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  • KOREAN
  • P-ISSN2287-8327
  • E-ISSN2288-1220
  • SCOPUS, KCI

Environmental factors affecting the composition and diversity of the avian community in igune, a traditional agricultural landscape in northern Japan

Journal of Ecology and Environment / Journal of Ecology and Environment, (P)2287-8327; (E)2288-1220
2017, v.41 no.3, pp.54-65
https://doi.org/10.1186/s41610-017-0027-2
Haruka Imai (Tohoku University Aoba)
Tohru Nakashizuka (Tohoku University Aoba)
Michio Oguro (Tohoku University Aoba)

Abstract

Background: “Igune,” a traditional agricultural landscape in the Tohoku region of Japan, is characterized by small-scale artificial woodlots surrounding a farmer’s house that are interspersed with paddy fields. During the rapid economic growth of Japan over recent decades, some igune woodlots have been abandoned or logged. Biodiversity conservation is an important issue worldwide, and traditional agricultural landscapes are of particular interest. To elucidate the role of igune landscapes in conserving biodiversity, we examined the effects of environmental factors on avian communities. Results: The study was conducted in the suburban areas of Oshu and Hanamaki cities, Iwate Prefecture, Japan, at eight sites that varied in the density and area of igune woodlots within the landscape. Bird surveys were conducted from the middle to late breeding season, and several environmental factors of the igune landscape were also measured. The results of canonical correspondence analysis indicated that the characteristics of avian communities were mainly determined by the total forested area in the landscape. Increased total forested area and shrubs layer of igune woodlots did not cause a reduction in number of bird species of any habitat and foraging types, while increased both in species number and abundance of insectivores and forest species. The number of raptor species increased in igune sites without shrubs. Conclusions: Our results suggest that maintaining igune landscapes may enhance avian diversity within this landscape, although the effects of shrubs within igune varied; developed bush communities increased the evenness of the avian community, whereas some raptor species preferred an open forest understory.

keywords
Canonical correspondence analysis, Conservation, Igune, Japan

Reference

1.

Clergeau, P., Jokimäki, J., & Savard, J. P. L. (2001). Are urban bird communities influenced by the bird diversity of adjacent landscapes? Journal of Applied Ecology, 38, 1122–1134.

2.

Dunn, R. R. (2000). Isolated trees as foci of diversity in active and fallow fields. Biological Conservation, 95, 317–321.

3.

Endo, K., & Hirano, T. (1990). Breeding records and nesting habitats of the Japanese lesser sparrowhawk accipiter gularis in residential area of Tochigi prefecture Honshu Japan. Japanese Journal Of Ornithology, 39(1), 35–39 (in Japanese).

4.

Fischer, J., & Lindenmayer, D. B. (2002). The conservation value of paddock trees for birds in a variegated landscape in southern New South Wales. 2. Paddock trees as stepping stones. Biodiversity and Conservation, 11, 833–849.

5.

Forestry Agency (2014) Annual Report on Forest and Forestry in Japan Fiscal Year 2014 (summary). The Forestry Agency Web. http://www.rinya.maff.go.jp/j/kikaku/hakusyo/26hakusyo/pdf/h26summary.pdf. Accessed 21 Sept 2016.

6.

Fukuoka, K., Hirabuki, Y., & Araki, Y. (2002). Vegetation of isolated forests in the agro-ecosystem on Isawa Alluvial Fan, Iwate Prefecture. Proceedings Miyagi University Education, 5, 29–38 (in Japanese).

7.

Garizou (1997) Yachoo! online bird guide ver.4.0. (in Japanese)

8.

Gray, M. A., Baldauf, S. L., Mayhew, P. J., & Hill, J. K. (2007). The response of avian feeding guilds to tropical forest disturbance. Conservation Biology, 21, 133–141.

9.

Hino, T. (2004). The forests of birds. Japan: Tokai University Press (in Japanese).

10.

Hirabuki, Y., & Fukuda, A. (2006). Farmstead groves and traditional Lifestyle. 1. Development process of two environmental educational programs based on local area field trail results. Proceedings Miyagi University Education, 9, 59–66(in Japanese).

11.

Iida, S., & Nakashizuka, T. (1995). Forest fragmentation and its effect on species diversity in sub-urban coppice forests in Japan. Forest Ecology and Management, 73(1), 197–210.

12.

Imai, H., & Nakashizuka, T. (2010). Environmental factors affecting the composition and diversity of avian community in mid-to late breeding season in urban parks and green spaces. Landscape Urban Plann, 96, 183–194.

13.

