of raw material can be partially found as well (8.5 and 8.6 m3/person). In such districts as Horodok, Letychiv, Iziaslav, Chemerivtsi, Shepetivka, Nova Ushytsia,the supplies are 0.7-7.4 m3/person. Other districts of the region have no reserves of construction sand. A similar situation is observed when considering the territory's saturation of sand reserves (picture 2).

The largest reserves of raw materials suitable onlyfor usage in construction mortars are concentrated in two deposits of Slavuta district - Repsh-chenske (over 8 million m3) and Slavutske (8 million m3). In the same area, the main sand reserves for silicate brick have been found (Krupetske deposit with reserves of about 15 million m3 of sand; it is not being exploited). In Slavuta district, thelarge sand deposit suitable for silicate blocks and bricks is Soloviivske with reserves of more than 15 million

m3

.It has been explored. It is the only one in the region and it is not being exploited now.Some more deposits are also found in the region: a sand deposit for the road construction and construction mortars (Horyn-Krupetske, more than 3.8 million m3), two sand deposits for concrete and construc-

tion mortars (Polianske and Starytsia-2 with total reserves of

38 million m3) and small deposits of sand, which can be used only for concrete, or for concrete, silicate blocks and bricks. Thus, in the region there is a shortage of quality sands for concrete, road surfacing but sands for construction mortars are widely distributed .

The deposits with balance reserves in the region occupy 267.6 hectares of arable land, in addition, another 32 hectares of productive land is under the deposits which are only being searched. At the same time, about 200 hectares of land are occupied by reserves of deposits that are currently under development. More than 16 million cubic meters of balance reserves, that is about 166 hectares of land, are located on non -arable land. Additionally, 116 hectares of non-agricultural land are occupied by pre-explored deposits (more than 13 million cubic meters of sand). Another 17 million cubic meters of balance reserves are located in forested areas (157 hectares); and 13 million cubic meters of the explored deposits in Iziaslav district (72 hectares) are in the forest area. So, the distribution of sand reserves on the territory of Khmelnytskyi gives hope that in the near future they will be exploited without significant losses tothe agricultural lands in the region.

In 2017, the extraction from the explored reserves amounted to 683.6 thousand

m3

of raw materials, which significantly exceeds the production in the neighbouring Ternopil and Vinnytsia regions during the same period.However, in fact, it is very small (for comparison, in 1992, 1,146 thousand

m3

was extracted from the explored balance reserves). The largest extraction volumes wererecorded in two deposits of Slavuta district - Horyn-Kropetske and Polianske, where sand is extracted for concrete and building mortars. All sand mining in the region is concentrated in Slavuta district.

The deposits of Slavuta district are exploited by private enterprises and, partially for construction of the Khmelnytskyi Nuclear Power Plant. The sand is used for the production of silicate bricks and blocks, for making concrete, construction and plaster mortars. Only Horyn-Krupetske and Repysh-chenske deposits are provided with explored reserves for the long term; other fields need additional research or searching for new promising areas.

In Vinnytsia region, among 41depositsexplored in detail and included in the asset list, only 15 of them with reserves of more than 12.2 million m3 were developed, as of 01.01.2018 (Korpan N.W. et al., 2018).

In the region, 26 balance deposits with capacity of more than 32.3 million m3 are included in the reserves. Moreover, 5 pre-explored deposits

with the reservesof over 34 million m3 by C1 + C1 categories have been found. One of them (Pobirske) is large, located in Teplyk district. There are four other deposits, one of them (Sosonske-3) is also large, located in Vinnytsiadistrict. 39 sand deposit-sin the region are considered to be preliminarily surveyed and they are periodically used to work outthe unapproved reserves. Data on production volumes in these fields are absent.

As can be seen in Picture 1, the majority of the explored and searched deposits are located along the Dniester in the southern parts of the region: first of all, in Mohyliv-Podilskyi, as well as Murovani-Kurylivtsi, Tomashpil, Yampil, Pish-chanka, Teplyk, Chechelnyk districts. All deposits are small, as a rule, theirsupply volume does not exceed 2 million m3, except Lukashivske deposit in Trostianets district, which has average reserves. One more group of deposits is stretched like a narrow band through the central districts of the region: Tyvriv, Vinnytsia, Lypovets, Pohrebyshche districts. These are mainly the sands of the NeogeneBaltian formation, rarely - alluvial and fluvioglacial sands. The deposits have a small supply volume. Vinnytsia district (6.0 million m3), Trostianets district (12.0 million m3), Tyvriv district (4.6 million m3) and Mohyliv-Podilskyidistrict (3.9 million m3) stand out for their balance reserves among the administrativedistricts.

In many districts (Haisyn, Chechelnyk, Yampil, Tomashpil, Chernivtsi, Tulchyn, Pohre-byshche, Kalynivka and Murovani Kurylivtsi) the total sand supplies range is 0.3-2.5 million m3. In some areas, mostly northern ones, there are no sand reserves at all. (Picture 2).

Trostianets (184.4 m3/person) and Tyvriv (87.5 m3/person) areas are best provided with sand l. Other areas are poorly provided with this type of raw material (1.3-48.5 m3/person) (picture 2).

In the region, 12 deposits of sand for construction mortars have been explored, their total reserves exceed 12 million m3. Two small deposits are being exploited.

