Recently the cost of soil processing for agricultural production has been rapidly increasing because of expensiveness of agricultural machinery, energy, and agricultural chemicals. Intensive soil cultivation is costly and adversely affects soil fertility due to accelerated mineralization of soil organic matter. By minimizing mechanical disturbance to the soil, costs can be reduced and the environment enhanced. About half of the global CO2 emissions from the soil come from decomposition of the annual plant litter including agricultural crops. We studied methods of soil tillage that would help stabilize the yield of crops while maintaining soil fertility and saving energy and labour at the same time. Three types of crop cultivation experiments were studied: 1) cultivation intensity (simplified ST, common CT, and intensive IT); 2) tillage depth (shallow S, and deep D subsoil till), and 3) minimum MT, and zero till ZT. The results showed that under ST the soil biological parameters were mo...re favourable than under CT and IT. Shallow subsoil till maintained higher levels of soil nutrients, and reduced CO2 emission compared with the deep subsoil till. The minimum and zero tills positively influenced soil physical and biological properties through improvement in soil aggregate stability and soil enzymatic activity.
Ministry of Science and Education of the Republic of KazakhstanGovernment of the Republic of KazakhstanMinistry of Education and Science of the Republic of Kazakhstan [187]
TY - JOUR
AU - Saljnikov, Elmira
AU - Saljnikov, Aleksandar
AU - Rahimgalieva, Saule
AU - Cakmak, Dragan
AU - Kresović, Mirjana
AU - Mrvić, Vesna
AU - Dzhalankuzov, Temirbolat
PY - 2014
UR - http://aspace.agrif.bg.ac.rs/handle/123456789/3467
AB - Recently the cost of soil processing for agricultural production has been rapidly increasing because of expensiveness of agricultural machinery, energy, and agricultural chemicals. Intensive soil cultivation is costly and adversely affects soil fertility due to accelerated mineralization of soil organic matter. By minimizing mechanical disturbance to the soil, costs can be reduced and the environment enhanced. About half of the global CO2 emissions from the soil come from decomposition of the annual plant litter including agricultural crops. We studied methods of soil tillage that would help stabilize the yield of crops while maintaining soil fertility and saving energy and labour at the same time. Three types of crop cultivation experiments were studied: 1) cultivation intensity (simplified ST, common CT, and intensive IT); 2) tillage depth (shallow S, and deep D subsoil till), and 3) minimum MT, and zero till ZT. The results showed that under ST the soil biological parameters were more favourable than under CT and IT. Shallow subsoil till maintained higher levels of soil nutrients, and reduced CO2 emission compared with the deep subsoil till. The minimum and zero tills positively influenced soil physical and biological properties through improvement in soil aggregate stability and soil enzymatic activity.
PB - Pergamon-Elsevier Science Ltd, Oxford
T2 - Energy
T1 - Impact of energy saving cultivations on soil parameters in northern Kazakhstan
EP - 41
SP - 35
VL - 77
DO - 10.1016/j.energy.2014.03.042
ER -
@article{
author = "Saljnikov, Elmira and Saljnikov, Aleksandar and Rahimgalieva, Saule and Cakmak, Dragan and Kresović, Mirjana and Mrvić, Vesna and Dzhalankuzov, Temirbolat",
year = "2014",
abstract = "Recently the cost of soil processing for agricultural production has been rapidly increasing because of expensiveness of agricultural machinery, energy, and agricultural chemicals. Intensive soil cultivation is costly and adversely affects soil fertility due to accelerated mineralization of soil organic matter. By minimizing mechanical disturbance to the soil, costs can be reduced and the environment enhanced. About half of the global CO2 emissions from the soil come from decomposition of the annual plant litter including agricultural crops. We studied methods of soil tillage that would help stabilize the yield of crops while maintaining soil fertility and saving energy and labour at the same time. Three types of crop cultivation experiments were studied: 1) cultivation intensity (simplified ST, common CT, and intensive IT); 2) tillage depth (shallow S, and deep D subsoil till), and 3) minimum MT, and zero till ZT. The results showed that under ST the soil biological parameters were more favourable than under CT and IT. Shallow subsoil till maintained higher levels of soil nutrients, and reduced CO2 emission compared with the deep subsoil till. The minimum and zero tills positively influenced soil physical and biological properties through improvement in soil aggregate stability and soil enzymatic activity.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Energy",
title = "Impact of energy saving cultivations on soil parameters in northern Kazakhstan",
pages = "41-35",
volume = "77",
doi = "10.1016/j.energy.2014.03.042"
}
Saljnikov, E., Saljnikov, A., Rahimgalieva, S., Cakmak, D., Kresović, M., Mrvić, V.,& Dzhalankuzov, T.. (2014). Impact of energy saving cultivations on soil parameters in northern Kazakhstan. in Energy
Pergamon-Elsevier Science Ltd, Oxford., 77, 35-41.
https://doi.org/10.1016/j.energy.2014.03.042
Saljnikov E, Saljnikov A, Rahimgalieva S, Cakmak D, Kresović M, Mrvić V, Dzhalankuzov T. Impact of energy saving cultivations on soil parameters in northern Kazakhstan. in Energy. 2014;77:35-41.
doi:10.1016/j.energy.2014.03.042 .
Saljnikov, Elmira, Saljnikov, Aleksandar, Rahimgalieva, Saule, Cakmak, Dragan, Kresović, Mirjana, Mrvić, Vesna, Dzhalankuzov, Temirbolat, "Impact of energy saving cultivations on soil parameters in northern Kazakhstan" in Energy, 77 (2014):35-41,
https://doi.org/10.1016/j.energy.2014.03.042 . .
