Заявка на участь у конференції

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ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
ALGOLOGICAL NEWSLETTER (Kiev)
АЛЬГОЛОГІЧНИЙ ВІСНИК (Київ)
ІНФОРМАЦІЙНЕ ПОВІДОМЛЕННЯ
№ 12 ГРУДЕНЬ 2001
http://herba.msu.ru/russian/journals/AV/
ЗМІСТ / СОДЕРЖАНИЕ
ОГЛЯД НОВИН / ОБЗОР НОВОСТЕЙ
НАУКОВІ ФОРУМИ / НАУЧНЫЕ ФОРУМЫ
НАУКОВА ПЕРІОДИКА / НАУЧНАЯ ПЕРИОДИКА
БІБЛІОГРАФІЯ / БИБЛИОГРАФИЯ
ДИСКУСІЇ / ДИСКУССИИ
ПЕРСОНАЛІЇ / ПЕРСОНАЛИИ
ДОШКА ОГОЛОШЕНЬ / ДОСКА ОБЪЯВЛЕНИЙ
КОМЕНТАРІ ТА РЕЦЕНЗІЇ / КОММЕНТАРИИ И РЕЦЕНЗИИ
ЕКСПЕДИЦІЇ / ЭКСПЕДИЦИИ
РІЗНЕ / РАЗНОЕ
ОГЛЯД НОВИН / ОБЗОР НОВОСТЕЙ
Уважаемые коллеги!
От всей души поздравляем Вас с наступающими новогодними праздниками и
рождеством! Пусть 2002 год принесет Вам счастье, успехи и новые свершения. Здоровья Вам
и Вашим семьям!
АльгоВестник.
НАУКОВІ ФОРУМИ / НАУЧНЫЕ ФОРУМЫ
Національна академія наук України
Криворізький ботанічний сад
Інститут ботаніки ім. М.Г. Холодного
Наукова конференція
молодих учених
12-15 травня 2002 року
“Еколого-біологічні дослідження на природних та
антропогенно-змінених територіях”
м. Кривий Ріг – 2002
Вельмишановні колеги!
Запрошуємо Вас прийняти участь у роботі наукової конференції молодих учених
“Еколого-біологічні дослідження на природних та антропогенно-змінених територіях”,
яка відбудеться 12-15 травня 2002 р. (т.е. 12-15 мая 2002 г.).
На конференції передбачаються усні та стендові доповіді з таких проблем:
 Еколого-біологічні дослідження на урбанізованих територіях:
 міське середовище: стан, оцінка та прогнозування;
 збереження та збагачення біорізноманіття на урбанізованих територіях;
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
 оптимізація міського середовища;
 рослини і міське середовище: біологічні, молекулярні, фізіологічні та анатомічні аспекти.
 Ботанічні дослідження на природних та антропогенних територіях:
 судинні рослини: систематика, флора, рослинність;
 спорові рослини: систематика, флора.
 Збереження фіторізноманіття на різних рівнях організації:
 фітоекологія.
 Експериментальна ботаніка.

Робочі мови конференції: українська, російська, англійська.
Адреса оргкомітету:
50089, м. Кривий Ріг, вул. Маршака, 50.
Матяшук Раїсі Костянтинівні
Контактні телефони:
(0564) 38-44-74; 38-48-02; 38-49-22
E-mail: botgard@ukrtel.dp.ua
Факс: (0564) 38-48-03
Видання матеріалів конференції
Матеріали конференції плануємо опублікувати окремим збірником. Статті
приймаються розміром 3-5 повних сторінок, в яких мають бути короткий вступ, об’єкти і
методи, результати досліджень та їх аналіз, перелік посилань. Підрозділи статті не називати.
Вимоги до оформлення
Статті набираються в редакторі Word for Windows 6.0-7.0, Office-97, шрифт Times New
Roman (Times New Roman Cyr), розмір 14, через 1.5 інтервалу; текст без переносів і
вирівнювань по ширині; поля 2,5 см, сторінки не нумерувати. Абзаци відокремлювати
окремою строкою. Латинські назви рослин подаються курсивом. Малюнки і таблиці
подаються у вигляді окремих файлів.
Надсилати два примірники віддруковані на білому папері формату А4 і дискету 3,5”.
Оргкомітет залишає за собою право відхиляти матеріали, які не відповідають вимогам
конференції та низького наукового рівня. Відхилені матеріали авторам не повертаються.
Заявка на участь у конференції
Прізвище
Ім’я
По батькові
Посада
Науковий ступінь
Звання
Назва організації
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.
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Поштова адреса
Контактні телефони:
дом. (
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служб. (
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E-mail:
Тема доповіді
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ALGOLOGICAL NEWSLETTER (Kiev)
Форма участі в конференції:
доповідач
учасник
Форма виступу:
пленарна,
секційна,
стендова доповідь
Потреба в готелі
Підпис
.Дата
№ 12 DECEMBER 2001
.
Зразок оформлення матеріалів
Послідовність друкування окремих складових публікації має бути такою:
УДК
СУЧАСНИЙ СТАН, ТЕНДЕНЦІЇ ТА ШЛЯХИ ЗБЕРЖЕННЯ БІОРІЗНОМАНІТТЯ ФЛОРИ
ПРАВОБЕРЕЖНОГО СТЕПОВОГО ПРИДНІПРОВ’Я
В.В.Кучеревський
Криворізький ботанічний сад
Національної академії наук України
50089, м. Кривий Ріг, вул. Маршака, 50
тел.: 0564 – 38-48-02
E-mail: botgard@ukrtel.dp.ua
Факс: (0564) 38-48-03
Територія району має складну …
Один примірник статті підписується всіма авторами на звороті останньої сторінки.
Разом з матеріалами надсилається супровідний лист від установи та один конверт з адресою
автора. Стендовий матеріал має бути виконаний на стандартному аркуші ватману.
Матеріали для публікації надсилати разом із заявкою на участь в конференції до 15
лютого 2002 року (т.е. 15 февраля 2002 года).
Витрати на публікацію матеріалів становлять 10 грн. Кошти перераховуються на
адресу оргкомітету після повідомлення про прийняття матеріалів до друку. Оргвнесок для
учасників конференції становить 10 грн.
Source: В.В. Кучеревский (Криворожский ботанический сад НАН Украины)
Workshop
Analysis of Single Cells in the Marine Phytoplankton (ASCMAP)
15 - 21 April 2002
Alfred Wegener Institute for Polar and Marine Research,
Am Handelshafen 12, 27570 Bremerhaven, Germany
The EU has funded ASCMAP: An analysis of signle cells in the marine phytoplantkon using
flow cytometry, artificial neural networks and oligonucleotide probes. This workshop would be held
in Bremerhaven, Germany and would bring together the most recent developments in two EU
projects AIMS and PICODIV as related to these topics. The workshop would last 7 days and would
be held in the April 15-21 2002. I plan half day invited speakers and half day for contributed
talks/posters, hands on demos of the three methods. The application form can be found on the
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
ASCMAPsite at http://www.sb-roscoff.fr/Phyto/PICODIV/index.html and should be returned to
lmedlin@awi-bremerhaven.de. The project will fund all of the accommodation and subsistence
costs for about 60 people with European nationality on a first come/first serve basis. Participants
must pay their own travel costs and must present a poster of their interest/work related to these
topics. Deadline for receipt of the application form is February 1, 2002. Contact lmedlin@awibremerhaven.de for more details.
thank you for your consideration
Dr. Linda Medlin
Alfred Wegener Institute
Am Handelshafen 12
D-27570 Bremerhaven Germany
New Telephone Number and Fax Number below
Tel. 49-471-4831-1443
Fax. 49-471-4831-1425
see my homepage for latest trees etc.
http://www.awi-remerhaven.de/Biomeer/molekulargenetische-e.html
Source: http://seaweed.nuigalway.ie/algae-l/
НАУКОВА ПЕРІОДИКА / НАУЧНАЯ ПЕРИОДИКА
Публикации о водорослях в “Українському ботанічному журналі” №№2-5, том 58, 2001
Мушак П.О. Глікопротеїни деяких представників нитчастих синьозелених водоростей
// Український ботанічний журнал. – 2001. – 58, №2. – С.216-219.
В статье изложены результаты изучения гликопротеинов синезеленых водорослей Spirulina
platensis (Nordst.) Geitl., 26, Anabaena cylindrica Lemm., 37, Nostoc muscorum Ag., 81, N. punctiforme
(Kütz.) Hariot, 39. Установлено, что фракционный состав гликопротеинов зависит от условий
выращивания водорослей. Показано, что гликопротеины различаются по содержанию белков и
углеводов. В составе белкового компонента гликопротеинов обнаружено 16 аминокислот. В
наибольшем количестве отмечены аспарагиновая и глутаминовая аминокислоты, глицеин и аргинин.
В составе углеводной части как основные компоненты обнаружены арабиноза, глюкоза, галактоза и
некоторые неидентифицированные моносахара. РЕЗЮМЕ.
Syvash O.O., Zolotar’ova O.K. Evolutionary analysis of chlorophyll b functional role in
photosynthetic apparatus // Український ботанічний журнал. – 2001. – 58, №2. – С.152-159.
25% хлорофилла тилакоидных мембран наземных растений и зеленых водорослей составляет
хлорофилл в (Хлв), который не образуется в синезеленых, бурых и красных водорослях.
В работе анализируются возможные эволюционные преимущества Хлв – содержащих
организмов.
Оценочные расчеты вклада Хла и Хлв в общее поглощение энергии света растениями показали,
что в условиях прямого солнечного освещения участие Хлв в светосборе не обеспечивает растению
существенных преимуществ по сравнению с организмами, содержащими только Хла.
