Your search keyword '"László Rákosy"' showing total 16 results

1. AMS radiocarbon dating of the large pedunculate oak of Mercheaşa, Romania

Author

Stephan Woodborne, Geology, Republicii, Ro , Cluj Napoca, Romania\\', Adrian Patrut, Ileana-Andreea Ratiu, Roxana T. Patrut, László Rákosy, Jenö Bodis, and Victor Bocos-Bintintan

Subjects

law, General Chemistry, Radiocarbon dating, Pedunculate, Archaeology, Geology, law.invention

Published

2021

2. 'Radiocarbon Investigation Of The Big Baobab Of Outapi, Namibia '

Author

László Rákosy, Geology, Republicii, Ro , Cluj Napoca, Romania\\', Karl F. von Reden, Ileana-Andreea Ratiu, Demetra Rakosy, Roxana T. Patrut, and Adrian Patrut

Subjects

Geography, law, General Chemistry, Radiocarbon dating, Archaeology, law.invention

Published

2021

3. Radiocarbon dating of a very large grandidier baobab, the giant of Bevoay

Author

Stephan Woodborne, László Rákosy, Jean-Michel Leong Pock Tsy, Roxana T. Patrut, Ileana-Andreea Ratiu, Pascal Danthu, Adrian Patrut, and Jenö Bodis

Subjects

biology, Adansonia grandidieri, Adansonia, General Chemistry, biology.organism_classification, Archaeology, Détermination de l'âge, K10 - Production forestière, law.invention, Datation au radiocarbone, Anatomie végétale, law, Dendrométrie, Radiocarbon dating, U30 - Méthodes de recherche, Geology, Accelerator mass spectrometry

Abstract

The article presents the AMS (accelerator mass spectrometry) radiocarbon dating results of the Giant of Bevoay, which is a very large Grandidier baobab (Adansonia grandidieri Baill.) of Madagascar. The investigation of this baobab shows that it has a cluster structure, which consists of 3 perfectly fused stems. The calculated wood volume of the tree is 520 m3, which makes it the third largest Grandidier baobab and also the third largest individual of all Adansonia species. Two samples were collected from the outer part of the stems. The oldest dated sample segment had a radiocarbon date of 525 ± 23 BP, which corresponds to a calibrated age of 585 ± 10 years. According to this value, the Giant of Bevoay is 825 ± 50 years old.

Published

2020

4. 'Radiocarbon dating of Makuri Lê boom, a very old African baobab from Nyae Nyae, Namibia '

Author

László Rákosy, Adrian Patrut, Demetra Rakosy, Geology, Republicii, Ro , Cluj Napoca, Romania\\', Karl F. Von Redenf, Jenő Bodis, Roxana T. Patrut, and Daniel A. Lowy

Subjects

Geography, law, General Chemistry, Radiocarbon dating, Boom, Archaeology, law.invention

Published

2020

5. Investigation of the Architecture and Age of Superlative Adansonia grandidieri from the Andombiry Forest, Madagascar

Author

Ileana Andreea Ratiu, Roxana T. Patrut, László Rákosy, Adrian Patrut, Jean-Michel Leong Pock-Tsy, Stephan Woodborne, and Pascal Danthu

Subjects

Girth (geometry), law.invention, Adansonia grandidieri, law, Madagascar, Radiocarbon dating, QK900-989, Plant ecology, Morphologie végétale, biology, Dendrochronologie, radiocarbon dating, Forestry, age determination, false cavity, biology.organism_classification, Archaeology, Détermination de l'âge, K10 - Production forestière, ring-shaped structure, Geography, Anatomie végétale, Dendrométrie

Abstract

Over the past years, our research on baobabs mainly focused on the largest Malagasy species, namely the Reniala or Grandidier baobab (Adansonia grandidieri Baill.). The biggest A. grandidieri are located in the Morombe area, especially in the so-called Andombiry Forest. This giant forest of Reniala hosts well over 6000 mature individuals, out of which more than 30 have very large sizes, i.e., circumferences over 20 m. We investigated, measured and dated by AMS radiocarbon the largest specimens. We found that all large Grandidier baobabs are multi-stemmed. They mostly exhibit a closed ring-shaped structure, with a false cavity inside. In this architecture, which enables Grandidier baobabs to reach very large sizes, the stems that build the ring typically have similar ages. Here we present the AMS radiocarbon investigation of two large baobabs, A 215 (girth 21.50 m) and A 257 (girth 25.70 m). According to dating results, the baobab A 215 has an age of only 375 years. It consists of four fused stems and has a closed ring-shaped structure. The baobab A 257 has the second largest trunk of all known live Reniala trees. It also exhibits a closed ring-shaped structure, with five fused stems around a false cavity, which has an opening toward the exterior. The dating results indicate that A 257 is around 900 years old.

