Araştırma Makalesi
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Bir kızılçam orman ekosisteminde spektral ve kuş türü rarefaksiyon eğrileri arasındaki ilişkiler

Yıl 2017, Cilt: 18 Sayı: 3, 232 - 240, 30.11.2017
https://doi.org/10.18182/tjf.310109

Öz

Bu çalışmada Fethiye yöresinde seçilen bir kızılçam orman
ekosisteminde spektral rarefaksiyon eğrileri ile kuş türü rarefaksiyon eğrileri
arasındaki ilişkilerin ortaya koyulması amaçlanmıştır. Büyüklüğü 0,81 ha (90 x
90 m) olan 40 örnek alan için, arazi gözlemleriyle kuş türleri tespit
edilmiştir. Örnek alanlara karşılık gelen piksellerin (Aster için 36, SPOT için
81 ve RapidEye için 324 adet) NDVITOA değerleri hesaplanmıştır. Sonra,
EstimatesS yazılımı vasıtasıyla spektral ve kuş türü rarefaksiyon eğrileri
oluşturulmuştur. Bunlar arasındaki ilişkiler regresyon analiziyle
incelenmiştir. Ayrıca “artış oranları” dikkate alınarak eğrilerin benzerliği
ortaya koyulmuştur. Çalışma sonuçları, spektral rarefaksiyon eğrileri ile kuş
türü rarefaksiyon eğrisinin genel eğilimi arasında ciddi farklılıklar olduğunu
ve bu yörede uydu görüntüleri kullanılarak kuş türü rarefaksiyon eğrisinin
kestirilemeyeceğini göstermiştir. Bu çalışmaların daha kaba çözünürlüklü uydu
görüntüleriyle daha geniş coğrafyalarda tekrarlanmasının, spektral rarefaksiyon
eğrilerinin potansiyelinin daha iyi anlaşılması bakımından önemli olduğu
düşünülmektedir.

Kaynakça

  • Bibby, C.J., Burgess, N.D., Hill, D.A. 1992. Bird Census Techniques. Academic Press. 257 s.
  • Brooks, T., Balmford, A., Burgess, N., Hansen, L. A., Moore, J., Rahbek, C., Williams, P., Bennun, L., Byaruhanga, A., Kasoma, P., Njoroge, P., Pomeroy, D., Wondafrash, M., 2001. Conservation priorities for birds and biodiversity: do East African important bird areas represent species diversity in other terrestrial vertebrate groups?. Ostrich Suppl., 15: 3–12.
  • Colwell, 2013. Department of Ecology and Evolutionary Biology, University of Connecticut, Storrs, USA, EstimatesS 9.1.0. User’s Guide, http://viceroy.eeb. uconn.edu/estimates/EstimateSPages/EstSUsersGuide/EstimateSUsersGuide.htm, Erişim: 12.12.2016.
  • Colwell, R.K., Mao, C.X., Chang, J., 2004. Interpolating, extrapolating, and comparing incidence-based species accumulation curves. Ecology, 85(10): 2717-2727.
  • Crist, T.O., Veech, J.A., 2006. Additive partitioning of rarefaction curves and species–area relationships: Unifying α‐, β‐and γ‐diversity with sample size and habitat area. Ecology Letters, 9(8): 923-932.
  • Gotelli, N.J., Colwell, R.K., 2001. Quantifying biodiversity: Procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters, 4(4): 379-391.
  • Gotelli, N.J., Colwell, R.K., 2011. Estimating Species Richness. In: Magurran E.A., McGill J.B., (Ed.), Biological diversity: Frontiers in measurement and assessment. Oxford University Press Inc., New York, pp. 39-54.
  • Guyot, G., Gu, X.F., 1994. Effect of radiometric corrections on NDVI-determined from SPOT-HRV and Landsat-TM data. Remote Sensing of Environment, 49(3): 169-180.
  • Işık, D., Uğurlu, E., 2011. Bitki komünitelerinde beta çeşitlilik. Celal Bayar Üniversitesi Eğitim Fakültesi Dergisi, 1(1): 154-171.
  • Lande, R., 1996. Statistics and partitioning of species diversity, and similarity among multiple communities. Oikos, 76(1): 5-13.
  • Özçelik, R., 2006. Biyolojik çeşitliliği korumaya yönelik yapılan (planlama ve koruma) çalışmalar ve Türkiye ormancılığına yansımaları. Süleyman Demirel Üniversitesi Orman Fakültesi Dergisi, 2(A): 23-36.
  • Özdemir, İ., Mert, A., Şentürk, Ö., 2012. Predicting landscape structural metrics using aster satellite data. Journal of Environmental Engineering and Landscape Management, 20(2): 168-176.
  • Özkan, K., 2016. Biyolojik Çeşitlilik Bileşenleri (α, ß, γ) Nasıl Ölçülür? Süleyman Demirel Üniversitesi Orman Fakültesi Yayını, SDÜ Basımevi, Isparta.
  • Ricotta, C., Carranza, M.L., Avena, G., 2002. Computing β-diversity from species-area curves. Basic and Applied Ecology, 3(1): 15-18.
  • Rocchini, D., McGlinn, D., Ricotta, C., Neteler, M., Wohlgemuth, T., 2011. Landscape complexity and spatial scale influence the relationship between remotely sensed spectral diversity and survey based plant species richness. Journal of Vegetation Science, 22(4): 688-698. Rocchini, D., Ricotta, C., Chiarucci, A., De Dominicis, V., Cirillo, I., Maccherini, S., 2009a. Relating spectral and species diversity through rarefaction curves. International Journal of Remote Sensing, 30(10): 2705-2711.
  • Rocchini, D., Wohlgemuth, T., Ricotta, C., Ghisleni, S., Stefanini, A., Chiarucci, A., 2009b. Rarefaction theory applied to satellite imagery for relating spectral and species diversity. Rivista Italiana Di Telerilevamento, 41(2): 109-123. Whittaker R., 1972. Evolution and measurement of species diversity. Taxon, 21(2/3): 213-251
  • Wooley, J.C., Godzik, A., Friedberg, I., 2010. A primer on metagenomics. PLoS Computational Biology, 6(2): e1000667, https://doi.org/10.1371/journal.pcbi.1000667.

Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem

Yıl 2017, Cilt: 18 Sayı: 3, 232 - 240, 30.11.2017
https://doi.org/10.18182/tjf.310109

Öz

This study aimed at determining the relations between
spectral and bird species rarefaction curves in a brutian pine forest ecosystem
located in the Fethiye region, Turkey. Bird species were counted by fieldwork
in 40 sample plots with 0.81 ha (90 x 90 m). The NDVITOA values of pixels
belonging to each plot (pixel numbers are 36, 81 and 324 for Aster, SPOT and
RapidEye, respectively) were calculated. Spectral and bird species rarefaction
curves were formed by means of EstimatesS software. The relations between
spectral and bird species rarefaction curves were examined using regression
analyses. Furthermore, the similarities of rarefaction curves were determined
considering “increase rate” of curves. The results of study showed that there
are serious differences between spectral and bird species rarefaction curves
and bird species rarefaction curve was not predicted using satellite images in
this region. It is considered that similar studies could be conducted on a wide
geographic region using coarse resolution satellite data in order to understand
the potentials of spectral rarefaction curves more clearly.    

Kaynakça

  • Bibby, C.J., Burgess, N.D., Hill, D.A. 1992. Bird Census Techniques. Academic Press. 257 s.
  • Brooks, T., Balmford, A., Burgess, N., Hansen, L. A., Moore, J., Rahbek, C., Williams, P., Bennun, L., Byaruhanga, A., Kasoma, P., Njoroge, P., Pomeroy, D., Wondafrash, M., 2001. Conservation priorities for birds and biodiversity: do East African important bird areas represent species diversity in other terrestrial vertebrate groups?. Ostrich Suppl., 15: 3–12.
  • Colwell, 2013. Department of Ecology and Evolutionary Biology, University of Connecticut, Storrs, USA, EstimatesS 9.1.0. User’s Guide, http://viceroy.eeb. uconn.edu/estimates/EstimateSPages/EstSUsersGuide/EstimateSUsersGuide.htm, Erişim: 12.12.2016.
  • Colwell, R.K., Mao, C.X., Chang, J., 2004. Interpolating, extrapolating, and comparing incidence-based species accumulation curves. Ecology, 85(10): 2717-2727.
  • Crist, T.O., Veech, J.A., 2006. Additive partitioning of rarefaction curves and species–area relationships: Unifying α‐, β‐and γ‐diversity with sample size and habitat area. Ecology Letters, 9(8): 923-932.
  • Gotelli, N.J., Colwell, R.K., 2001. Quantifying biodiversity: Procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters, 4(4): 379-391.
  • Gotelli, N.J., Colwell, R.K., 2011. Estimating Species Richness. In: Magurran E.A., McGill J.B., (Ed.), Biological diversity: Frontiers in measurement and assessment. Oxford University Press Inc., New York, pp. 39-54.
  • Guyot, G., Gu, X.F., 1994. Effect of radiometric corrections on NDVI-determined from SPOT-HRV and Landsat-TM data. Remote Sensing of Environment, 49(3): 169-180.
  • Işık, D., Uğurlu, E., 2011. Bitki komünitelerinde beta çeşitlilik. Celal Bayar Üniversitesi Eğitim Fakültesi Dergisi, 1(1): 154-171.
  • Lande, R., 1996. Statistics and partitioning of species diversity, and similarity among multiple communities. Oikos, 76(1): 5-13.
  • Özçelik, R., 2006. Biyolojik çeşitliliği korumaya yönelik yapılan (planlama ve koruma) çalışmalar ve Türkiye ormancılığına yansımaları. Süleyman Demirel Üniversitesi Orman Fakültesi Dergisi, 2(A): 23-36.
  • Özdemir, İ., Mert, A., Şentürk, Ö., 2012. Predicting landscape structural metrics using aster satellite data. Journal of Environmental Engineering and Landscape Management, 20(2): 168-176.
  • Özkan, K., 2016. Biyolojik Çeşitlilik Bileşenleri (α, ß, γ) Nasıl Ölçülür? Süleyman Demirel Üniversitesi Orman Fakültesi Yayını, SDÜ Basımevi, Isparta.
  • Ricotta, C., Carranza, M.L., Avena, G., 2002. Computing β-diversity from species-area curves. Basic and Applied Ecology, 3(1): 15-18.
  • Rocchini, D., McGlinn, D., Ricotta, C., Neteler, M., Wohlgemuth, T., 2011. Landscape complexity and spatial scale influence the relationship between remotely sensed spectral diversity and survey based plant species richness. Journal of Vegetation Science, 22(4): 688-698. Rocchini, D., Ricotta, C., Chiarucci, A., De Dominicis, V., Cirillo, I., Maccherini, S., 2009a. Relating spectral and species diversity through rarefaction curves. International Journal of Remote Sensing, 30(10): 2705-2711.
  • Rocchini, D., Wohlgemuth, T., Ricotta, C., Ghisleni, S., Stefanini, A., Chiarucci, A., 2009b. Rarefaction theory applied to satellite imagery for relating spectral and species diversity. Rivista Italiana Di Telerilevamento, 41(2): 109-123. Whittaker R., 1972. Evolution and measurement of species diversity. Taxon, 21(2/3): 213-251
  • Wooley, J.C., Godzik, A., Friedberg, I., 2010. A primer on metagenomics. PLoS Computational Biology, 6(2): e1000667, https://doi.org/10.1371/journal.pcbi.1000667.
Toplam 17 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Orijinal Araştırma Makalesi
Yazarlar