Предполагается, что наличие Хлв у наземных растений связано, в первую очередь, с необходимостью
повысить динамические свойства фотосинтетического аппарата в ответ на резкие изменения
интенсивности и спектрального состава света.
Биосинтез Хлв в хлоропластах контролируется величиной мобильного метаболического пула
Хла. Трансформация Хла в Хлв и обратно контролируется двумя различными ферментами, что
позволяет достаточно быстро изменить как содержание Хлв в растении, так и соотношение Хла/в.
РЕЗЮМЕ.
Петльований О.А. Chlorophyta солоних озер Донецько-Приазовського Степу //
Український ботанічний журнал. – 2001. – 58, №5. – С.583-593.
Охарактеризовано состояние изученности Chlorophyta соленых водоемов Донецко-Приазовской
Степи. Впервые для флоры Украины приводятся 2 рода – Maleochloris Pasch., Siderocelopsis Hind., 8
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
видов – Pyramimonas nanella Conrad et Kuff., Maleochloris sessilis Pasch., Botryococcus terribilis Kom. et
Marvan, Radiococcus planctonicus Lund, Siderocelis granulata (Heynig) Kom., Siderocelopsis kolikwizii
(Naum.) Hind., Raphidocelis van-goori Nyg. et al., Stigeoclonium stagnatile (hazen) Coll. Для каждого
вида поданы оригинальные рисунки, указаны особенности морфологии и распространения в мире.
РЕЗЮМЕ.
Крахмальний О.Ф. Gymnodinium radiatum Kofoid & Swezy (Gymnodiniales, Dinophyta)
– новий вид для флори Чорного моря // Український ботанічний журнал. – 2001. – 58, №5. –
С.593-595.
Приведены описание и микрофотография нового для флоры Черного моря и Украины в целом
редкого вида динофитовых водорослей - Gymnodinium radiatum Kofoid & Swezy, найденного в
планктоне Одесского залива в августе 1998 г. Вид известен из Тихого океана (побережье
Калифорнии). РЕЗЮМЕ.
Кондратюк С.Я., Шеляг-Сосонко Ю.Р., Мінарченко В.М., Брунь Г.О. Про
принципи підготовки та ведення державного обліку і кадастру рослинного світу України //
Український ботанічний журнал. – 2001. – 58, №5. – С.618-626.
Коллектив сотрудников Института ботаники им. Н.Г. Холодного НАН Украины подготовил
проект Инструкции о порядке ведения государственного учета и кадастра растительного мира.
Кадастр определяет порядок учета видового разнообразия различных групп растений, в частности
сосудистых растений, мохообразных, лишайников, водорослей и грибов, растительных сообществ и
растительных ресурсов, порядок создания экспертного совета и назначения ответственных
исполнителей, отбора исходных материалов для подготовки учетных реестров и государственного
кадастра растительного мира, а также учреждения, ответственные за ведение государственного
кадастра. Рассмотрено состояние нормативно-правовой базы в области воспроизводства природных
ресурсов. РЕЗЮМЕ.
Борисова О.В., Царенко П.М. Колекція культур водоростей Інституту ботаніки ім.
М.Г. Холодного (IBASU-A) // Український ботанічний журнал. – 2001. – 58, №5. –627-632.
Приведен критический пересмотр материалов коллекции отдела споровых растений Института
ботаники им. Н.Г. Холодного НАН Украины, объем которой постоянно увеличивается за счет
культур водорослей с территории Украины. В настоящее время она насчитывает около 400 штаммов
пресноводных и галофильных водорослей отдела Chlorophyta, относящихся к 3 классам, 5 порядкам,
28 родам и 75 видам. Описаны структура коллекции, состояние культур и методы их поддержания.
Приведен дополнительный и исправленный список видов водорослей, представленных в коллекции, с
указанием девяти типовых штаммов. Намечены пути дальнейшего развития коллекции. Поднят
вопрос о необходимости методических разработок для сохранения штаммов редких и исчезающих
видов водорослей Украины. РЕЗЮМЕ.
Альгология, том 11, №4, 2001.
ЕВСТИГНЕЕВА И.Е. Эколого-фитоценотическая характеристика и запасы донной
растительности бухты Планерская (Черное море)// Альгология. – 2001. – 11, №4. – С.423-432.
Описаны типы фитоценозов, их структура и развитие на разной глубине на станциях шести
гидроботанических разрезов. Определены запасы макрофитов и площадь под ними. По составу
водорослей-индикаторов сапробности среды установлено, что качество воды в бухте приближается к
мезотрофномк уровню. РЕЗЮМЕ.
ДОГАДИНА Т.В., ГОРБУЛИН О.С., КОСТЕНКО Д.В. Видовой состав и
распространение Xanthophyta в Украине // Альгология. – 2001. – 11, №4. – С.433-440.
Приведены результаты обобщения литературных и оригинальных данних о видовом составе и
распространении Xanthophyta в водоемах Украины. Указано, что флора Xanthophyta Украины
включает 344 видовых и внутривидовых таксона, что составляет 44,96 % мровой флоры Xanthophyta
(incl. Eustigmatophyta). Природные зоны Украины в отношении Xanthophyta изучены неравномерно:
для Лесостепи известно 267 видов (276 разновидностей и форм), для Степи – 212 (217), для
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
Украинского Полесья – 85 (90), для Горного Крима – 53 (53), для Украинских Карпат – 29 (29) видов.
РЕЗЮМЕ.
ШАРИПОВА М.Ю. Водоросли карстовых пещер заповедника Шульган-Таш (Южный
Урал, Россия) // Альгология. – 2001. – 11, №4. – С.441-450.
Приведены данные альгологического исследования двух пещер заповедника Шульган-Таш
(Южный Урал, Россия). При помощи культуральных методов выявлен богатый видовой и
таксономический состав водорослей – 52 вида, которые относятся к 4 отделам. Из них 45 видов
выявлено в пещере Шульган-Таш и 12 – в пещере Мись-Таш. Большинство выявленных водорослей
относятся к троглоксенам. Установлено, что с проникновением в глубину пещер уменьшается
видовое разнообразие водорослей и изменяются доминирующие альгоугруппировки, а также
соотношение водорослей разных отделов. Осуществлено сравнение полученных результатов с
данными литературы. РЕЗЮМЕ.
ОЛЬШТЫНСКАЯ А.П. Морфологическая и таксономическая характеристика
некоторых диатомей палеогена Украины // Альгология. – 2001. – 11, №4. – С.451-456.
По новым данным о морфологии ископаемых диатомей из палеогеновых отложений Украины
описан новый вид Pseudohyalodiscus entis Olsht. sp nov., новая разновидность в составе вида
Porodiscus nitidus Grev., редкий вид Actinoptychus sp. и уточнены диагнозы видов Monopsia mammosa
Gr. et St., Peponia barbadensis Grev. и Lisitzinia inconspicua (Grev.) Gles. РЕЗЮМЕ.
ГЕНКАЛ С.И., КОРНЕВА Л.Г. Новые находки диатомовых водорослей
(Centrophyceae) из волжских водохранилищ (Россия) // Альгология. – 2001. – 11, №4. –
С.457-461.
Приведены результаты электронно-микроскопического изучения диатомовых водорослей
(Centrophyceae) из некоторых водохранилищ волжского каскада. Описан новый для науки вид –
Stephanodiscus volgensis sp. nov., два новых для флоры России представителя рода Thalassiosira (Th.
faurii (Gasse) Hasle и Th. gessneri Hust.) и редкая для каскада разновидность Th. bramaputrae var.
septentrionalis (Grun.) Makar. РЕЗЮМЕ.
КЕПЕЛЬ А.А. Новый вид рода Hapterophycus Setch. et Gardn. (Scytosiphonaceae,
Phaeophyta) из залива Петра Великого (Японское море) // Альгология. – 2001. – 11, №4. –
С.462-467.
Описан Hapterophycus prinoriensis Kepel. (Scytosiphonaceae, Phaeophyta) – новый для науки вид
бурых водорослей, собранный на побережье залива Петра Великого (Японское море). Характерными
особенностями данного вида являются ризоиды на вентральной поверхности корочки, длинные
волосинки, которые высунуты более чем на половину длины с криптостом, парафизы 100-230 мкм
длиной и сидячие булавовидные до овальных одногнездные спорангии 28-30х80-130 мкм. РЕЗЮМЕ.
КРАХМАЛЬНЫЙ А.Ф. Новый вид рода Peridiniopsis Lemm. (Peridiniales, Dinophyta)
// Альгология. – 2001. – 11, №4. – С.468-473.
Описан новый для науки вид динофитовых водорослей – Peridiniopsis rhomboides Krachmalny
sp. nov., найденный в различных пресных водоемах Украины в июле 1994 г., в сентябре 1997 г. и мае
1999 р. Обсуждаются его морфологические признаки и отличия от близких видов. РЕЗЮМЕ.
КУРЕЙШЕВИЧ А.В., СИРЕНКО Л.А., УСЕНКО О.М., МЕДВЕДЬ В.А. Оценка
динамики биомассы планктонных водорослей в Киевском водозаборе по содержанию
хлорофилла а // Альгология. – 2001. – 11, №4. – С.474-485.
Приведены данные о сезонной динамике (в разные годы) видового состава, численности и
биомассы водорослей, а также содержания хлорофилла а в планктоне нижнего бьефа Киевского
водохранилища в районе Киевского водосборника. Средние показатели содержания хлорофилла а на
протяжении 1992-1999 гг. варьировали в границах величин (4,1-6,7 мкг/л), характерных для
мезотрофных водоемов. Максимальные концентрации хлорофилла а в планктоне совпадали с
максимумами биомассы водорослей; между этими показателями наблюдалась достоверная
корреляция. Предлагается использовать содержание хлорофилла а в планктоне для мониторинга
ALGOLOGICAL NEWSLETTER (Kiev)
обилия фитопланктона в
водооснащения. РЕЗЮМЕ.