One sand deposit with average reserves (9.5 million m3) for silicate blocks and bricks has been found. It is Lukashivske. In general, 7 deposits of sands for the production of silicate bricks and blocks were explored. All of them are small. The sands of other deposits are suitable mainly for construction mortars, concrete and road construction.

The explored balance reserves of the deposits occupy 199 ha of arable land, 103 ha of which are on exploited fields. Another 72 hectares of arable land are occupied by previously explored deposits. On non-arable land there are only 9 million m3 of balance reserves (90 hectares) and about 16 million cubic meters of the reserves of previously explored

deposits (51 hectares). Besides, a certain amount of the balance reserves (about 3 million m3) is found in the forested areas and occupies more than 72 hectares; previously explored deposits in the forest area cover 21 hectares of land.

In 2017 extraction was actually carried out in four deposits: Hunchanske, Zherebylivske, Zhu-ravske, and Tyvrivske. The total production amounted to 116 thousand m3. Conclusions and recommendations. 1. It has been established that the majority of construction sand depositsof Podillya for different purposes are confined to Quaternary (Anthropogenic) sediments, Badenian, Sarmatian and Baltianformations of Neogene and, partially the Cenomanian deposits of the Cretaceous series. Nowadays the latter are explored only within Adamivskeglauconite-quartz sanddeposit.

2. It was found that the location of the sand deposits in Podillya is genetically predetermined. Thus, a strip of mainly alluvial sands of the Quaternary age is distinguished as a single whole, which extends along the Dniester through the southern parts of Podillya. Another group of deposits clearly stands out in the central and western parts of Ternopil region. These are the Badenian sands of Berezhany, Zboriv, Kozova, Ternopil and Zbarazh districts. A very compact group of alluvial and fluvioglacial sands ofthe Pleistocene is located in the northern regions of Khmelnytskyi-the deposits of Slavuta, Bilohiria and Iziaslav districts. One more group of deposits, mainly associated with the deposits of Miocene-Pliocene and AnthropogenicBaltianformation, stretches like a narrow strip through the central districts of Vinnytsia region - Tyvriv, Vinnytsia, Lypovets, Pohrebyshche. These four groups of deposits are in contrast to the isolated occurrences or the complete lack of the explored reserves of construction sands in the neighbouring territories.

3.There is a clear interdependence between the content of different size particles and the chemical sand composition of Miocene Opillia formation on the territory of the explored region: with an increase in the content of particles smaller than 0.16 mm, the content of silica is drastically reduced and the content of alumina is increased. This revealed featureof sand formation can be used to predict the qualitative characteristics of sands in theunexplored parts of West Podillya.

4.There is no visible interconnection between the thickness of the sand layers and the quality of sands of Opillia formation. We can clearly see a decrease in the thickness of the sandy layers formation in the eastern direction with the simultaneous increase in the thickness of the covering earth formations (Syvyi, 2004).

5. The central and southern districts of Ternopil regionsuch as Zbarazh, Ternopil, Berezhany, Zalishchyky, Slavuta district of Khmelnytskyiregion, as well as the central and southern districts of Vinnytsia region such asVinnytsia, Tyvriv, Lypovets, Trostianets and others are provided with the explored reserves of construction sands for different purposes best of all. A significant shortage of sandy raw materials is recorded in most parts of Khmelnytskyi.The sand deposits of Vinnytsia region haveusually small reserves, and, in addition, because of the high content of clay fractions they often need to be enriched (Baltianformation, Sarmatian stage).

6. The explored (and exploited) sand deposits used mostly for production ofconstruction mortars, road construction and provision of public services and utilities, recultivation and territorial usage predominate in all three regions. There is less sand for silicate products, and bricks.In Khmelnytskyi region there is a lack of high-quality sand for concrete androadconstruction. InVinnytsiathere is a lack of sand for silicate products, and road construction.

7. In our opinion, the further development of the raw mineral base of construction sands in Ternopil region can be done by: a) increasing the volume of sand extraction, primarily on the prepared deposits, in particular, Chystylivske, Shliakhtynetske, Berezhanske and others; b) the commissioning of reserve deposits such as Maloberezhtsivske, Novosilkivske, Volytske, etc., c) carrying outexploration works on some occurrences of sands with unapproved reserves (Lysovetsky, Yosyfivsky, etc.), d) conducting searches within promising areas (Kolodno-Selyshchanska of Zbarazhdistrict, Kuty-Vaskivetska, Letovyshchenska and Tsetsenivska of Shumskdistrict).

The prospects for construction sand production in Khmelnytskyi region are connected, first of all, with the commissioning of balance reserves of such deposits of Slavuta district as Krupetske, So-loviivske and others. The increase in industrial supplies should be expected after the detailed work on previously explored deposits of Iziaslav district (Novosilkivske, Pivneva Hora).

In Vinnytsia region, the extraction can be increased by commissioning thethoroughly explored deposits, as well as the additional research onpre-exploredones with their subsequent exploitation. First of all, this concerns such large deposits as Sosonske-3 in Vinnytsia and Poborske in Teplyk districts, which are located on non-arable lands and forested areas. The growth of sand reservescan be achieved by carrying out exploration works on the promising areas and additional research onthe ex-

plored deposits: a) in regions of Baltian deposits development (Vinnytsia, Zhmerynka, Tyvriv, Tep-lyk, Chechelnyk districts); b) in the areas of the alluvial deposits formation (mainly in the central and northern parts of the region), d) in the areas rich in Sarmatian deposits (the southern and southwestern parts).

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