İbrahim Özdemir

Ahmet Mert

Ulaş Yunus Özkan

Şengül Aksan Bu kişi benim

Yasin Ünal Bu kişi benim

Yayımlanma Tarihi 30 Kasım 2017
Kabul Tarihi 25 Ağustos 2017
Yayımlandığı Sayı Yıl 2017 Cilt: 18 Sayı: 3

Kaynak Göster

APA Özdemir, İ., Mert, A., Özkan, U. Y., Aksan, Ş., vd. (2017). Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem. Turkish Journal of Forestry, 18(3), 232-240. https://doi.org/10.18182/tjf.310109
AMA Özdemir İ, Mert A, Özkan UY, Aksan Ş, Ünal Y. Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem. Turkish Journal of Forestry. Kasım 2017;18(3):232-240. doi:10.18182/tjf.310109
Chicago Özdemir, İbrahim, Ahmet Mert, Ulaş Yunus Özkan, Şengül Aksan, ve Yasin Ünal. “Relationships Between Spectral and Bird Species Rarefaction Curves in a Brutian Pine Forest Ecosystem”. Turkish Journal of Forestry 18, sy. 3 (Kasım 2017): 232-40. https://doi.org/10.18182/tjf.310109.
EndNote Özdemir İ, Mert A, Özkan UY, Aksan Ş, Ünal Y (01 Kasım 2017) Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem. Turkish Journal of Forestry 18 3 232–240.
IEEE İ. Özdemir, A. Mert, U. Y. Özkan, Ş. Aksan, ve Y. Ünal, “Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem”, Turkish Journal of Forestry, c. 18, sy. 3, ss. 232–240, 2017, doi: 10.18182/tjf.310109.
ISNAD Özdemir, İbrahim vd. “Relationships Between Spectral and Bird Species Rarefaction Curves in a Brutian Pine Forest Ecosystem”. Turkish Journal of Forestry 18/3 (Kasım 2017), 232-240. https://doi.org/10.18182/tjf.310109.
JAMA Özdemir İ, Mert A, Özkan UY, Aksan Ş, Ünal Y. Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem. Turkish Journal of Forestry. 2017;18:232–240.
MLA Özdemir, İbrahim vd. “Relationships Between Spectral and Bird Species Rarefaction Curves in a Brutian Pine Forest Ecosystem”. Turkish Journal of Forestry, c. 18, sy. 3, 2017, ss. 232-40, doi:10.18182/tjf.310109.
Vancouver Özdemir İ, Mert A, Özkan UY, Aksan Ş, Ünal Y. Relationships between spectral and bird species rarefaction curves in a brutian pine forest ecosystem. Turkish Journal of Forestry. 2017;18(3):232-40.