районах
№ 12 DECEMBER 2001
водосборников
коммунально-бытового
и
технического
ПЕТРОСЯН А.Г., ЕЛЬСТЕР А.М. Длительное хранение культур Phaeodactylum
tricornutum Bohl. (Chrysophyta)// Альгология. – 2001. – 11, №4. – С.486-494.
Рассматриваются некоторые особенности длительного сохранения культур Phaeodactylum
tricornutum Bohl., которые используются в биотестировании морских вод. Описаны методические
приемы их виращивания на агаризованних средах. Предложен оптимальный режим темновой
предварительной инкубации культур с кратковременным фотопериодом, который позволяет
увеличить жизнедеятельность культуры на протяжении 30-40 суток. РЕЗЮМЕ.
ПОНОМАРЕНКО С.П., ПАРШИКОВА Т.В. Экспресс-оценка эффективности
биологически активных веществ на тест-культурах водорослей // Альгология. – 2001. – 11,
№4. – С.495-501.
Установлена возможность использования лазерной корреляционно-допплеровськой
спектрометрии для экспресс-оценки эффективности емистима С и ивина как стимуляторов роста
водорослей в условиях управляемого биосинтеза. Использование этого метода значительно расширит
сферу поиска перспективных для фотобиотехнологий стимуляторов роста, ускорит процесс оценки.
РЕЗЮМЕ.
НЕСТЕРОВА Д.А. “Цветение” воды в северо-западной части Черного моря (Обзор) //
Альгология. – 2001. – 11, №4. – С.502-513.
Обобщены многолетние данные (1973-1997 гг.) о 135 случаях “цветения” воды в эвтрофной
северо-западной части Черного моря. К числу видов-возбудителей “цветения” воды отнесен 41 вид и
внутренневидовой таксон водорослей из 5 систематических отделов. По частоте вспышек массового
развития види-возбудители “цветения” воды разделены на три группы: первая группа объединила
виды, которые вызывают “цветение” 5-17 раз; вторая – 3-5 и третья – 1-3 раза. “Цветение”
происходило почти целый год в поверхностном слое моря, который попадает под влияние
пресноводного стока. Отмечено уменьшение количества случаев “цветения” от 1973-1980 гг. (53
случая) до 1991-1997 (33). Обсуждаются причины, стимулирующие сильное “цветение” воды и их
последствия для морской биоты. РЕЗЮМЕ.
БОРИСОВА Е.В., ВОЛОШКО Л.Н., ВАССЕР С.П. Памяти Б.В. Громова // Альгология. –
2001. – 11, №4. – С.514-518.
СИРЕНКО Л.А. Симпозиум по актуальным проблемам современной альгологии //
Альгология. – 2001. – 11, №4. – С.519-522.
Journal of Phycology, 2001, Volume 37, Issue 6
Luigi Provasoli Award Recipients. J. Phycol. 2001 37: 925.
Algae - Highlights:
F. Gerald Plumley. Purification of an enzyme involved in saxitoxin synthesis. J. Phycol. 2001 37:
926-928.
James V. Moroney. Carbon concentrating mechanisms in aquatic photosynthetic organisms: a
report on CCM 2001. J. Phycol. 2001 37: 928-931.
Minireviews:
Susan H. Brawley. Contributions of algal research to science. J. Phycol. 2001 37: 932.
Lena Suzuki and Carl Hirschie Johnson. Algae know the time of day: circadian and
photoperiodic programs. J. Phycol. 2001 37: 933-942.
Eukaryotic algae have long served as model systems for analyses of circadian (daily) rhythms of many
phenomena, including rhythmic gene expression, cell division timing, taxes, photosynthesis, and others.
More recently, circadian clocks have been demonstrated in cyanobacteria, and rapid progress on the
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
characteristics and mechanism of timekeeping in these prokaryotic algae ensued. These daily timekeepers
enhance the fitness of algae and may contribute to seasonal responses. ABSTRACT.
John A. Raven and Jacqueline Girard-Bascou. Algal model systems and the elucidation of
photosynthetic metabolism. J. Phycol. 2001 37: 943-950.
The main impact of algal investigations on a wider understanding of photosynthesis in O2 evolvers has
come about through studies on microalgae. Experiments with flashing light led to the concepts of photosynthetic units and reaction centers. Work on photon yields and the Emerson enhancement effect with
fluorescence and spectroscopy, as well as investigations with mutants, were crucial in elaborating and then
testing the validity of the Z scheme for light reactions. The carbon reduction (or Calvin) cycle was discovered
using 14C, chromatography, and Chlorella (plus Scenedesmus). The availability of complete gene sequences
for several cyanobacteria and the flowering plant Arabidopsis and very soon for the eukaryotic alga
Chlamydomonas permit important advances in our understanding of photosynthesis in all these organisms.
Eukaryotic microalgae and cyanobacteria remain advantageous in fundamental photosynthetic studies.
ABSTRACT.
Geoffrey Ian McFadden. Primary and secondary endosymbiosis and the origin of plastids. J.
Phycol. 2001 37: 951-959.
The theory of endosymbiosis describes the origin of plastids from cyanobacterial-like prokaryotes
living within eukaryotic host cells. The endosymbionts are much reduced, but morphological, biochemical,
and molecular studies provide clear evidence of a prokaryotic ancestry for plastids. There appears to have
been a single (primary) endosymbiosis that produced plastids with two bounding membranes, such as those
in green algae, plants, red algae, and glaucophytes. A subsequent round of endosymbioses, in which red or
green algae were engulfed and retained by eukaryotic hosts, transferred photosynthesis into other eukaryotic
lineages. These endosymbiotic plastid acquisitions from eukaryotic algae are referred to as secondary
endosymbioses, and the resulting plastids classically have three or four bounding membranes. Secondary
endosymbioses have been a potent factor in eukaryotic evolution, producing much of the modern diversity of
life. ABSTRACT.
John A. Raven and Colin Brownlee. Understanding membrane function. J. Phycol. 2001 37: 960967.
Work on algae has had wide-ranging impacts on our understanding of membrane function. Work on
giant cells of freshwater and marine algae has been very important in defining and characterizing active
transport systems for ions and other solutes and for studying other transport processes at the plasmalemma
and tonoplast. Such work was particularly important in changing the focus of studies of higher plant
membrane transport processes in the 1960s. Recent technical and genetic advances mean that studies
formerly confined to large algal cells can now also be performed on higher plants and microalgae, but work
on giant cells still makes important contributions. Studies on fucoid embryos continues to make significant
contributions to our understanding of the role of transmembrane calcium fluxes in early development. This
work has wide-ranging implications for the development of other organisms. ABSTRACT.
Gary H. Wikfors and Masao Ohno. Impact of algal research in aquaculture. J. Phycol. 2001 37:
968-974.
Algal aquaculture worldwide is estimated to be a $5–6 billion U.S. per year industry. The largest
portion of this industry is represented by macroalgal production for human food in Asia, with increasing
activity in South America and Africa. The technical foundation for a shift in the last half century from wild
harvest to farming of seaweeds lies in scientific research elucidating life histories and growth characteristics
of seaweeds with economic interest. In several notable cases, scientific breakthroughs enabling seaweedaquaculture advances were not motivated by aquaculture needs but rather by fundamental biological or
ecological questions. After scientific breakthroughs, development of practical cultivation methods has been
accomplished by both scientific and commercial-cultivation interests. Microalgal aquaculture is much smaller
in economic impact than seaweed cultivation but is the subject of much research. Microalgae are cultured for
direct human consumption and for extractable chemicals, but current use and development of cultured
microalgae is increasingly related to their use as feeds in marine animal aquaculture. The history of
microalgal culture has followed two main paths, one focused on engineering of culture systems to respond to
physical and physiological needs for growing microalgae and the other directed toward understanding the
nutritional needs of animals—chiefly invertebrates such as mollusks and crustaceans—that feed upon
microalgae. The challenge being addressed in current research on microalgae in aquaculture food chains is to
combine engineering and nutritional principles so that effective and economical production of microalgal
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
feed cultures can be accomplished to support an expanding marine animal aquaculture industry.
ABSTRACT.
Thierry Chopin, Alejandro H. Buschmann, Christina Halling, Max Troell, Nils Kautsky, Amir
Neori, George P. Kraemer, José A. Zertuche-González, Charles Yarish, and Christopher Neefus.
Integrating seaweeds into marine aquaculture systems: a key toward sustainability. J. Phycol.
2001 37: 975-986.
The rapid development of intensive fed aquaculture (e.g. finfish and shrimp) throughout the world is
associated with concerns about the environmental impacts of such often monospecific practices, especially
where activities are highly geographically concentrated or located in suboptimal sites whose assimilative
capacity is poorly understood and, consequently, prone to being exceeded. One of the main environmental
issues is the direct discharge of significant nutrient loads into coastal waters from open-water systems and
with the effluents from land-based systems. In its search for best management practices, the aquaculture
industry should develop innovative and responsible practices that optimize its efficiency and create
diversification, while ensuring the remediation of the consequences of its activities to maintain the health of
coastal waters. To avoid pronounced shifts in coastal processes, conversion, not dilution, is a common-sense
solution, used for centuries in Asian countries. By integrating fed aquaculture (finfish, shrimp) with
inorganic and organic extractive aquaculture (seaweed and shellfish), the wastes of one resource user become
a resource (fertilizer or food) for the others. Such a balanced ecosystem approach provides nutrient
bioremediation capability, mutual benefits to the cocultured organisms, economic diversification by
producing other value-added marine crops, and increased profitability per cultivation unit for the aquaculture
industry. Moreover, as guidelines and regulations on aquaculture effluents are forthcoming in several
countries, using appropriately selected seaweeds as renewable biological nutrient scrubbers represents a costeffective means for reaching compliance by reducing the internalization of the total environmental costs. By
adopting integrated polytrophic practices, the aquaculture industry should find increasing environmental,
economic, and social acceptability and become a full and sustainable partner within the development of
integrated coastal management frameworks. ABSTRACT.
