TY  - JOUR
AU  - Eulenstein, Frank
AU  - Salnjikov, Elmira
AU  - Lukin, Sergey
AU  - Sheudshen, Askhad
AU  - Rukhovich, Olga
AU  - Schindler, Uwe
AU  - Saparov, Galymzhan
AU  - Pachikin, Konstantin
AU  - Thielicke, Matthias
AU  - Behrendt, Axel
AU  - Armin, Werner
AU  - Životić, Ljubomir
AU  - Müller, Lothar
PY  - 2022
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/6684
AB  - Climate change in Europe will lead to new precipitation patterns over the coming years and the annual temperature will increase significantly. These changes in climate variables and the resulting effects on agricultural productivity must be differentiated regionally. Plant production depends on sufficient rainfall in summer and, in some regions, on the amount of rainfall in winter. In Central Europe, the amount of precipitation in summer will
decrease in the coming decades due to climate change, while in some regions, the amount of winter precipitation will increase significantly. Agricultural production is likely to suffer severely as a result of rising summer temperatures and low water retention capacities in the soil. The effects of reduced summer precipitation and increased air temperatures are
partially offset by the expected increased CO2 concentration. Therefore, the effects that changed climatic conditions have on crop production are sometimes less drastic in terms of crop yields. The greatest impact of climate change on land use is expected from increasing evapotranspiration and lower amounts of precipitation in the production of leachate. In addition to the expected mean changes, the occurrence of extreme weather conditions is
key. Periods of drought in the growing season and heavy flooding as a result of extreme rainfall are to be expected. However, these events are very difficult or even impossible to predict. In addition to the effects that climate change will have on regional crop production, global changes will have a strong impact on world markets for agricultural products. Another consequence of climate change and population growth is a higher demand for agricultural products on world markets. This will lead to dramatic local land use changes and an intensification of agriculture that will transform existing crop production systems. The intensification caused by rising land and lease prices will
primarily affect the maximization of the use of fertilizers and pesticides.
PB  - Srpsko društvo za proučavanje zemljišta
T2  - Zemljište i biljka
T1  - Climate change as the driving force behind the intensification of agricultural land use
EP  - 39
IS  - 1
SP  - 24
VL  - 71
DO  - 10.5937/ZemBilj2201024E
ER  - 

@article{
author = "Eulenstein, Frank and Salnjikov, Elmira and Lukin, Sergey and Sheudshen, Askhad and Rukhovich, Olga and Schindler, Uwe and Saparov, Galymzhan and Pachikin, Konstantin and Thielicke, Matthias and Behrendt, Axel and Armin, Werner and Životić, Ljubomir and Müller, Lothar",
year = "2022",
abstract = "Climate change in Europe will lead to new precipitation patterns over the coming years and the annual temperature will increase significantly. These changes in climate variables and the resulting effects on agricultural productivity must be differentiated regionally. Plant production depends on sufficient rainfall in summer and, in some regions, on the amount of rainfall in winter. In Central Europe, the amount of precipitation in summer will
decrease in the coming decades due to climate change, while in some regions, the amount of winter precipitation will increase significantly. Agricultural production is likely to suffer severely as a result of rising summer temperatures and low water retention capacities in the soil. The effects of reduced summer precipitation and increased air temperatures are
partially offset by the expected increased CO2 concentration. Therefore, the effects that changed climatic conditions have on crop production are sometimes less drastic in terms of crop yields. The greatest impact of climate change on land use is expected from increasing evapotranspiration and lower amounts of precipitation in the production of leachate. In addition to the expected mean changes, the occurrence of extreme weather conditions is
key. Periods of drought in the growing season and heavy flooding as a result of extreme rainfall are to be expected. However, these events are very difficult or even impossible to predict. In addition to the effects that climate change will have on regional crop production, global changes will have a strong impact on world markets for agricultural products. Another consequence of climate change and population growth is a higher demand for agricultural products on world markets. This will lead to dramatic local land use changes and an intensification of agriculture that will transform existing crop production systems. The intensification caused by rising land and lease prices will
primarily affect the maximization of the use of fertilizers and pesticides.",
publisher = "Srpsko društvo za proučavanje zemljišta",
journal = "Zemljište i biljka",
title = "Climate change as the driving force behind the intensification of agricultural land use",
pages = "39-24",
number = "1",
volume = "71",
doi = "10.5937/ZemBilj2201024E"
}

Eulenstein, F., Salnjikov, E., Lukin, S., Sheudshen, A., Rukhovich, O., Schindler, U., Saparov, G., Pachikin, K., Thielicke, M., Behrendt, A., Armin, W., Životić, L.,& Müller, L.. (2022). Climate change as the driving force behind the intensification of agricultural land use. in Zemljište i biljka
Srpsko društvo za proučavanje zemljišta., 71(1), 24-39.
https://doi.org/10.5937/ZemBilj2201024E

Eulenstein F, Salnjikov E, Lukin S, Sheudshen A, Rukhovich O, Schindler U, Saparov G, Pachikin K, Thielicke M, Behrendt A, Armin W, Životić L, Müller L. Climate change as the driving force behind the intensification of agricultural land use. in Zemljište i biljka. 2022;71(1):24-39.
doi:10.5937/ZemBilj2201024E .

