牛舎からのアンモニア揮散が近傍のヒノキ樹木への窒素沈着に及ぼす影響

牛舎などの畜舎から揮散した大気アンモニア (NH3) の乾性沈着は、流域への窒素負荷経路の一つとして重要である。農業や畜産業が盛んな茨城県では、畜舎近傍に林立する樹木へのアンモニウム態窒素 (NH4+-N) の沈着量が、畜舎から揮散したNH3の乾性沈着の影響を受けて増大すると考えられるが、その推計はなされていない。本研究では、畜産由来のNH3の近傍樹木への乾性沈着量を評価するために、茨城大学の保有する牛舎内部とその周辺でパッシブ法を用いたNH3濃度の多地点観測と、バルクサンプラーを用いた湿性沈着量およびヒノキへの樹冠通過雨沈着量の通年観測を行った。牛舎内のNH3濃度の年平均値はウシの飼養頭数密...

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Published in大気環境学会誌 Vol. 54; no. 2; pp. 43 - 54
Main Authors 黒田, 久雄, 久保田, 智大, 福島, 慶太郎, 堅田, 元喜
Format Journal Article
LanguageJapanese
Published 公益社団法人 大気環境学会 10.03.2019
Subjects
atmospheric ammonia
cattle feedlot
coniferous forest
deposition velocity
dry deposition
passive and throughfall methods
Online AccessGet full text
ISSN1341-4178
2185-4335
DOI10.11298/taiki.54.43