Physiology and Biochemistry:
Margaret Davey and Richard J. Geider. Impact of iron limitation on the photosynthetic
apparatus of the diatom Chaetoceros muelleri (Bacillariophyceae). J. Phycol. 2001 37: 9871000.
Iron starvation induced marked increases in flavodoxin abundance and decreases in light-saturated and
light-limited photosynthesis rates in the diatom Chaetoceros muelleri. Consistent with the substitution of
flavodoxin for ferredoxin as an early response to iron starvation, increases of flavodoxin abundance were
observed before declines of cell division rate or chl a specific photosynthesis rates. Changes in the abundance
of flavodoxin after the addition of iron to iron-starved cells indicated that flavodoxin was not actively
degraded under iron-replete conditions. Greater declines in light-saturated oxygen evolution rates than dark
oxygen consumption rates indicated that the mitochondrial electron transfer chain was not affected as greatly
by iron starvation as the photosynthetic electron transfer chain. The carbon:nitrogen ratio was unaffected by
iron starvation, suggesting that photosynthetic electron transfer was a primary target of iron starvation and
that reductions in nitrate assimilation were due to energy limitation (the C:N ratio would be expected to rise
under nitrogen-limited but energy-replete conditions). Parallel changes were observed in the maximum lightsaturated photosynthesis rate and the light-limited initial slope of the photosynthesis-light curve during iron
starvation and recovery. The lowest photosynthesis rates were observed in iron-starved cells and the highest
values in iron-replete cells. The light saturation parameter, Ik, was not affected by iron starvation, nor was the
chl-to-C ratio markedly reduced. These observations were consistent with iron starvation having a similar or
greater effect on photochemical charge separation in PSII than on downstream electron transfer steps.
Declines of the ratio of variable to maximum fluorescence in iron-starved cells were consistent with PSII
being a primary target of iron starvation. The functional cross-section of PSII was affected only marginally
(<20%) by iron starvation, with the largest values observed in iron-starved cells. The rate constant for
electron transfer calculated from fast repetition rate fluorescence was found to covary with the light-saturated
photosynthesis rate; it was lowest in the most severely starved cells. ABSTRACT.
Margaret R. Mulholland, Kaori Ohki, and Douglas G. Capone. Nutrient controls on nitrogen
uptake and metabolism by natural populations and cultures of Trichodesmium
(Cyanobacteria). J. Phycol. 2001 37: 1001-1009.
The effects of inorganic nutrient (ammonium [NH4+] and nitrate [NO3-]) and amino acid (glutamate
[glu] and glutamine [gln]) additions on rates of N2 fixation, N uptake, glutamine synthetase (GS) activity, and
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№ 12 DECEMBER 2001
concentrations of intracellular pools of gln and glu were examined in natural and cultured populations of
Trichodesmium. Additions of 1 µM glu, gln, NO3-, or NH4+ did not affect short-term rates of N2 fixation. This
may be an important factor that allows for continued N2 fixation in oligotrophic areas where recycling
processes are active. N2 fixation rates decreased when nutrients were supplied at higher concentrations (e.g.
10 µM). Uptake of combined N (NH4+, NO3-, and amino acids) by Trichodesmium was stimulated by
increased concentrations. For NO3-, proportional increases in NO3- uptake and decreases in N2 fixation were
observed when additions were made to cultures before the onset of the light period. GS activity did not
change much in response to the addition of NH4+, NO3-, glu, or gln. GS is necessary for N metabolism, and
the bulk of this enzyme pool may be conserved. Intracellular pools of glu and gln varied in response to 10
µM additions of NH4+, glu, or gln. Cells incubated with NH4+ became depleted in intracellular glu and
enriched with intracellular gln. The increase in the gln/glu ratio corresponded to a decrease in the rate of N2
fixation. Although the gln/glu ratio decreased in cells exposed to the amino acids, there was only a
corresponding decrease in N2 fixation after the gln addition. The results presented here suggest that combined
N concentrations on the order of 1 µM do not affect rates of N2 fixation and metabolism, although higher
concentrations (e.g. 10 µM) can. Moreover, these effects are exerted through products of NH4+ assimilation
rather than exogenous N, as has been suggested for other species. These results may help explain how
cultures of Trichodesmium are able to simultaneously fix N2 and take up NH4+ and how natural populations
continue to fix N2 once combined N concentrations increase within a bloom. ABSTRACT.
Sanjiv Maliakal, Donald P. Cheney, and Gregory L. Rorrer. Halogenated monoterpene
production in regenerated plantlet cultures of Ochtodes secundiramea (Rhodophyta,
Cryptonemiales). J. Phycol. 2001 37: 1010-1019.
Three genera of macrophytic red algae (Ochtodes, Plocamium, and Portieria) contain novel
halogenated monoterpenes. To develop an in vitro system for studying halogenated monoterpene production,
a laboratory tissue culture was established for Ochtodes secundiramea (Montagne) Howe (Cryptonemiales,
Rhizophyllidaceae). Specifically, callus cells were induced from thallus explants of O. secundiramea plants.
Shoot primordia regenerated from callus cells and developed into plantlets that released tetraspores. A
sporeling from one of these tetraspores was selected for further culture. Axenic plantlets were cultivated in
ESS-enriched natural seawater. Thallus tissue was cut into small pieces before subculture. Each plantlet grew
as a symmetrical array of highly branched shoot tissues emanating from a common center, ultimately
assuming a spherical shape of 20 mm diameter 4 weeks after subculture. Specific growth rates of over 20%
per day were attained in bubble-aerated flask culture at an optimal temperature of 26° C and photosynthetic
saturation light intensity of 200 µmol photons·m-2·s-1. The cultured plantlets contained myrcene and seven
halogenated monoterpenes, based on gas chromatography–mass spectroscopy analysis of dichloromethane
extracts. Although bromomyrcene was the dominant acyclic halogenated monoterpene, the cyclic
halogenated monoterpenes chondrocole C and ochtodene were also produced by the O. secundiramea
plantlet cultures. Halogenated monoterpene production at light-saturated growth conditions increased with
decreasing nitrogen availability below 1.0 mM medium nitrate concentration (N:P ratios of 1.6:1 to 32:1).
The halogenated monoterpene yield was insensitive to medium nitrate concentrations above 1.0 mM (N:P
ratios of 32:1 to 320:1), where the bromomyrcene yield was 1700 µg per gram of dry cell mass. ABSTRACT.
Malena Granbom, Marianne Pedersén, Petra Kadel, and Klaus Lüning. Circadian rhythm of
photosynthetic oxygen evolution in Kappaphycus alvarezii (Rhodophyta): dependence on light
quantity and quality. J. Phycol. 2001 37: 1020-1025.
The rate of oxygen evolution of the tropical red alga Kappaphycus alvarezii (Doty) Doty was measured
for 6 days in the laboratory using a computer-aided method for long-term recording. In cool white light,
Kappaphycus exhibited a robust circadian rhythm of O2 evolution in the irradiance range of 100 to 1000
µmol photons·m-2·s-1. With increasing irradiance, the period of the free-running rhythm, , decreased in blue
and increased in red light but did not change significantly in green light. The accelerating or slowing action
of blue or red light, respectively, points to two photoreceptors used in the light transduction pathway of the
circadian oscillator controlling oxygen evolution or the light reactions of photosynthesis in Kappaphycus. No
significant changes of were observed with increasing irradiance in cool white light, possibly due to the
additive opposing responses caused by blue and red light. ABSTRACT.
Thomas M. Arnold, Nancy M. Targett, Christopher E. Tanner, Walter I. Hatch, and Kirstin E.
Ferrari. Evidence for methyl jasmonate-induced phlorotannin production in Fucus vesiculosus
(Phaeophyceae). J. Phycol. 2001 37: 1026-1029.
The plant growth regulators jasmonic acid and methyl jasmonate (MeJA) have recently been
identified in a variety of marine algae; however, their role in these organisms is currently unknown. Here we
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№ 12 DECEMBER 2001
report that exposure to MeJA, during periods of tidal emergence causes the induction of polyphenolic
chemical defenses (the phlorotannins) in two populations of the common rockweed Fucus vesiculosus
(Linnaeus). Phlorotannin concentrations were up to 1.6 times higher in the growing apices of F. vesiculosus
from both Avery Point (Connecticut, USA) and Roosevelt Inlet (Delaware, USA) within 10–14 days after a
single brief exposure to airborne MeJA at concentrations ranging from 5.42 to 542 nM. The timing and
magnitude of this induced increase in phlorotannin concentration are similar to that caused by real and
simulated herbivory, raising the question of whether jasmonates, or their oxylipin relatives, are natural
elements of antiherbivore responses in Fucus, as they are in vascular plants. ABSTRACT.
Cellular and Molecular Biology:
Andrea Grunow and Karl-Ferdinand Lechtreck. Mitosis in Dunaliella bioculata (Chlorophyta):
centrin but not basal bodies are at the spindle poles. J. Phycol. 2001 37: 1030-1043.