Eulenstein, Frank, Salnjikov, Elmira, Lukin, Sergey, Sheudshen, Askhad, Rukhovich, Olga, Schindler, Uwe, Saparov, Galymzhan, Pachikin, Konstantin, Thielicke, Matthias, Behrendt, Axel, Armin, Werner, Životić, Ljubomir, Müller, Lothar, "Climate change as the driving force behind the intensification of agricultural land use" in Zemljište i biljka, 71, no. 1 (2022):24-39,
https://doi.org/10.5937/ZemBilj2201024E . .

TY  - JOUR
AU  - Schindler, Uwe
AU  - Thielicke, Matthias
AU  - Saljnikov, Elmira
AU  - Životić, Ljubomir
AU  - Eulenstein, Frank
PY  - 2022
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/6685
AB  - Knowledge of hydro-physical properties is an essential prerequisite for assessing the suitability and quality of growing media. The method used for sample preparation is important for the measurement results. Three different sample preparation methods were compared. The methods differed in terms of the way the 250°cm3 steel cylinder was filled and the height of preloading. Measurements on loosely filled cylinders were included. The comparison was carried out on 15 growing media using the HYPROP device. HYPROP enables a complex analysis of the hydro-physical properties with high accuracy and reproducibility. The water retention curve, the unsaturated hydraulic conductivity function, the dry bulk density, the shrinkage and the rewetting properties can be measured simultaneously. The air capacity and the amount of plant-available water in pots depend on the height of the pot. In the field, it is related to the field capacity. The quality assessment was carried out both for flowerpots of different height and for field conditions with free drainage. Loosely filled samples consolidated hydraulically shortly after the start of the measurement. These geometric changes can be taken into account with the HYPROP. The sample preparation method – preloading or loose filling – yielded significantly different results for the pore volume, dry bulk density, plant available water and air capacity. The total pore volume of the loosely filled cylinders varied between 86.8 and 95.2°% by vol. (preloaded 81.3 and 87.7°% by vol.). The most critical factor was the air capacity. Loosely filled substrate samples achieved the highest air capacities, but also did not reach the critical value of 10°% by volume in shallow flowerpots, e.g. in 10 cm pots with 5.8°% by volume. The sample preparation method, measurement and quality assessment of the hydro-physical properties of growing media
should be adapted to the conditions of use – whether they are used in a field with free drainage or in pots or containers in greenhouses.
PB  - Srpsko društvo za proučavanje zemljišta
T2  - Zemljište i biljka
T1  - Measurement of hydraulic properties of growing media with the HYPROP system
EP  - 52
IS  - 1
SP  - 40
VL  - 71
DO  - 10.5937/ZemBilj2201040S
ER  - 

@article{
author = "Schindler, Uwe and Thielicke, Matthias and Saljnikov, Elmira and Životić, Ljubomir and Eulenstein, Frank",
year = "2022",
abstract = "Knowledge of hydro-physical properties is an essential prerequisite for assessing the suitability and quality of growing media. The method used for sample preparation is important for the measurement results. Three different sample preparation methods were compared. The methods differed in terms of the way the 250°cm3 steel cylinder was filled and the height of preloading. Measurements on loosely filled cylinders were included. The comparison was carried out on 15 growing media using the HYPROP device. HYPROP enables a complex analysis of the hydro-physical properties with high accuracy and reproducibility. The water retention curve, the unsaturated hydraulic conductivity function, the dry bulk density, the shrinkage and the rewetting properties can be measured simultaneously. The air capacity and the amount of plant-available water in pots depend on the height of the pot. In the field, it is related to the field capacity. The quality assessment was carried out both for flowerpots of different height and for field conditions with free drainage. Loosely filled samples consolidated hydraulically shortly after the start of the measurement. These geometric changes can be taken into account with the HYPROP. The sample preparation method – preloading or loose filling – yielded significantly different results for the pore volume, dry bulk density, plant available water and air capacity. The total pore volume of the loosely filled cylinders varied between 86.8 and 95.2°% by vol. (preloaded 81.3 and 87.7°% by vol.). The most critical factor was the air capacity. Loosely filled substrate samples achieved the highest air capacities, but also did not reach the critical value of 10°% by volume in shallow flowerpots, e.g. in 10 cm pots with 5.8°% by volume. The sample preparation method, measurement and quality assessment of the hydro-physical properties of growing media
should be adapted to the conditions of use – whether they are used in a field with free drainage or in pots or containers in greenhouses.",
publisher = "Srpsko društvo za proučavanje zemljišta",
journal = "Zemljište i biljka",
title = "Measurement of hydraulic properties of growing media with the HYPROP system",
pages = "52-40",
number = "1",
volume = "71",
doi = "10.5937/ZemBilj2201040S"
}

Schindler, U., Thielicke, M., Saljnikov, E., Životić, L.,& Eulenstein, F.. (2022). Measurement of hydraulic properties of growing media with the HYPROP system. in Zemljište i biljka
Srpsko društvo za proučavanje zemljišta., 71(1), 40-52.
https://doi.org/10.5937/ZemBilj2201040S

Schindler U, Thielicke M, Saljnikov E, Životić L, Eulenstein F. Measurement of hydraulic properties of growing media with the HYPROP system. in Zemljište i biljka. 2022;71(1):40-52.
doi:10.5937/ZemBilj2201040S .

Schindler, Uwe, Thielicke, Matthias, Saljnikov, Elmira, Životić, Ljubomir, Eulenstein, Frank, "Measurement of hydraulic properties of growing media with the HYPROP system" in Zemljište i biljka, 71, no. 1 (2022):40-52,
https://doi.org/10.5937/ZemBilj2201040S . .