Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency
| ISSN: |
1432-2145
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| Keywords: |
Key words Evolution of anisogamy ; Mating behavior ; Mating efficiency ; Monostroma angicava ; Phototaxis
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| Source: |
Springer Online Journal Archives 1860-2000
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| Topics: |
Biology
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| Notes: |
Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae.
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| Type of Medium: |
Electronic Resource
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| URL: |
| _version_ | 1798295947232411648 |
|---|---|
| autor | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| autorsonst | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| book_url | http://dx.doi.org/10.1007/s004970050187 |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLM206006004 |
| issn | 1432-2145 |
| journal_name | Sexual plant reproduction |
| materialart | 1 |
| notes | Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae. |
| package_name | Springer |
| publikationsjahr_anzeige | 1999 |
| publikationsjahr_facette | 1999 |
| publikationsjahr_intervall | 8004:1995-1999 |
| publikationsjahr_sort | 1999 |
| publisher | Springer |
| reference | 12 (1999), S. 158-163 |
| schlagwort | Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis |
| search_space | articles |
| shingle_author_1 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| shingle_author_2 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| shingle_author_3 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| shingle_author_4 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan |
| shingle_catch_all_1 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae. 1432-2145 14322145 Springer |
| shingle_catch_all_2 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae. 1432-2145 14322145 Springer |
| shingle_catch_all_3 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae. 1432-2145 14322145 Springer |
| shingle_catch_all_4 | Togashi, T. Motomura, Taizo Ichimura, Terunobu Cox, Paul Alan Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Key words Evolution of anisogamy Mating behavior Mating efficiency Monostroma angicava Phototaxis Abstract. The role of phototactic behavior of gametes was tested experimentally in the slightly anisogamous marine green alga Monostroma angicava Kjellman, and the effect of phototaxis on mating efficiency was discovered. Both male and female gametes showed positive phototaxis in response to a white light source. In contrast, they did not respond to a red light source. Their swimming velocity did not differ between these two illuminating light sources. It was, therefore, suggested that the search ability of the gamete itself might not vary between phototactic and non-phototactic conditions. The number of zygotes formed during the mating process may be expressed as the product of the number of encounters between male and female gametes and the fraction of encounters that result in sexual fusion. In this study, with high densities of male and female gametes mixed in test tubes, almost all minor (fewer in number) gametes fused sexually within 10 min. After dilution of the gamete suspensions by half, mating efficiency in test tubes illuminated by white light from above was higher than that in dark controls. This suggests that male and female gametes gathered at the water surface through their positive phototaxis, thus increasing the rate of encounters. Mating efficiency also decreased if the test tubes were illuminated from above by white light and also shaken. Since negative phototaxis is clearly shown in planozygotes, we suggest that positive phototaxis of male and female gametes in M. angicava is an adaptive trait for increasing the rate of gametic encounters rather than for the dispersal of zygotes as previously reported for zoospores of some marine algae. 1432-2145 14322145 Springer |
| shingle_title_1 | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| shingle_title_2 | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| shingle_title_3 | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| shingle_title_4 | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| sigel_instance_filter | dkfz geomar wilbert ipn albert fhp |
| source_archive | Springer Online Journal Archives 1860-2000 |
| timestamp | 2024-05-06T09:44:17.900Z |
| titel | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| titel_suche | Gametic behavior in a marine green alga, Monostroma angicava: an effect of phototaxis on mating efficiency |
| topic | W |
| uid | nat_lic_papers_NLM206006004 |