Centrin, a 20 kDa calmodulin-like protein, is located in various basal body-associated fibers in protists.
We used indirect immunofluorescence of isolated cytoskeletons or methanol-fixed cells to analyze the
distribution of centrin during mitosis of the biflagellate green alga Dunaliella bioculata (Butcher). The
distance between the nucleus and the basal apparatus decreased in late interphase, presumably caused by the
contraction of the two centrin-containing nucleus–basal body connectors (NBBCs). During prophase, centrin
accumulated on the new basal bodies as shown by postembedding immunogold labeling of serial thin
sections. The new basal bodies were in close contact with plaque-like structures on the nuclear envelope. In
mitotic cells, basal body pairs were separated and positioned at a considerable distance from the poles of the
mitotic spindle. At this stage, we observed four separated centrin dots, two associated with the pairs of basal
bodies and two located at the spindle poles as shown by double immunofluorescence, including anti-tubulin
staining. The latter signals corresponded to an accumulation of centrin between the plasma membrane and the
nuclei, indicating that centrin could be involved in mitotic movements of the nuclei. In telophase, centrin was
observed along the nuclear surface and one new NBBC developed in each cell half. Our results demonstrate
that centrin is present at the acentriolar spindle poles of Dunaliella independently from its localization in the
basal apparatus. ABSTRACT.
Yoshihiko Sako, Takashi Yoshida, Aritsune Uchida, Osamu Arakawa, Tamao Noguchi, and
Yuzaburo Ishida. Purification and characterization of a sulfotransferase specific to N-21 of
saxitoxin and gonyautoxin 2+3 from the toxic dinoflagellate Gymnodinium catenatum
(Dinophyceae). J. Phycol. 2001 37: 1044-1051.
A sulfotransferase (ST) specific to N-21 of saxitoxin (STX) and gonyautoxin 2+3 (GTX2+3)
designated as N-ST was purified to homogeneity from the cytosolic fraction of clonal-axenic vegetative cells
of the toxic dinoflagellate Gymnodinium catenatum Graham GC21V, which causes paralytic shellfish
poisoning. The enzyme transferred a sulfate group from 3'-phosphoadenosine 5'-phosphosulfate (PAPS) to N21 in the carbamoyl group of STX and GTX2+3 to produce GTX5 and C1+2, respectively. The molecular
mass of the purified enzyme was determined by SDS-PAGE to be 59 kDa. Gel filtration chromatography
showed a native molecular mass of 65 kDa, indicating that the N-ST is a monomeric enzyme. The N-ST was
specific to only N-21 of STX and GTX2+3, and O-22 sulfation was not observed. Moreover, the N-ST was
not active toward neo STX and GTX1+4, which differed from STX and GTX2+3, respectively, in only N-1
hydroxylation. When various compounds previously reported to be substrates for STs in other organisms and
paralytic shellfish poisoning toxins other than STX and GTX2+3 were added to the reaction mixture, N-ST
activity was not decreased. The enzyme required PAPS as the sole source of sulfate. The enzyme was
optimally active at pH 6.0 and 25° C, and its activity was enhanced by Mg2+ and Co2+. The Km values of the
N-ST for STX and GTX2+3 were 16.1 µM and 29.8 µM, respectively. ABSTRACT.
Pernilla Lundgren, Erik Söderbäck, Alon Singer, Edward J. Carpenter, and Birgitta Bergman.
Katagnymene: characterization of a novel marine diazotroph. J. Phycol. 2001 37: 1052-1062.
The marine planktonic cyanobacterial genus Katagnymene was described by Lemmermann in 1900 and
is found in oligotrophic tropical and subtropical oceans. The genus comprises two species, K. pelagica
Lemmermann and K. spiralis Lemmermann, and both were observed in most stations sampled during a
cruise in the southwest Pacific Ocean in 1998. Katagnymene is nonheterocystous and characterized by single
ensheathed trichomes that do not form colonies. Acetylene reduction-GC demonstrated that natural
populations of Katagnymene fixed nitrogen and that nitrogenase activity occurred exclusively in the light
during a 12:12 light:dark cycle. Whole cell immunolocalization revealed that nitrogenase (the Fe protein)
appeared in 7% of the total number of cells and that these were arranged in zones composed of consecutively
arranged cells. At least one zone of nitrogenase-containing cells per trichome was found. Nitrogenase was
present throughout both the day and night, as shown by Western blotting, and in the same percentage of cells.
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Ultrastructural immunolocalization on sectioned trichomes also confirmed the presence and localization of
nitrogenase in Katagnymene. Cultures of Katagnymene are able to grow on nitrogen-free media and fix
nitrogen only in the light. Finally, cloning and sequencing of nifH verified the diazotrophic nature of the
genus Katagnymene and demonstrated a close relationship to members of the marine genus Trichodesmium.
ABSTRACT.
Phylogenetics and Taxonomy:
Takashi Denboh, Dian Hendrayanti, and Terunobu Ichimura. Monophyly of the genus Closterium
and the order Desmidiales (Charophyceae, Chlorophyta) inferred from nuclear small subunit
rDNA data. J. Phycol. 2001 37: 1063-1072.
We newly sequenced the nuclear-encoded small subunit (SSU) rDNA coding region for 21 taxa of the
genus Closterium. The new sequences were integrated into an alignment with 13 known sequences of
conjugating green algae representing six traditional families (i.e. Zygnemataceae, Mesotaeniaceae,
Gonatozygaceae, Peniaceae, Closteriaceae, and Desmidiaceae) and five known charophycean sequences as
outgroups. Both maximum likelihood and maximum parsimony analyses supported with high bootstrap
values one large clade containing all placoderm desmids (Desmidiales). All the Closterium taxa formed one
clade with 100% bootstrap support, indicating their monophyly, but not paraphyly, as suggested earlier. As to
the taxa within the genus Closterium, we found two clades of morphologically closely related taxa in both
maximum likelihood and maximum parsimony trees. They corresponded to the C. calosporum species
complex and the C. moniliferum-ehrenbergii species complex. It is of particular interest that the homothallic
entity of C. moniliferum v. moniliferum was distinguished from and ancestral to all other entities of the C.
moniliferum-ehrenbergii species complex. Superimposing all 50 charophycean sequences on the higher order
SSU rRNA structure model of Closterium, we investigated degrees of nucleotide conservation at a given
position in the nucleotide sequence. A characteristic "signature" structure to the genus Closterium was found
as an additional helix at the tip of V1 region. In addition, eight base deletions at the tip of helix 10 were found
to be characteristic of the C. calosporum species complex, C. gracile, C. incurvum, C. pleurodermatum, and
C. pusillum v. maius. These taxa formed one clade with an 82% bootstrap value in maximum parsimony
analysis. ABSTRACT.
James T. Harper and Gary W. Saunders. Molecular systematics of the Florideophyceae
(Rhodophyta) using nuclear large and small subunit rDNA sequence data. J. Phycol. 2001 37:
1073-1082.
Sequence data are presented for approximately 85% of the nuclear large subunit (LSU) rDNA gene for
one member of the Bangiophyceae and 47 members of the Florideophyceae, the latter representing all but one
of the currently recognized florideophyte orders. Distance, parsimony, and maximum likelihood analyses of
these data were used to generate phylogenetic trees, and bootstrap resampling was implemented to infer
robustness for distance and parsimony results. LSU phylogenies were congruent with published nuclear small
subunit (SSU) rDNA results in that four higher level florideophyte lineages were resolved: lineage 1,
containing the order Hildenbrandiales; lineage 2, recovered only under distance analysis, composed of the
orders Acrochaetiales, Balliales, Batrachospermales, Corallinales, Nemaliales, Palmariales, and
Rhodogorgonales; lineage 3, containing the Ahnfeltiales; and lineage 4, composed of the orders
Bonnemaisoniales, Ceramiales, Gelidiales, Gigartinales, Gracilariales, Halymeniales, Plocamiales, and
Rhodymeniales. Analyses were also performed on a combined LSU–SSU data set and an SSU-only data set
to account for differences in taxon sampling relative to published studies using this latter gene. Combined
LSU–SSU analyses resulted in phylogenetic trees of similar topology and support to those obtained from
LSU-only analyses. Phylogenetic trees produced from SSU-only analyses differed somewhat in particulars of
branching within lineages 2 and 4 but overall were congruent with the LSU-only and combined LSU–SSU
results. We close with a discussion of the phylogenetic potential that the LSU has displayed thus far for
resolving relationships within the Florideophyceae. ABSTRACT.
Sang-Rae Lee, Jung Hyun Oak, Youngbae Suh, and In Kyu Lee. Phylogenetic utility of rbcS
sequences: an example from Antithamnion and related genera (Ceramiaceae, Rhodophyta). J.
Phycol. 2001 37: 1083-1090.
We report the potential phylogenetic utility of the small RUBISCO subunit (rbc S) sequences from a
sampling of Antithamnion and related genera in ceramiacean algae. The size of rbc S was 417 bp for all taxa
examined. Analyses of the DNA sequence data indicated that pairwise divergences of rbc S sequences were
3.3%–9.8% among species of Antithamnion, and ranged from 13.6% to 18.0% between Antithamnion and
related genera. Phylogenetic analyses fully resolved relationships at the intrageneric level with statistical
significance supported by high bootstrap values. Two subgenera of Antithamnion, Pteroton and
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
Antithamnion, were clearly distinguished in the molecular tree. In the clade of subgenus Pteroton, A.
aglandum was allied with A. callocladum and separated from A. nipponicum. In the pairwise distance
comparison of sequence variation, Ceramium showed the greatest genetic distances among genera examined
in the study. All phylogenetic trees generated by the maximum parsimony, neighbor joining, and maximum
likelihood were completely congruent in topology with high confidence. ABSTRACT.
