정밀 농업을 위한 직파 벼 재배 논에서 포장 변이성 조사와 질소의 변량 시비 Field Variability and Variable Rate Fertilization of Nitrogen in a Direct Seeding Paddy for Precision Agriculture원문보기
정밀 농업 시행에 있어서 포장 변이성에 대한 이해가 필수적이므로, 직파 재배 논에서 포장 변이성 조사와 토양 검정 결과에 다른 질소 변량 시비에 대한 현장 시험이 전북 김제의 직파 재배 논 시험 포장과 농가 시범 포장에서 이루어졌다. $35m{\times}112m$ 단위 포장에서 10 m 간격의 방격형으로 표토의 토양 시료를 채취하여 분석하였다. 토양 유기물, 유효 인산 및 규산, 그리고 치환성 칼륨 등에 대한 분석이 이루어졌다. 시험 포장에 대한 토양 검정 결과에 의해 다수확과 저투입 농업을 위한 질소 시비 추천량을 계산하여 그 분포도를 작성하였다. 2001년과 2002년의 시험 포장에서의 질소 변량 시험을 토대로, 2003년에는 농가 포장 3개를 선정하여 저투입 질소 시비량을 기준으로 질소 변량 시비에 대한 농가 실증 시험을 하였고, 경제성을 분석하였다. 변량 시비에 의해 수량 중가 및 수량 변이 감소 효과를 알 수 있었다. 변량 시비에 의한 수량 증가와 시비량 절감에도 불구하고, 토양 검정에 소요되는 비용이 절감 비용을 초과하였다.
정밀 농업 시행에 있어서 포장 변이성에 대한 이해가 필수적이므로, 직파 재배 논에서 포장 변이성 조사와 토양 검정 결과에 다른 질소 변량 시비에 대한 현장 시험이 전북 김제의 직파 재배 논 시험 포장과 농가 시범 포장에서 이루어졌다. $35m{\times}112m$ 단위 포장에서 10 m 간격의 방격형으로 표토의 토양 시료를 채취하여 분석하였다. 토양 유기물, 유효 인산 및 규산, 그리고 치환성 칼륨 등에 대한 분석이 이루어졌다. 시험 포장에 대한 토양 검정 결과에 의해 다수확과 저투입 농업을 위한 질소 시비 추천량을 계산하여 그 분포도를 작성하였다. 2001년과 2002년의 시험 포장에서의 질소 변량 시험을 토대로, 2003년에는 농가 포장 3개를 선정하여 저투입 질소 시비량을 기준으로 질소 변량 시비에 대한 농가 실증 시험을 하였고, 경제성을 분석하였다. 변량 시비에 의해 수량 중가 및 수량 변이 감소 효과를 알 수 있었다. 변량 시비에 의한 수량 증가와 시비량 절감에도 불구하고, 토양 검정에 소요되는 비용이 절감 비용을 초과하였다.
Since understanding on spatial variability of a field is essential to pursue precision agricultural technology, a field study for field variability and variable rate fertilization of nitrogen in a direct seeding paddy was attempted. Variable rate application of nitrogen was designed with soil test, ...
Since understanding on spatial variability of a field is essential to pursue precision agricultural technology, a field study for field variability and variable rate fertilization of nitrogen in a direct seeding paddy was attempted. Variable rate application of nitrogen was designed with soil test, and field application was tested in a direct seeding paddy in the Kimje, Jeonbuk, Korea. The grid samples of soil was collected from the field of which unit size was 35 m by 112 m on February before irrigating of the field. Soil organic matter, available phosphate and silicate, and extractable potassium were analyzed. Variable rate fertilizer recommendation maps of nitrogen for high yielding, HY, and low input sustainable agriculture, LISA, were derived based on the soil analysis. Direct seeding of rice was performed for variable rate treatment, VRT, for the experimental plot in 2001 and 2002, and so did for three volunteer farmers' field in 2003. Yield mapping was performed by harvesting. Economic feasibility of direct seeding of rice by variable rate fertilization was evaluated. Though increased yield of variable rate application and benefit of reducing fertilizer use and environmental impact, the cost for soil test exceeded the total reduced fertilizer cost.
Since understanding on spatial variability of a field is essential to pursue precision agricultural technology, a field study for field variability and variable rate fertilization of nitrogen in a direct seeding paddy was attempted. Variable rate application of nitrogen was designed with soil test, and field application was tested in a direct seeding paddy in the Kimje, Jeonbuk, Korea. The grid samples of soil was collected from the field of which unit size was 35 m by 112 m on February before irrigating of the field. Soil organic matter, available phosphate and silicate, and extractable potassium were analyzed. Variable rate fertilizer recommendation maps of nitrogen for high yielding, HY, and low input sustainable agriculture, LISA, were derived based on the soil analysis. Direct seeding of rice was performed for variable rate treatment, VRT, for the experimental plot in 2001 and 2002, and so did for three volunteer farmers' field in 2003. Yield mapping was performed by harvesting. Economic feasibility of direct seeding of rice by variable rate fertilization was evaluated. Though increased yield of variable rate application and benefit of reducing fertilizer use and environmental impact, the cost for soil test exceeded the total reduced fertilizer cost.