Ishida, K. (1987). The avian community in Lake Yamanaka around the Fuji forest of Tokyo university. Strix, 6, 66–79 (in Japanese).

14.

Japanese Society for the Preservation of Birds. (2002). Bird 630 guide enlarged and (revisedth ed.). Japan: OKU Publishing Service (in Japanese).

15.

Karasawa, K. (1978). Relationship between fruit-eating birds and seed dispersal in urban areas. Japan Journal of Ornithology, 27, 1–20.

16.

Kéry, M., Royle, J. A., & Schmid, H. (2008). Importance of sampling design and analysis in animal population studies: a comment on Sergio et al. Journal of Applied Ecology, 45, 981–986.

17.

Koganezawa, T, Kitagawa,N, Kato Y (2002) Environmental education and Igune school. Proc Miyagi Univ Educ. 4, 29–36. (in Japanese).

18.

Matsuda, M. (2008). Picture book of wild birds in Japan. Japan: Natsumesha (in Japanese).

19.

Millenium Ecosystem Assessment (2005) Millenium Ecosystem Assassment. http://www.millenniumassessment.org/en/index.aspx. Accessed 30 Nov 2010.

20.

Ministry of Agriculture, Forestry and Fisheries of Japan (1991) Ministry of Agriculture, Forestry and Fisheries of Japan. http://www.maff.go.jp/e/index.html. Accessed 25 Dec 2009 (in Japanese).

21.

Miura, S. (1998). Homestead woodland developing with climate. Japan: Kahoku-Shinpo-sha (in Japanese).

22.

Morioka, T., Kanouchi, T., Kawada, T., & Yamagata, N. (1995). The birds of prey in Japan. Japan: Bun-ichi Sogo Press (in Japanese).

23.

Osawa, S., & Katsuno, T. (2001). The distribution of frogs on paddies locating different landforms in alluvial fan area. Journal of Rural Planning Associatoin, 19(4), 280–288 (in Japanese).

24.

Sandström, U., Angelstam, P., & Mikusiński, G. (2006). Ecological diversity of birds in relation to the structure of urban green space. Landscape Urban Plann, 77, 39–53.

25.

Savard, J.-P. L., Clergeau, P., & Mennechez, G. (2000). Biodiversity concepts and urban ecosystems. Landscape Urban Plann, 48, 131–142.

26.

Sergio, F., Newton, I., Marchesi, L., & Pedrini, P. (2006). Ecologically justified charisma: preservation of top predators delivers biodiversity conservation. Journal of Applied Ecology, 43, 1049–1055.

27.

Sheffield, L. M., Crait, J. R., Edge, W. D., & Wang, G. (2001). Response of American kestrels and gray-tailed voles to vegetation height and supplemental perches. Canadian Journal of Zoology, 79, 380–385.

28.

Sieving, K. E., Contreras, T. A., Maute, K. L., & Grubb, T., Jr. (2004). Heterospecific facilitation of forest-boundary crossing by mobbing understory birds in north-central Florida. Auk, 121, 738–751.

29.

Simberloff, D. (1998). Flagships, umbrellas, and keystones: is single-species management passé in the landscape era? Biological Conservation, 83, 247–257.

30.

Suzuki, C., & Takenaka, M. (2009). Application of canonical correspondence analysis to soil microbial ecology. Soil Microorganisms, 63, 32–38 (in Japanese).

31.

Takagawa, S., Ueta, M., Amano, T., Okahisa, Y., Kamioki, M., et al. (2011). JAVIA Database: a species-level database of life history, ecology and morphology of bird species in Japan. Bird Res, 7, R9–R12 (in Japanese).

32.

Takano, S. (1986). Field guide wild birds of Japan. Japan: Wild Bird Society of Japan (in Japanese).

33.

Takeuchi, K. (2003). Satoyama: the traditional rural landscape of Japan. Japan:Springer.

34.

Ter Braak, C. J. (1986). Canonical correspondence analysis: a new eigenvector technique for multivariate direct gradient analysis. Ecology, 67, 1167–1179.

35.

Uezu, A., Beyer, D. D., & Metzger, J. P. (2008). Can agroforest woodlots work as stepping stones for birds in the Atlantic forest region? Biodiversity and Conservation, 17, 1907–1922.

36.

Watson, J. E., Whittaker, R. J., & Dawson, T. P. (2004). Habitat structure and proximity to forest edge affect the abundance and distribution of forestdependent birds in tropical coastal forests of southeastern Madagascar. Biological Conservation, 120, 311–327.

Journal of Ecology and Environment