Jeffery R. Hughey, Paul C. Silva, and Max H. Hommersand. Solving taxonomic and
nomenclatural problems in Pacific Gigartinaceae (Rhodophyta) using DNA from type
material. J. Phycol. 2001 37: 1091-1109.
Molecular data obtained by a procedure for extracting PCR-amplifiable nuclear and chloroplast DNA
from old and formalin-fixed red algal herbarium specimens were used to elucidate problems in the
systematics of Pacific Gigartinaceae. Correspondence between nucleotide sequences of the internal
transcribed spacer 1 region or the RUBISCO spacer from type specimens and modern collections supports
the following conclusions. (1) The type of Fucus cordatus Turner, now Iridaea cordata (Turner) Bory, came
from the southern hemisphere (probably from Isla de los Estados, Argentina) rather than from Banks Island,
B.C., Canada. (2) The type of Iridaea heterocarpa P. et R. [Mazzaella heterocarpa (P. et R.) Fred.]
represents the tetrasporangial phase of a species of Chondrus, possibly C. crispus Stackh. (3) The types of
Iridaea lilacina P. et R., I. phyllocarpa P. et R., and Iridophycus furcatum S. et G. represent a single species
from Alaska, Mazzaella phyllocarpa (P. et R.) Perest., currently but incorrectly called M. heterocarpa. (4)
The type of Iridophycus oregonum Doty represents the tetrasporangial phase of the species from southern
Alaska to southern California known incorrectly as M. heterocarpa. (5) Mazzaella splendens (S. et G.) Fred.
is more closely related to M. linearis (S. et G.) Fred. than it is to M. flaccida (S. et G.) Fred. (6) Iridophycus
coriaceum S. et G. is conspecific with M. splendens, whereas Rhodoglossum coriaceum E.Y. Dawson is an
independent species: Mazzaella coriacea (E.Y. Dawson) Hughey. (7) Iridaea cornucopiae P. et R. is
conspecific with Mazzaella laminarioides (Bory) Fred., and the type probably came from Chile rather than
from the North Pacific. (8) Plants attributed to Iridaea cornucopiae in Pacific North America are referable to
Mazzaella parksii (S. et G.) comb. nov. (9) Rhodoglossum parvum G. M. Smith et Hollenb. is an independent
species: Mazzaella parva (G. M. Smith et Hollenb.) comb. nov. (10) Grateloupia squarrulosa S. et G.,
Grateloupia johnstonii S. et G., and Gigartina pectinata E.Y. Dawson represent a single species:
Chondracanthus squarrulosus (S. et G.) comb. nov. ABSTRACT.
Niels Daugbjerg and Peter Henriksen. Pigment composition and rbcL sequence data from the
silicoflagellate Dictyocha speculum: a heterokont alga with pigments similar to some
haptophytes. J. Phycol. 2001 37: 1110-1120.
Monophyly of plastids in the morphologically diverse heterokont algae has rarely been questioned.
However, HPLC analysis revealed that the pigment composition of the silicoflagellate Dictyocha speculum
Ehrenberg is similar to that observed in a group of haptophytes ("type 4" sensu Jeffrey and Wright 1994).
Dictyocha speculum and type 4 haptophytes possess acylfucoxanthins (19'-butanoyloxy- and 19'hexanoyloxyfucoxanthin) in addition to fuco-, diadino-, and diatoxanthin and chl a, c, and c3. The pigment
composition of two pedinellids (Apedinella radians [Lohmann] Campbell and Mesopedinella arctica
Daugbjerg), a sister group to D. speculum, deviates from D. speculum by lack of chl c 3 and
acylfucoxanthins. The distinct pigment composition suggested that plastid evolution in D. speculum differs
from that of other heterokont algae. This prompted determination of the plastid-encoded rbcL gene from D.
speculum to gain further insight into the evolutionary history of plastids in heterokont algae and haptophytes.
A phylogenetic inference based on parsimony, maximum likelihood, and LogDet transformation methods
included 35 heterokonts, 19 haptophytes, 8 red algae, and 1 cryptomonad. Three proteobacteria possessing
type I RUBISCO were used to root the tree. In phylogenetic analyses, D. speculum was closely related to
Rhizochromulina sp. and pedinellids, despite the latter possessing a different pigment composition.
Surprisingly, the Dictyochophyceae clustered outside the lineage of heterokont algae but not within the
haptophytes. Hence, analyses deduced from rbcL sequences indicated that the plastids in heterokont algae
might have a more complex evolutionary history and that the shared pigment composition in D. speculum
and type 4 haptophytes could be explained by convergent evolution or gene transfer. The pigment
composition in D. speculum may have implications for pigment-based characterization of phytoplankton
community structure in natural samples. ABSTRACT.
Renhui Li, Wayne W. Carmichael, Scott Brittain, Geoffrey K. Eaglesham, Glen R. Shaw, Yongding
Liu, and Makoto M. Watanabe. First report of the cyanotoxins cylindrospermopsin and
deoxycylindrospermopsin from Raphidiopsis curvata (Cyanobacteria). J. Phycol. 2001 37:
1121-1126.
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
A strain of Raphidiopsis (Cyanobacteria) isolated from a fish pond in Wuhan, P. R. China was
examined for its taxonomy and production of the alkaloidal hepatotoxins cylindrospermopsin (CYN) and
deoxy-cylindrospermopsin (deoxy-CYN). Strain HB1 was identified as R. curvata Fritsch et Rich based on
morphological examination of the laboratory culture. HB1 produced mainly deoxy-CYN at a concentration of
1.3 mg·g-1 (dry wt cells) by HPLC and HPLC-MS/MS. CYN was also detected in trace amounts (0.56 µg·g1
). A mouse bioassay did not show lethal toxicity when tested at doses up to 1500 mg dry weight cells·kg-1
body weight within 96 h, demonstrating that production of primarily deoxy-CYN does not lead to significant
mouse toxicity by strain HB1. The presence of deoxy-CYN and CYN in R. curvata suggests that
Raphidiopsis belongs to the Nostocaceae, but this requires confirmation by molecular systematic studies.
Production of these cyanotoxins by Raphidiopsis adds another genus, in addition to Cylindrospermopsis,
Aphanizomenon, and Umezakia, now known to produce this group of hepatotoxic cyanotoxins. This is also
the first report from China of a CYN and deoxy-CYN producing cyanobacterium. ABSTRACT.
Anthony Chiovitti, Gerald T. Kraft, Antony Bacic, David J. Craik, and Ming-Long Liao.
Chemistry, properties, and phylogenetic implications of the methylated carrageenans from
red algae of the genus Areschougia (Areschougiaceae, Gigartinales, Rhodophyta). J. Phycol.
2001 37: 1127-1137.
The three Australian-endemic species comprising the genus Areschougia have been examined to
determine the structure of their nonfibrillar wall components. The polysaccharide extracted from the most
widely distributed species, A. congesta (Turner) J. Agardh, was shown by compositional analyses, Fourier
transform infrared (FTIR) spectroscopy, linkage analysis, and 13C-NMR spectroscopy to be a carrageenan
composed predominantly of the repeating disaccharides 6'-O-meth- ylcarrabiose 2,4'-disulfate, carrabiose
2,4'-disulfate (the repeating unit of -carrageenan), 4',6'-O-(1-carboxyethylidene)carrabiose 2-sulfate, and 6'O-methylcarrabiose 2-sulfate. The carrageenan also contained small amounts of 4-linked Galp residues, some
bearing methyl ether substitution at O-3 and some possibly bearing sulfate ester and/or glycosyl substitutions
at O-3. The A. congesta carrageenan had unique rheological properties, its gels having some similarities to
those of commercial -carrageenan but with the viscosity of commercial -carrageenan. Polysaccharides from
A. ligulata Harvey ex J. Agardh and A. stuartii Harvey were shown by constituent sugar and FTIR analyses
to be sulfated galactans rich in mono-O-methylgalactose. The carrageenan structures of Areschougia spp.
were consistent with those of the genera Rhabdonia, Erythroclonium, and Austroclonium, the other genera
constituting the family Areschougiaceae. ABSTRACT.
Techniques:
John A. Berges, Daniel J. Franklin, and Paul J. Harrison. Evolution of an artificial seawater
medium: improvements in enriched seawater, artificial water over the last two decades. J.
Phycol. 2001 37: 1138-1145.
Although most phycologists use natural seawater for culturing marine species, artificial media continue
to play important roles in overcoming problems of supply and seasonal variability in the quality of natural
seawater and also for experiments involving manipulation of micro- and macronutrients. Several artificial
media have been developed over the last 90 years; enriched seawater, artificial water (ESAW) is among the
more popular recipes. ESAW has the advantage of an ionic balance that is somewhat closer to that of normal
seawater. The original paper compared the growth of 83 strains of microalgae in natural seawater (ESNW)
versus ESAW and determined that 23% grew more poorly in the artificial water. Since 1980, however, the
composition of ESAW, as used by the original authors, has changed considerably. In particular, the added
forms of phosphate, iron, and silicate have been changed and the trace metal mixture has been altered to
include nickel, molybdenum, and selenium. We tested whether these changes improved the ability of the
artificial medium to grow previously difficult to grow phytoplankton species. To test this, we selected eight
species that had been shown to grow better in ESNW than in ESAW and compared their growth again, using
the currently used recipe with all the above modifications. For all but one species (Apedinella spinifera),
growth rate and final yield was no different between the media but in one case (Emiliania huxleyi) was
slightly higher in ESAW. No differences in cell morphology or volume were found in any case. We conclude
that changes to the enrichment portion of the recipe have significantly improved this artificial seawater
medium and that it can be used to grow an even wider range of coastal and open ocean species. ABSTRACT.
