Population dynamics of the non-native plant species, Coreopsis lanceolata L., at three plant community types over a three-year period following the cessation of grassland management in central Japan
To characterize the population dynamics of the invasive non-native plant, Coreopsis lanceolata L., we monitored the dynamics of the populations and the invaded communities for three years after the cessation of vegetation management. The monitoring was conducted in the three community types that dif...
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| Published in | Journal of Weed Science and Technology Vol. 70; no. 1; pp. 1 - 8 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English Japanese |
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The Weed Science Society of Japan
2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0372-798X 1882-4757 1882-4757 |
| DOI | 10.3719/weed.70.1 |
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| Abstract | To characterize the population dynamics of the invasive non-native plant, Coreopsis lanceolata L., we monitored the dynamics of the populations and the invaded communities for three years after the cessation of vegetation management. The monitoring was conducted in the three community types that differ in the abundance of C. lanceolata and species composition: the Zoysia japonica Steud. dominant type (Zj), the C. lanceolata dominant type (Cl), and the Miscanthus sinensis Anderss. dominant type (Ms). The above-ground shoots of C. lanceolata were used for the monitoring. At the beginning of the survey, the number of above-ground shoots was high in the order of Cl, Zj, and Ms. The number of shoots decreased for the three years in all the community types. The degree of decrease was more conspicuous in Cl than in Zj, and the population vanished in Ms for the study period. The small shoots were more likely to die than the larger ones, particularly many small shoots died in Cl in the latter half of the study period. Most of the bolting shoots died until the next year, indicating that bolting is an important factor in the death of large shoots. The annual growth of the above-ground shoots was often negative in Cl, but not in Zj. The height of M. sinensis and woody plants tended to be high in the order of Zl, Cl, and Ms, became higher annually, and were superior to that of C. lanceolata. Their larger plants are likely to suppress the C. lanceolata populations competitively. This study showed that the C. lanceolata population could decline after the management termination, but its degree varies with the invaded community types. |
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| AbstractList | To characterize the population dynamics of the invasive non-native plant, Coreopsis lanceolata L., we monitored the dynamics of the populations and the invaded communities for three years after the cessation of vegetation management. The monitoring was conducted in the three community types that differ in the abundance of C. lanceolata and species composition: the Zoysia japonica Steud. dominant type (Zj), the C. lanceolata dominant type (Cl), and the Miscanthus sinensis Anderss. dominant type (Ms). The above-ground shoots of C. lanceolata were used for the monitoring. At the beginning of the survey, the number of above-ground shoots was high in the order of Cl, Zj, and Ms. The number of shoots decreased for the three years in all