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Abstract 牛舎などの畜舎から揮散した大気アンモニア (NH3) の乾性沈着は、流域への窒素負荷経路の一つとして重要である。農業や畜産業が盛んな茨城県では、畜舎近傍に林立する樹木へのアンモニウム態窒素 (NH4+-N) の沈着量が、畜舎から揮散したNH3の乾性沈着の影響を受けて増大すると考えられるが、その推計はなされていない。本研究では、畜産由来のNH3の近傍樹木への乾性沈着量を評価するために、茨城大学の保有する牛舎内部とその周辺でパッシブ法を用いたNH3濃度の多地点観測と、バルクサンプラーを用いた湿性沈着量およびヒノキへの樹冠通過雨沈着量の通年観測を行った。牛舎内のNH3濃度の年平均値はウシの飼養頭数密度から推定される値よりも小さく、その原因を明らかにするためには畜舎内の環境と管理状況のモニタリングが必要であると考えられた。牛舎から揮散したNH3濃度の空間分布は、風による輸送に加えて樹木や建物群による減衰の影響や、気温、大気湿度などに影響を受ける可能性が示唆された。年間のNH4+-Nの樹冠通過雨沈着量の観測値(27.5 kgN/ha/yr)は、国内の遠隔地の森林での観測値を大きく上回り、牛舎から揮散したNH3の乾性沈着の影響が示唆された。NH3濃度とNH4+-Nの湿性・樹冠通過雨沈着量の観測結果から推計したNH3の沈着速度は3.4±2.5 cm/sとなり、茨城県の草地での推計値よりも大きく、既往の針葉樹林での文献値の最大値に近かった。
AbstractList 牛舎などの畜舎から揮散した大気アンモニア (NH3) の乾性沈着は、流域への窒素負荷経路の一つとして重要である。農業や畜産業が盛んな茨城県では、畜舎近傍に林立する樹木へのアンモニウム態窒素 (NH4+-N) の沈着量が、畜舎から揮散したNH3の乾性沈着の影響を受けて増大すると考えられるが、その推計はなされていない。本研究では、畜産由来のNH3の近傍樹木への乾性沈着量を評価するために、茨城大学の保有する牛舎内部とその周辺でパッシブ法を用いたNH3濃度の多地点観測と、バルクサンプラーを用いた湿性沈着量およびヒノキへの樹冠通過雨沈着量の通年観測を行った。牛舎内のNH3濃度の年平均値はウシの飼養頭数密度から推定される値よりも小さく、その原因を明らかにするためには畜舎内の環境と管理状況のモニタリングが必要であると考えられた。牛舎から揮散したNH3濃度の空間分布は、風による輸送に加えて樹木や建物群による減衰の影響や、気温、大気湿度などに影響を受ける可能性が示唆された。年間のNH4+-Nの樹冠通過雨沈着量の観測値(27.5 kgN/ha/yr)は、国内の遠隔地の森林での観測値を大きく上回り、牛舎から揮散したNH3の乾性沈着の影響が示唆された。NH3濃度とNH4+-Nの湿性・樹冠通過雨沈着量の観測結果から推計したNH3の沈着速度は3.4±2.5 cm/sとなり、茨城県の草地での推計値よりも大きく、既往の針葉樹林での文献値の最大値に近かった。
Author 黒田, 久雄
久保田, 智大
福島, 慶太郎
堅田, 元喜
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  fullname: 福島, 慶太郎
  organization: 京都大学生態学研究センター
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  fullname: 堅田, 元喜
  organization: 茨城大学地球変動適応科学研究機関
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– reference: 堀江洋佑,岩崎 綾,友寄喜貴,藤田大介,河野明大,西山 亨,久恒邦裕,木戸瑞佳,濱村研吾,山添良太,松本利恵,多田敬子,山口高志,横山新紀,家合浩明,甲斐 勇,濱野 晃,吉田芙美香:第5次酸性雨全国調査報告書 (平成27年度),全国環境研会誌,42, 83–126 (2017).
– reference: Ohrui, K., Mitchell, M. J.: Nitrogen saturation in Japanese forested watersheds, Ecol. Appl., 7, 391–401 (1997).
– reference: Andersen, H., Hovmand, M., Hummelshøj, P., Jensen, N.: Measurements of ammonia concentrations, fluxes and dry deposition velocities to a spruce forest 1991–1995, Atmos. Environ., 33, 1367–1383 (1999).
– reference: Aikawa, M., Hiraki, T., Tamaki, M., Shoga, M.: Difference between filtering-type bulk and wet-only data sets based on site classification, Atmos. Environ., 37, 2597–2603 (2003).
– reference: Moumen, N., Yi, S., Raymond, H. A., Han, J., Holsen, T. M.: Quantifying the dry deposition of ammonia in ammonia-rich and ammonia-poor environments using a surrogate surface approach, Atmos. Environ., 38, 2677–2686 (2004).
– reference: Chiwa, M., Ide, J., Maruno, R., Higashi, N., Otsuki, K.: Effects of storm flow samplings on the evaluation of inorganic nitrogen and sulfate budgets in a small forested watershed, Hydrol. Proc., 24, 631–640 (2010).
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– reference: Takahashi, A., Sato, K., Wakamatsu, T., Fujita, S., Yoshikawa, K.: Estimation of dry deposition of sulfur to a forest using an inferential method—Influence of canopy wetness on SO2 dry deposition—, J. Jpn. Soc. Atmos. Environ., 37, 192–205 (2002) [in Japanese].
– reference: Draaijers, J., Van, R., Bleuten, W.: Atmospheric deposition in complex forest landscapes, Bound.-Layer Meteorol., 69, 343–366 (1994).
– reference: Galloway, J. N., Dentener, F. J., Capone, D. G., Boyer, E. W., Howarth, R. W., Seitzinger, S. P., Asner, G. P., Clevelandm, C. C., Green, P. A., Holland, E. A., Karl, D. M., Michaels, A. F., Porter, J. H., Townsend, A. R., Vörösmarty, C. J.: Nitrogen cycles: Past, present, and future, Biogeochemistry, 70, 135–226 (2004).
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– reference: McGinn, S. M., Janzen, H. H., Coates, T.: Atmospheric pollutants and trace gases atmospheric ammonia, volatile fatty acids, and other odorants near beef feedlots, J. Environ. Qual., 32, 1173–1182 (2003).
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– reference: Schrader, F., Brümmer, C.: Land use specific ammonia deposition velocities: A review of recent studies (2004–2013), Water Air Soil Pollut., 225, 2114 (2014).
– reference: Sase, H., Takahashi, A., Sato, M., Totsuka, T.: Seasonal variation in the atmospheric deposition of inorganic constituents and canopy interactions in a Japanese cedar forest, Environ. Pollut., 152, 1–10 (2008)
– reference: Lovett, G. M., Lindberg, S. E.: Atmospheric deposition and canopy interactions of nitrogen in forests, Can. J. For. Res., 23, 1603–1616 (1993).
– reference: Yokoyama, S.: Research for atmospheric nitrogen deposition in Chiba prefecture, J. Environ. Lab. Assoc., 39, 31–38 (2014) [in Japanese].
– reference: Staelens, J., Houle, D., Schrijver, A. D., Neirynck, J., Verheyen, K.: Calculating dry deposition and canopy exchange with the Canopy Budget Model: Review of assumptions and application to two deciduous forests, Water Air Soil Pollut., 191, 149–169 (2008).
– reference: 茨城県・栃木県・千葉県:霞ヶ浦に係る湖沼水質保全計画(第7期),1–35 (2017).
– reference: Takahashi, M., Take, N., Ohizumi, T., Yagoh, H.: Air Pollutant monitoring in Niigata prefecture by using passive sampler, Annual Report of Niigata Prefectural Institute of Public Health and Environmental Sciences, 23, 75–81 (2008) [in Japanese].
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Snippet 牛舎などの畜舎から揮散した大気アンモニア (NH3) の乾性沈着は、流域への窒素負荷経路の一つとして重要である。農業や畜産業が盛んな茨城県では、畜舎近傍に林立する樹...
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StartPage 43
SubjectTerms atmospheric ammonia
cattle feedlot
coniferous forest
deposition velocity
dry deposition
passive and throughfall methods
Title 牛舎からのアンモニア揮散が近傍のヒノキ樹木への窒素沈着に及ぼす影響
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Volume 54
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