Book Reviews:
Carole A. Lembi. Limnology, Lake and River Ecosystems. J. Phycol. 2001 37: 1146-1147.
Corrigenda:
Corrigendum. J. Phycol. 2001 37: 1151.
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
Announcements:
2002 Annual Meeting of the Phycological Society of America. J. Phycol. 2001 37: 1153.
Source: http://www.jphycol.org/
БІБЛІОГРАФІЯ / БИБЛИОГРАФИЯ
In the press. Available December 20th, 2001
LANGE - BERTALOT - FESTSCHRIFT: Studies on Diatoms. Dedicated to Prof. Dr.
Dr. h. c. Horst Lange - Bertalot on the Occasion of his 65th Birthday. Edited by Regine Jahn,
John P. Kociolek, Andrzej Witkowski and Pierre Compère. 2001. 3 coloured plates. 120 b/w
photogr. plates 633 p. gr8vo. Hardcover. DM 380 (US$ 190) (ISBN 3-904144-26-X)
Contents:
PART I:
Krammer, K.: Taxonomie und Morphologie von Brevisira arentii (Kolbe) Krammer gen. nov.,
comb. nov.
Kusel - Fetzmann, E. & A. Losert: Cyclotella fottii Hustedt aus dem Ohrid See (Albanien /
Mazedonien) und ihre Abgrenzung zu ähnlichen fossilen Cyclotellen
Rott, E., H. J. Kling & T. Perez: Planktonic centric diatoms from the volcanic Lake Taal,
Philippines
Hernandez-Becerril, D.U. & J. A. Aké-Castillo: Morphological study of two marine planktonic
diatoms of the genus Chaetoceros: C. anastomosans and C. costatus
Strelnikova, N.I., E. Fourtanier, J.P. Kociolek & J.A. Barron: Ultrastructure studies of
Coscinodiscus and Cestodiscus species from the Eocene and Oligocene
Compère, P.: Ulnaria (Kützing) Compère, a new genus name for Fragillaria subgen. Alterasynedra
Lange - Bertalot with comments on the typification of Synedra Ehrenberg
Williams, D.M.: Comments on the structure of 'post-auxospore' valves of Fragilariforma virescens
Mayama, S.: Valuable taxonomic characters in the valve mantle and girdle of some Eunotia species
Kociolek, J.P., D. Lyon & S. Spaulding: Revision of the South American species of Actinella
Denys, L. & W. van Bonn: A second species in the epizoic diatom genus Epipellis: E. heptunei sp.
nov.
Cocquyt, C.: Notes on Cymatopleura calcarata Hustedt, an endemic diatom from Lake Tanganyika
Reichardt, E.: Revision der Arten um Gomphonema truncatum und G. capitatum
Mann, D. G.: The systematics of the Sellaphora pupula complex: typification of S. pupula
Wolfe, A.P. & H.J.Kling: A consideration of some North American soft-water Brachysira taxa and
description of B. arctoborealis sp. nov.
Idei,M. & S. Mayama: Pinnularia acidojaponica M. Idei et H. Kobayasi sp. nov. and P.
valdetolerans Mayama et H. Kobayasi sp. nov. - new diatoms from Japanese extreme environments
Jordan, R. W.: Taxonomy, morphology and distribution of two Pinnularia species from acid lakes
and rivers in Yamagata and Miyagi Prefectures, Northeast Japan
Cox, E.J.: What constitutes a stauros? A morphogenetic perspective
Round, F.E.: Morphology of Navicula sensu stricto - an ecologist's perspective
Tolotti; M.: Littoral diatom communities in high mountain lakes of the Adamello-Brenta Regional
Park (Trentino/ Italy) and their relation to acidification
Cantonati, M.: The diatom communities of the liverwort Chiloscyphus polyanthos var. rivularis in a
mountain spring-fed stream in the Adamello - Brenta Regional Park, Northern Italy
Werum, M.: Diatomeen in Quellen hessischer Mittelgebirge - Gefährdung nach Roter Liste in
Korrelation zu anthropogenen Eingriffen und Geologie
Raeder,U. & L. B. Busse: Composition and development of episammic diatoms in an oligotrophic
lake ( Lake Lustsee, Germany) under natural conditions and under artificial phosphate supply using
enclosure experiments
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
Hürlimann,J., F. Elber, K. Niederberger, F. Straub, A. Stöckli & P. Niederhauser: Historische
Kieselalgenproben als biologische Referenzen zur Bewertung von Fliessgewässern des Schweizer
Mittellandes - erste Ergebnisse
Lotter, A.F.: The effect of eutrophication on diatom diversity: examples from six Swiss lakes
Bogaczewicz - Adamczak, B.: The diatom flora of the Eemian Lacustrine Deposits at La Grande
Pile - Core GP 11 (Vosges, France)
Witak, M.: A Late Glacial diatom flora from lacustrine sediments of Puck Bay, Southern Baltic Sea,
Poland
Stachura - Suchoples, K.: Bioindicative values of dominant diatom species from the Gulf of
Gdansk, Southern Baltic Sea, Poland
Bak, M., B. Wawrzyniak - Wydrowska & A. Witkowski: Odra river discharge as a factor affecting
species composition of the Szczecin Lagoon diatom flora, Poland
Rakowska, B. & M. Rakowski: Diatoms and other phyto- plankton of the Lesny Canal at its outlet
to the Odra Zachodnia River, Poland
Jasprica, N. & M. Caric: Planktonic diatoms and their relation to environmental factors at three
stations in the Southern Adriatic, Mediterranean Sea
Index to new names, combinations and typifications in the Lange - Bertalot – Festschrift
List of reviewers/
PART II:
Ruppel, M.: Lebensbild des Botanikers und Diatomologen Horst Lange – Bertalot
Publications by Horst Lange - Bertalot until the year 2001
List of theses supervised by Horst Lange - Bertalot until the year 2001/ Metzeltin,D. & W.-H.
Kusber: Annotated list of new diatom taxa decribed by Horst Lange - Bertalot until the year 2000
Kusber, W.-H. & D. Metzeltin: Checklist of new diatom combinations, replaced names and
validations published by Horst Lange - Bertalot until the year 2000 and additional validations.
Published by Gantner Verlag, Ruggell
Distributed by Koeltz Scientific Books
Also available from stock:
Simonsen, Reimer
Atlas of the Diatom Types of Friedrich HUSTEDT, 3 volumes (1 volume text & 2 volumes plates).
1987. 772 plates. X, 526 p. 4to. Hardcover. – In English. DM 940 (US$ 470)
Please send your order to
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Source: http://seaweed.nuigalway.ie/algae-l/
Freshwater Ecology. Concepts and Environmental Applications. Walter K. Dodds. due
January 2002
From the Pre-Publication Reviews:
"I will definitely be using this text in my courses. Freshwater Ecology by Walter Dodds is the
text we have been waiting for. ...Overall, I found the figures, tables, and conceptual diagrams to be
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
very clear, concise, and easy to interpret. I also appreciated that the end of each chapter included
both a summary of major points as well as questions for thought. I find these to be excellent study
tools to use before exams." PROF. JENNIFER TANK, UNIVERSITY OF NOTRE DAME
"This is an important book that fills a void that has existed in freshwater ecology for some
time now. I certainly plan on using it myself, both in the classroom and as a reference. The material
in this book is presented in a manner that will appeal to a variety of experience levels, and the
concepts are supported with interesting and very timely examples. I found this book very easy to
read, and I have already incorporated some of the examples and methods..." ASSISTANT
PROFESSOR MATT WHILES, SOUTHERN ILLINOIS UNIVERSITY
Book Description:
This book is a general text covering both basic and applied aspects of freshwater ecology and
serves as an introduction to the study of lakes and streams. Issues of spatial and temporal scale,
anthropogenic impacts, and application of current ecological concepts are covered along with ideas
that are presented in more traditional limnological texts. Chapters on biodiversity, toxic chemicals,
extreme and unusual habitats, and fisheries increase the breadth of material covered. The book
includes an extensive glossary, questions for thought, worked examples of equations, and real-life
problems.
Key Features: Broad coverage of groundwaters, streams, wetlands, and lakes.
Features basic scientific concepts and environmental applications throughout. Includes many
figures, sidebars of fascinating applications, and biographies of practicing aquatic ecologists.
Materials are presented to facilitate learning, including an extensive glossary, questions for
thought, worked examples of equations, and reallife problems. Written at a level understandable to
most undergraduate students, with explanations of complex contemporary concepts in freshwater
ecology described to promote understanding.
Featuring small chapters that mainly stand alone, this book can be readin the order most
suited to the specific application.
CaseBound. pages? $54.95
If you would like to reserve your copy, just email me.. Shipping is extra, please note, no
returns.. If you need more info, just email me and i can fax sample pages when we get the book.
Dr. Pamela Burns-Balogh
Balogh International Inc.
Publisher's Agents & Distributors
1911 N. Duncan Rd.
Champaign, Illinois 61822 USA
+1 217 355 9331;
fax +1 217 355 9413
balogh@balogh.com; http://www.balogh.com/
Source: http://seaweed.nuigalway.ie/algae-l/
Вышли из печати новые книги:
Кондратьєва Н.В. Прокаріотичні водорості. Вип. І. Загальна характеристика. Частина
2. Екологія, значення, питання систематики. – Київ: Наукова думка, 2001. – 342 с. – (Флора
водоростей континентальних водойм України).