the community types. The degree of decrease was more conspicuous in Cl than in Zj, and the population vanished in Ms for the study period. The small shoots were more likely to die than the larger ones, particularly many small shoots died in Cl in the latter half of the study period. Most of the bolting shoots died until the next year, indicating that bolting is an important factor in the death of large shoots. The annual growth of the above-ground shoots was often negative in Cl, but not in Zj. The height of M. sinensis and woody plants tended to be high in the order of Zl, Cl, and Ms, became higher annually, and were superior to that of C. lanceolata. Their larger plants are likely to suppress the C. lanceolata populations competitively. This study showed that the C. lanceolata population could decline after the management termination, but its degree varies with the invaded community types. |
| Author | Okubo, Kumiko Saito, Tatsuya I. |
| Author_xml | – sequence: 1 fullname: Saito, Tatsuya I. organization: Faculty of Agriculture, Shinshu University – sequence: 1 fullname: Okubo, Kumiko organization: Faculty of Agriculture, Shinshu University |
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| References | 畠瀬頼子・小栗ひとみ・松江正彦 2010.刈り取り管理の時期および回数が特定外来生物オオキンケイギクに及ぼす影響と防除効果.ランドスケープ研究 73, 421–426. 清水建美 2003.「日本の帰化植物」.平凡社,東京 大窪久美子 2005.草原のモニタリング調査方法.日本自然保護協会編「植物群落モニタリングのすすめ―自然保護に活かす『植物群落レッドデータブック』」.文一総合出版,東京,pp. 243–256. 畠瀬頼子・小栗ひとみ・藤原宣夫・宇津木栄津子・戸井可名子・井本郁子・松江正彦 2009.木曽川におけるオオキンケイギク優占群落での礫河原植生復元のための植生管理の効果.ランドスケープ研究 72, 537–542. 米倉浩司・梶田忠 2003-.BG Plants和名―学名インデックス.http://ylist.info(2024年9月29日確認) Bates, D., M. Maechler, B. Bolker, S. Walker, R.H.B. Christensen, H. Singmann, B. Dai, F. Scheipl, G. Grothendieck, P. Green, J. Fox, A. Bauer and P.N. Krivitsky 2023. lme4: Linear Mixed-Effects Models using ‘Eigen’ and S4, Version 1.1-34. https://cran.r-project.org/web/packages/lme4/index.html(2023年9月19日アクセス確認) Saito, T.I. and K. Okubo 2013. Influences of invasive herb Coreopsis lanceolata on riparian endemic herbs in relation to the understory light availability. Landsc. Ecol. Eng. 9, 271–280. Zeng, J.J., B. Zhou and N. Wang 2021. Comparing the reproductive biological characteristics of the alien invasive Coreopsis lanceolata to those of the non-invasive alien congener Coreopsis tinctoria. Plant Species Biol. 36, 379–389. Banovetz, S.J. and S.M. Scheiner 1994b. The effects of seed mass on the seed ecology of Coreopsis lanceolata. Am. Midl. Nat. 131, 65–74. Batianoff, G.N. and D.A. Halford 2002. Coreopsis lanceolata L. (Asteraceae): another environmental weed for Queensland and Australia. Plant Prot. Q. 17, 168–169. Saito, T.I. and K. Okubo 2011. The relationship between alien herb Coreopsis lanceolata and soil texture types on gravelly floodplain vegetation in central Japan. Veg. Sci. 28, 39–47. 斎藤達也・大窪久美子 2006.外来植物オオキンケイギクCoreopsis lanceolataの定着した半自然草地の種組成および群落構造と遷移状況.ランドスケープ研究 69, 541–544. 高橋佳孝・井上雅仁・白川勝信・太田陽子・増井太樹・兼子伸吾・堤道生 2011.西日本における半自然草地生態系と人間への福利に関する現状と傾向.島根県立三瓶自然館研究報告 9, 1–24. Arifin, M. and T. Okamoto 2023. Floral scent and pollination of the invasive plant Coreopsis lanceolata in Japan. J. Pollinat. Ecol. 33, 108–127. 百瀬剛・藤田淳一・佐藤靖 2010.天竜川上流の堤防法面におけるオオキンケイギクの抑制手法の検討.日本緑化工学会誌 36, 135–138. Barton, K. 2023. MuMIn: Multi-model Inference, Version 1.47.5. https://cran.r-project.org/web/packages/MuMIn/index.html(2023年9月19日アクセス確認) Folgate, L.A. and S.M. Scheiner 1992. Distribution of a restricted locally abundant species: effects of competition and nutrients on Coreopsis lanceolata. Am. Midl. Nat. 128, 254–269. 