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
문제 정의
This paper was prepared as a part of research results entitled 'Development of precision agriculture technique and improvement of agricultural management and environment in direct-seeding rice culture' with the financial support from the ARPC. Authors express deep appreciation to ARPC, MAFF, Korea.
제안 방법
A series of analysis on field variability of the field, effect of variable rate application of nitrogen on direct seeding rice paddy based on soil fertility map, and economic assessment was attempted.
In this experiment, geostatistical parameters of these growth characteristics and unhulled rice yield were calculated (data were not shown). The sill values for plant height, LAI, and SPAD were less than 7.
대상 데이터
One experimental rice paddy and three volunteer farmers' paddies with the unit size of 3000 m2 were selected. The soil of the experimental field was sampled in 2001, and soil test data were used for 2001 and 2002 experiments.
이론/모형
soil and water extract. Nitrogen content of the soil was measured by Kjeldahl digestion method. The organic matter content was obtained by the Walkley-Black method.
Nitrogen content of the soil was measured by Kjeldahl digestion method. The organic matter content was obtained by the Walkley-Black method. Available phosphate was extracted by Lancaster solution and was detected by the molybdate vanadate blue spectrophotometry at 660 nm.
성능/효과
fertilization by soil test. In this analysis, the field size was assumed 8 ha farm and 5-year periodic soil test. The cost of GPS and fertilizer applicator was 6, 000, 000 won per 25 ha per 10 annum.
8 kg kg 10a'1 less. In volunteered farmers' field 2 and 3, the yields were little difference between the control and VRT, while the amount of nitrogen saved was 3.7-5.6 kg 10a \ We concluded that VRT could save nitrogen fertilizer by 21% even in the volunteer farmers field without yield decrease, and this effect might be greater in directly seeded field than transplanted field.
31, respectively. The CVs of the plant height and SPAD were lower than that of the yield of unhulled rice, while those of dry weight and LAI were higher which showed highly correlation with the yield.
참고문헌 (13)
Jung, Y. S. 2000. Changes in soil quality and rationale soil management in Korea. p. 53-81 In Proceedings of The 4th Symposium on Soil Rehabilitation. Nongmin Shinmun-Sa & RDA, Seoul, Korea
KSPA, Korean Society of Precision Agriculture. 2002. Precision agriculture and field spatial variability. p. 177. In Proceedings of Korean Society of Precision Agriculture 2002 Conference. KSPA and RDA, Korea
Lee, R. L, and Y. S. Jung. 1993. Sustainable farm management in crop production. p. 31-55. In Proceedings of International Symposium on Sustainable Agriculture and Environment. Sept 17, 1993. Seoul Nationmal University, Seoul, Korea
Lee, R. J., Y. S. Jung, and J. K. Park. 2003. Development of precision agriculture technique and improvement of agricultural management and environemnt in direct-seeding rice culture. Final Report. Seoul National University/ARPC, Seoul, Korea
NIAST, National Institute of Agricultural Science and Technology. 1999. Nutrient prescription for various crops. NIAST, RDA, Suwon, Korea
NRC, National Research Council. 1977. Precision agriculture in the 21st century. Geospatial and information technologies in crop management. National Academy Press, Washington, DC, USA
Park, Y. H., Y. Lee, S. C. Kim, J. S. Noh, K. L. Park, S. C. Kim, and J. W. Lee. 2002. Integrated nutrient management for rice production. p. 404-429. RDA Annual Report. Suwon, Korea
Park, Y. H., Y. Lee, J. S. Noh, K. L. Park, and J. W. Lee. 2002. Integrated nutrient management for upland crops. p. 430-438. RDA Annual Report. Suwon, Korea
Park, Y. H., Y. Lee, J. S. Noh, K. L. Park, S. C. Kim, and K. S. Lee. 2004. Integrated nutrient management (INM) for Paddy Rice Production. NIAST, Suwon, Korea
Seo, J. H., H. J. Lee, Y. S. lung, and S. H. Lee. 2002. Soil and yield mapping and nutrient recommendation for precision agriculture in rice paddy. J. Korean Soc. Precision Agric. 1:51-60rea
Sawyer, J. E. 1994. Concept of variable rate technology with consideration for fertilizer application. J. Prod. Agr. 7:195-201
※ AI-Helper는 부적절한 답변을 할 수 있습니다.