Костіков І.Ю., Романенко П.О., Демченко Е.М., Дарієнко Т.М., Михайлюк Т.І.,
Рибчинський О.В., Солоненко А.М. Водорості грунтів України (історія та методи
дослідження, система, конспект флори) / Під. ред. С.Я. Кондратюка, Н.П. Масюк. – Київ:
Фітосоціоцентр, 2001. – 300с.
В монографии обобщены литературные и оригинальные данные о составе и распространении
водорослей в почвах Украины. Приводятся данные о находках в 1080 местонахождениях 932 видов и
внутривидовых таксонов. Рассматривается также история исследования почвенных водорослей в
Украине, методики качественного исследования фитоэдафона, вопросы таксономии почвенных
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
водорослей. Система, принятая в монографии, модифицирована с учетом современных
цитологических и молекулярных данных.
Для альгологов и почвоведов, преподавателей, аспирантов и студентов биологических
факультетов вузов. РЕЗЮМЕ.
ДОШКА ОГОЛОШЕНЬ / ДОСКА ОБЪЯВЛЕНИЙ
UNDERGRADUATE SUMMER RESEARCH OPPORTUNITIES
Calder Summer Undergraduate Research (CSUR) - 2002
The Louis Calder Center - Biological Field Station of Fordham University announces paid
research opportunities for undergraduate students in ourCalder Summer Undergraduate Research
(CSUR) program. The 2002 summer program will run from May 27th through August 16, 2002.Applications are due February 8th, 2002.
We offer students hands-on experience and training in a wide variety of field studies,
including studies on algae. Examples of topics include:
Benthic algae in southern New York and Catskill mountain streams
Carbon pools at the Louis Calder Center - Biological Field Station
Community and ecosystem responses to invasive exotic insects
Dendrochronology of wildfire sites in the NJ Pine Barrens
Ecology of symbiotic fungi in hemlock and oak forests
Ecology of the West Nile virus
Field studies on the use of torpor by ground squirrels at high altitudes
Microhabitat conditions and spatial distribution of the deer tick
Ruffed Grouse population ecology in the central southern Appalachians
Vertebrate-habitat relationships at The Louis Calder Center - BiologicalField Station
Successful CSUR candidates will be matched with staff scientists with similar research
interests. This year we will offer up to eight (8) awards to qualified undergraduates interested in
conducting independent research for 12 weeks during the summer of 2002.
Stipends of $3,600 will be awarded to successful applicants. There is housing on site
(subsidized rent) and limited funds to support research and local travel. For details on the program
and a list of research areas available this summer for students see
www.fordham.edu/calder_center/calder-center/CSUR-Program.html
An application can be downloaded from:
www.fordham.edu/calder_center/calder-center/forms/csur-application.html
The field station is located in wooded, southern New York state. General information is
available at: www.fordham.edu/calder_center
You may also request information from the CSUR office by email, mail or fax:
CSUR office: 914-273-3078, ext. 10; email: pburgos@fordham.edu; fax: 914-273-2167, or
c/o the Director: wehr@fordham.edu
Applications are due in the CSUR office by February 8th, 2002.
John Wehr
Source: http://seaweed.nuigalway.ie/algae-l/
PhD student position
Dear all,
a PhD student position is available at the University of Konstanz for amotivated
phycologist/plant biologist with a strong background in cell biology and molecular biology from
January 2002. The project is actually funded for the next 18 months and is planned to be continued
after this time. Funding is by the German Research Foundation and the project is concerned with
the intracellular transport of proteins in diatoms and focused on the transport of proteins into the
ALGOLOGICAL NEWSLETTER (Kiev)
№ 12 DECEMBER 2001
complex diatom plastids with four surrounding membranes. Payment is according to the German
BATIIa/2 salary. Applicants are asked to send an application/CV to the address below.
Best regards
Prof. Dr. Peter Kroth
Fachbereich Biologie
Postfach M611
Universitaet Konstanz
78457 Konstanz, Germany
Fax: ++49(0)7531-88-3042
Phone: ++49(0)7531-88-4816/2782
E-Mail: Peter.Kroth@uni-konstanz.de
http://www.biologie.uni-konstanz.de/
Source: http://seaweed.nuigalway.ie/algae-l/
ВСІЛЯКО ВІТАЄТЬСЯ
особисте розповсюдження! Розішліть цей випуск по Мережі друзям, знайомим і
колегам! Роздрукуйте його на принтері! Віднесіть додому! Зробіть ксерокопіі і
подаруйте безкомп’ютерним друзям!
Для той, щоб регулярно отримувати наші повідомлення, Ви повинні відправити нам лист електронною
поштою за адресою levanets@mail.ru наступного змісту:
Прізвище, ім'я, по батькові,
E-mail адреса,
Місце роботи, посада, вчений ступінь і звання,
Наукові інтереси,
Службова або контактна адреса, телефон/факс.
Вказати в розділ для коментарію: ALGOLOG-registration.
Якщо Вы маєте некомерційну інформацію, пов'язану з вивченням, використанням або охороною
водоростей, хочете поділитись своєю думкою, дати інформацію про нові публікації або видання, попросити
поради у колег, якщо ви плануєте проведення конференції, семінару, школи або знаєте про такі, то обов'язково
нам напишіть і про це дізнаються всі наші читачі.
Планується розбити матеріали за наступними рубриками:
1) огляд новин,
2) наукові форуми,
3) наукова періодика,
4) бібліографія,
5) дискуссії,
6) персоналії,
7) дошка оголошень,
8) коментарі та рецензії,
9) експедиції,
10) різне.
Якщо у Вас є зауваження або пропозиції - пишіть і ми їх уважно розглянемо. Вся інформація буде
розсилатись з дотриманням авторських прав без права на комерційне її використання. Присилка на нашу адресу
будь-якої інформації бути розцінюватись як дозвіл автора на її опублікування.
Ми залишаємо за собою право на відбір отриманої від наших читачів інформації без повідомлення
причин автору. Також ми не несемо відповідальності за достовірність присланих нам матеріалів і не завжди
згодні з думкою автора. Вся переписка повинна проводитсь переважно по електронній пошті (при відсутності у
Вас можливості доступу до електронної пошти переписка можлива і по звичайній пошті).
Свої повідомлення можна присилати на українській, російській, білоруській, англійській, німецькій,
французській, польській, словацькій або чеській мові. При поміщенні у “АВ” інформація розсилка буде
зберігати мову оригіналу без перекладу.
З повагою, з найкращими побажаннями і надією на співпрацю,
Анатолій Леванець
E-mail: levanets@mail.ru
Web-site: http://www.oasis.kiev.ua/levanets/
Адреса:
службова:
ALGOLOGICAL NEWSLETTER (Kiev)
Інститут ботаніки ім. М.Г. Холодного НАН України,
відділ спорових рослин,
вул. Терещенківська, 2,
г.Київ-4, МСП, 01601, Україна
тел. (+044) 224-51-57
домашня:
вул. Доброхотова, буд. 24, к.54,
м.Київ, 03142, Україна
СПИСОК РОЗСИЛКИ
Мантурова Оксана: schek@ibc.net.ua.
Ярмошенко Людмила: lyar@svitonline.com.
Романенко Петро: petro@rom.alpline.kiev.ua.
Демченко Едуард: levanets@mail.ru.
Михайлюк Тетяна: levanets@mail.ru.
Селезнева Наталья: nsel@bsu.edu.ru.
Горбулін Олег: Oleg.S.Gorbulin@univer.kharkov.ua.
Громакова Алла: gamulya@kharkov.ukrtel.net (for A.Gromakova).
Віннікова Ольга: gamulya@kharkov.ukrtel.net (for O.Vinnikova).
Садогурська Світлана і Садогурський Сергій: flora@gnbs.crimea.ua.
Масюк Надія Прохорівна.
Ліліцька Галина Георгієвна.
Виноградова Оксана: oxanavinogradova@hotmail.com.
Борисова Олена Володимирівна.
Царенко Петро Михайлович: swasser@botan.kiev.ua (To P. Tsarenko).
Леонтьєв Дмитро: protista@mail.ru.
Петльований Олег.
Колесник Олег: kolesnyk@univ.uzhgorod.ua.
Патова Елена Николаевна: patova@ib.komisc.ru.
Кузяхметов Григорий Гильмиярович: KuzyakhmetovGG@bsu.bashedu.ru.
Шарипова Марина Юрьевна: SharipovaMY@ic.bashedu.ru.
Шкундина Фаина Борисовна: ShkundinaFB@bsu.bashedu.ru.
Алейникова Мария Даниловна (редакция журнала “Альгология”).
Теренько Галина Викторовна: galla@paco.net.
Прибыловская Наталья Сергеевна: osozin@mail.grsu.grodno.by.
Комулайнен Сергей Федорович: komsf@krc.karelia.ru.
Дубовик Ирина Евгеньевна: DubovikIE@bsu.bashedu.ru.
Анисимова Ольга Викторовна: ola@herba.msu.ru.
Ляшенко Оксана Александровна: lyashenk@ibiw.yaroslavl.ru.
Болдина Ольга Николаевна: olgab1999@mail.ru; olgab@freemail.ru.
Хайбуллина Лилия Салаватовна: irekmdm@ufanet.ru.
Ситникова Юлия Алексеевна: felina@farlep.net.
Харитонов Вячеслав Гергиевич: sterba@online.magadan.su
Бухтиярова Людмила Николаевна: bukhtiyarova@ukrpost.net
Михайлова Татьяна Александровна: chaban@arh.ru
Иванова Анна Петровна: a.p.ivanova@ibpc.ysn.ru
№ 12 DECEMBER 2001
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