澤田みつ子・小幡和男・上條隆志・中村徹 2010.茨城県菅生沼における火入れがオギニ次草原のタチスミレに及ぼす影響.ランドスケープ研究73, 834–838. 宮脇昭 1977.植生調査法.宮脇昭編「日本の植生」.学習研究社,東京,pp. 498–506. Kawano, S., A. Hiratsuka and K. Hayashi 1982. Life history characteristics and survivorship of Erythronium japonicum. The productive and reproductive biology of flowering plants V. Oikos 38, 129–149. 環境省 2023.日本の外来種対策.https://www.env.go.jp/nature/intro/index.html(2023年9月5日アクセス確認) 赤坂宗光・斎藤達也・大澤剛士・黒川俊二・水口亜樹・下野嘉子・西田智子 2014.日本国内における外来植物を扱う研究の現状と求められる課題.雑草研究 59, 81–92. R Core Team 2023. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Banovetz, S.J. and S.M. Scheiner 1994a. Secondary seed dormancy in Coreopsis lanceolata. Am. Midl. Nat. 131, 75–83. 気象庁 2023.過去の気象データ.https://www.data.jma.go.jp/obd/stats/etrn/index.php(2023年8月28日確認) 堀良通 2005.植物個体群統計学のための野外調査法.種生物学会編「草木を見つめる科学」.文一総合出版,東京,pp. 229–239. Saito, T.I. and K. Okubo 2012. Effects of vegetation cutting on the invasive plant Coreopsis lanceolata vary with vegetation type. Landsc. Ecol. Eng 8, 207–214. 坂上清一 2001.ススキ草地植生の長期的傾向:20年間の野外観測.Grassl. Sci. 47, 430–435. 畠瀬頼子・小栗ひとみ・松江正彦 2008.木曽川中流域における植生変遷と特定外来生物オオキンケイギクの分布特性.ランドスケープ研究 71, 553–556. 国立環境研究所 2023.侵入生物データベース―オオキンケイギク.https://www.nies.go.jp/biodiversity/invasive/DB/detail/80490.html(2023年9月5日アクセス確認) 斎藤達也・中川玄祐 2019.小学校における外来種の管理とモニタリング調査―外来植物オオキンケイギクを対象とした事例.環境教育 29, 24–30. 藤原宣夫 2009.木曽川中流域3市(可児市,各務原市,犬山市)におけるオオキンケイギクの分布状況.日本緑化工学会誌 35, 162–165. 22 23 24 25 26 27 28 29 30 31 10 32 11 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 20 21 |
| References_xml | – reference: 気象庁 2023.過去の気象データ.https://www.data.jma.go.jp/obd/stats/etrn/index.php(2023年8月28日確認) – reference: R Core Team 2023. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. – reference: 清水建美 2003.「日本の帰化植物」.平凡社,東京. – reference: 畠瀬頼子・小栗ひとみ・藤原宣夫・宇津木栄津子・戸井可名子・井本郁子・松江正彦 2009.木曽川におけるオオキンケイギク優占群落での礫河原植生復元のための植生管理の効果.ランドスケープ研究 72, 537–542. – reference: 大窪久美子 2005.草原のモニタリング調査方法.日本自然保護協会編「植物群落モニタリングのすすめ―自然保護に活かす『植物群落レッドデータブック』」.文一総合出版,東京,pp. 243–256. – reference: 環境省 2023.日本の外来種対策.https://www.env.go.jp/nature/intro/index.html(2023年9月5日アクセス確認) – reference: Kawano, S., A. Hiratsuka and K. Hayashi 1982. Life history characteristics and survivorship of Erythronium japonicum. The productive and reproductive biology of flowering plants V. Oikos 38, 129–149. – reference: 赤坂宗光・斎藤達也・大澤剛士・黒川俊二・水口亜樹・下野嘉子・西田智子 2014.日本国内における外来植物を扱う研究の現状と求められる課題.雑草研究 59, 81–92. – reference: Barton, K. 2023. MuMIn: Multi-model Inference, Version 1.47.5. https://cran.r-project.org/web/packages/MuMIn/index.html(2023年9月19日アクセス確認) – reference: Saito, T.I. and K. Okubo 2013. Influences of invasive herb Coreopsis lanceolata on riparian endemic herbs in relation to the understory light availability. Landsc. Ecol. Eng. 9, 271–280. – reference: Arifin, M. and T. Okamoto 2023. Floral scent and pollination of the invasive plant Coreopsis lanceolata in Japan. J. Pollinat. Ecol. 33, 108–127. – reference: 澤田みつ子・小幡和男・上條隆志・中村徹 2010.茨城県菅生沼における火入れがオギニ次草原のタチスミレに及ぼす影響.ランドスケープ研究73, 834–838. – reference: 畠瀬頼子・小栗ひとみ・松江正彦 2008.木曽川中流域における植生変遷と特定外来生物オオキンケイギクの分布特性.ランドスケープ研究 71, 553–556. – reference: 坂上清一 2001.ススキ草地植生の長期的傾向:20年間の野外観測.Grassl. Sci. 47, 430–435. – reference: 畠瀬頼子・小栗ひとみ・松江正彦 2010.刈り取り管理の時期および回数が特定外来生物オオキンケイギクに及ぼす影響と防除効果.ランドスケープ研究 73, 421–426. – reference: 斎藤達也・大窪久美子 2006.外来植物オオキンケイギクCoreopsis lanceolataの定着した半自然草地の種組成および群落構造と遷移状況.