Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-20T09:17:25.016Z Has data issue: false hasContentIssue false

Precision Agriculture in Latvia in the Last 20 Years

Published online by Cambridge University Press:  01 June 2017

A. Gailums*
Affiliation:
Latvia University of Agriculture, Jelgava, 2 Liela Street, Latvia
*
Get access

Abstract

The establishment of the system Soil – Yield that occured in Latvia during the 1970–80s could be considered as the beginning of precision farming with the available technologies. The first precision farming technologies have been associated with harvesting where combines and tractors with the automatic steering were used. The precision agriculture in Latvia includes various branches. Latvia farmers are using precision crop farming, precision livestock farming, precision fruit growing, precision bee keeping, precision farming greenhouse and precision growing berries. Precision farming technologies in Latvia are introduced mainly in large scale farms, with more than 1000 ha. The most important researches in precision farming in Latvia were done in 2000s.

Type
PA in practice
Copyright
© The Animal Consortium 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bērziņš, G 2016. Slāpekļa sensori (The nitrogen sensors). Precīzā laukkopība. Agrotops, Jūlijs. A/s Lauku avīze, Rīga. pp. 2225.Google Scholar
Boruks, A 2003. 1990.gada zemes reforma Latvijā (Land reform in Latvia in 1990). Zemnieks, zeme, un zemkopība Latvijā. A/s Poligrāfists, pp. 608–622.Google Scholar
Brauna, A 2013. Baltinavas līdumnieki (Baltinavas shifting agriculture) 44, 3941.Google Scholar
Burmistris, A and Cēsniece, E 2014. Ilgtspējīga lauksaimniecība zemnieku saimniecībā Vilciņi 1 (Sustainable agriculture in farm Vilcini 1). Zinātniski praktiskā konference. Līdzsvarota lauksaimniecība, Jelgava LLU, pp. 214–217.Google Scholar
Daiga, Z, Ozola, M, Vēvers, E and Zaķe, I 1990. Informacionālās skaitļošanas sistēmas Augsne-Raža izmantošana (Using information computing system Soil-Yield). Lavijas Agrorūpnieciskā kompleksa Ekonomikas Zinātniskā Pētniecības institūts, Rīga, Zinātne 129.Google Scholar
Freimanis, E 2016. Ražas kartēšana un augsnes analīzes (Yield mapping and soil analysis). Precīzā laukkopība. Agrotops, Jūlijs, A/s Lauku avīze, Rīga, pp. 20–21.Google Scholar
Gailums, A 2004. The origins and development of the information technologies in the rural area of Latvia. Information technologies and telecomunications for rural development. In: Proceedings of the Informational scientific conference. Jelgava, Latvia, pp. 31–37.Google Scholar
Lauksaimniecības gada ziņojums 2016. Piena un piena produktu ražošana (Agricultural annual report. Production of milk and milk products). https://www.zm.gov.lv/public/files/CMS_Static_Page_Doc/00/00/00/90/30/fs-01userslinda.birinaDesktopAA2016_lauksaimniecibasgadazinojums.pdf. (retrieved 09/12/16).Google Scholar
Lauku saimniecību grupējums pēc izmantotās lauksaimniecības zemes 2016. (Grouping of rural farms by the agricultural land). http://data.csb.gov.lv/pxweb/lv/lauks/lauks__ikgad__laukstrukt_13__1.visp/LSS13_I02.px/table/tableViewLayout2/?rxid=f9073c59-1fa1-425b-a0c0-0442e2a937c7. (retrieved 24/11/16).Google Scholar
Lapiņš, D 2013. Optimization of Elements for soil Managfement Systems. Academic Agricultural Science in Latvia – 150. In: Proceedings of International Scientific Conference. Jelgava, pp. 30–34.Google Scholar
Laurs, A 2016. Kas jāzina pirms slaukšanas robota iegādes (What to know before milking robot acquisition). Precīzā lopkopība. Agrotops, Oktobris, A/s Lauku avīze, Rīga pp. 13–19.Google Scholar
Tikuma, B 2013. Dzērveņu aizsardzība pret salnām (Protection of cranberries against the frosts). Nākotnes precīzās saimniekošanas tehnoloģijas Latvijas laukiem. Latvijas universitātes Matemātikas un informātikas institūts. SIA Jelgavas tipogrāfija 3439.Google Scholar
Vilde, A, Lapiņš, D, Dinaburga, G, Cesnieks, S and Valainis, O 2012. Investigations in precision agriculture: results, problems, perspective development. Engineering for rural development. In: Proceedings of 11th International Scientific Conference, Jelgava, Latvia, pp. 74–80.Google Scholar
Zacepins, A, Stalidzans, E and Meitalovs, J 2012. Application of information technologies in precision agriculture. Emerging Issues in Precision Agriculture. In: Proceedings of 11th International Conference on Precision Agriculture. Indianapolis, Indiana, USA, unpaged CD.Google Scholar