ランドスケープ研究 69, 541–544. – reference: Batianoff, G.N. and D.A. Halford 2002. Coreopsis lanceolata L. (Asteraceae): another environmental weed for Queensland and Australia. Plant Prot. Q. 17, 168–169. – reference: 米倉浩司・梶田忠 2003-.BG Plants和名―学名インデックス.http://ylist.info(2024年9月29日確認) – reference: Bates, D., M. Maechler, B. Bolker, S. Walker, R.H.B. Christensen, H. Singmann, B. Dai, F. Scheipl, G. Grothendieck, P. Green, J. Fox, A. Bauer and P.N. Krivitsky 2023. lme4: Linear Mixed-Effects Models using ‘Eigen’ and S4, Version 1.1-34. https://cran.r-project.org/web/packages/lme4/index.html(2023年9月19日アクセス確認) – reference: Banovetz, S.J. and S.M. Scheiner 1994a. Secondary seed dormancy in Coreopsis lanceolata. Am. Midl. Nat. 131, 75–83. – reference: 藤原宣夫 2009.木曽川中流域3市(可児市,各務原市,犬山市)におけるオオキンケイギクの分布状況.日本緑化工学会誌 35, 162–165. – reference: 百瀬剛・藤田淳一・佐藤靖 2010.天竜川上流の堤防法面におけるオオキンケイギクの抑制手法の検討.日本緑化工学会誌 36, 135–138. – reference: 斎藤達也・中川玄祐 2019.小学校における外来種の管理とモニタリング調査―外来植物オオキンケイギクを対象とした事例.環境教育 29, 24–30. – reference: 高橋佳孝・井上雅仁・白川勝信・太田陽子・増井太樹・兼子伸吾・堤道生 2011.西日本における半自然草地生態系と人間への福利に関する現状と傾向.島根県立三瓶自然館研究報告 9, 1–24. – reference: Zeng, J.J., B. Zhou and N. Wang 2021. Comparing the reproductive biological characteristics of the alien invasive Coreopsis lanceolata to those of the non-invasive alien congener Coreopsis tinctoria. Plant Species Biol. 36, 379–389. – reference: Banovetz, S.J. and S.M. Scheiner 1994b. The effects of seed mass on the seed ecology of Coreopsis lanceolata. Am. Midl. Nat. 131, 65–74. – reference: 国立環境研究所 2023.侵入生物データベース―オオキンケイギク.https://www.nies.go.jp/biodiversity/invasive/DB/detail/80490.html(2023年9月5日アクセス確認) – reference: Saito, T.I. and K. Okubo 2011. The relationship between alien herb Coreopsis lanceolata and soil texture types on gravelly floodplain vegetation in central Japan. Veg. Sci. 28, 39–47. – reference: Folgate, L.A. and S.M. Scheiner 1992. Distribution of a restricted locally abundant species: effects of competition and nutrients on Coreopsis lanceolata. Am. Midl. Nat. 128, 254–269. – reference: 宮脇昭 1977.植生調査法.宮脇昭編「日本の植生」.学習研究社,東京,pp. 498–506. – reference: Saito, T.I. and K. Okubo 2012. Effects of vegetation cutting on the invasive plant Coreopsis lanceolata vary with vegetation type. Landsc. Ecol. Eng 8, 207–214. – reference: 堀良通 2005.植物個体群統計学のための野外調査法.種生物学会編「草木を見つめる科学」.文一総合出版,東京,pp. 229–239. – ident: 18 – ident: 8 doi: 10.2307/2426459 – ident: 15 doi: 10.2307/3544013 – ident: 9 doi: 10.7211/jjsrt.35.162 – ident: 4 doi: 10.2307/2426609 – ident: 16 – ident: 14 – ident: 31 – ident: 28 – ident: 2 doi: 10.26786/1920-7603(2023)740 – ident: 24 – ident: 10 doi: 10.5632/jila.72.537 – ident: 7 – ident: 1 doi: 10.3719/weed.59.81 – ident: 20 – ident: 19 doi: 10.7211/jjsrt.36.135 – ident: 32 doi: 10.1111/1442-1984.12323 – ident: 22 – ident: 17 – ident: 26 doi: 10.1007/s11355-011-0179-7 – ident: 5 – ident: 12 doi: 10.5632/jila.73.421 – ident: 3 doi: 10.2307/2426610 – ident: 13 – ident: 25 doi: 10.1007/s11355-011-0173-0 – ident: 29 – ident: 30 – ident: 11 doi: 10.5632/jila.71.553 – ident: 23 doi: 10.5632/jila.69.541 – ident: 6 – ident: 21 – ident: 27 |
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| Title | Population dynamics of the non-native plant species, Coreopsis lanceolata L., at three plant community types over a three-year period following the cessation of grassland management in central Japan |
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