Published

2021

6. Radiocarbon investigation of a superlative grandidier baobab, the big reniala of Isosa

Author

Roxana T. Patrut, Ileana-Andreea Ratiu, Jean-Michel Leong Pock Tsy, Karl F. von Reden, Stephan Woodborne, László Rákosy, Pascal Danthu, Jenö Bodis, and Adrian Patrut

Subjects

Tige, Tropical trees, Adansonia, Anatomie du bois, F50 - Anatomie et morphologie des plantes, law.invention, Adansonia grandidieri, law, K01 - Foresterie - Considérations générales, Radiocarbon dating, biology, General Chemistry, biology.organism_classification, Archaeology, Datation au radiocarbone, Dendrométrie, Arbre plus, Geology, Accelerator mass spectrometry

Abstract

The article discloses the accelerator mass spectrometry (AMS) radiocarbon dating results of the Big Reniala of Isosa, which is a massive Grandidier baobab (Adansonia grandidieri Baill.) of Madagascar. The investigation of this baobab shows that it consists of 5 perfectly fused stems and exhibits a cluster structure. The calculated wood volume of the tree is 540 m 3 , which makes the Big Reniala of Isosa the largest individual of all Adansonia species and also the biggest known angiosperm in terms of volume. Several samples were collected from the outer part of the stems. The oldest dated sample had a radiocarbon date of 934 ± 24 BP, which corresponds to a calibrated age of 845 ± 25 years. This value indicates an age of 1000 ± 100 years for the big Reniala of Isosa.

Published

2019

7. Radiocarbon investigation of the superlative african baobabs from Savé valley conservancy, Zimbabwe

Author

Roxana T. Patrut, Daniel A. Lowy, Karl F. von Reden, Geology, Republicii, Ro , Cluj Napoca, Romania\\', László Rákosy, Adrian Patrut, and Dragos Margineanu

Subjects

Geography, law, General Chemistry, Radiocarbon dating, Superlative, Archaeology, law.invention

Published

2019

8. Radiocarbon investigation of the pedunculate oak of Botosana, Romania

Author

Nicolae Robu, Daniel A. Lowy, Dragos Margineanu, László Rákosy, Karl F. von Reden, Ileana-Andreea Raţiu, Roxana T. Patrut, Adrian Patrut, Vasile Savu, and Geology, Republicii, Ro , Cluj Napoca, Romania\\'

Subjects

Research use, biology, Java, General Chemistry, biology.organism_classification, Archaeology, law.invention, Quercus robur, Geography, law, Dendrochronology, Radiocarbon dating, Pedunculate, computer, Open access journal, computer.programming_language

Abstract

Author Posting. © Studia Chemia, 2018. Studia Universitatis Babes-Bolyai Chemia is an Open Access Journal (read, download, copy, distribute, print for research use, search, or link to the full texts of articles). The definitive version was published in Studia Universitatis Babes-Bolyai Chemia 63(4), (2018): 7-13, doi: 10.24193/subbchem.2018.4.01.

Published

2018

9. Radiocarbon dating of the old ash of Aiton, Romania

Author

Roxana T. Patrut, Daniel A. Lowy, Adrian Patrut, Ileana-Andreea Raţiu, László Rákosy, Jenő Bodis, and Karl F. von Reden

Subjects

Research use, History, law, Dendrochronology, General Chemistry, Radiocarbon dating, Archaeology, Open access journal, law.invention

Abstract

Author Posting. © Studia Chemia, 2018. Studia Universitatis Babes-Bolyai Seria Chemia is an Open Access Journal (read, download, copy, distribute, print for research use, search, or link to the full texts of articles). The definitive version was published in Studia Universitatis Babes-Bolyai, Seria Chemia 63, no. 3 (2018): 41-48, doi:10.24193/subbchem.2018.3.03.

Published

2018

10. Age, growth and architecture of the historic Big Tree at Victoria Falls, Zimbabwe assessed by radiocarbon dating

Author

Adrian Patrut, Ileana Andreea Ratiu, László Rákosy, Daniel A. Lowy, Roxana T. Patrut, and Karl F. von Reden

Subjects

Geography, Ecology, law, Plant Science, Radiocarbon dating, Three generations, Architecture, Archaeology, law.invention, Accelerator mass spectrometry

Abstract

The article discloses the AMS (accelerator mass spectrometry) radiocarbon dating results of the historic Big Tree at Victoria Falls, Zimbabwe. The research aimed to determine the age, growth and architecture of this renowned African baobab. The superlative baobab is composed of five main stems, three young stems and one false stem. It exhibits an open ring-shaped structure, an architecture that allows baobabs to reach large sizes and old ages. Several wood samples extracted from four stems were dated by radiocarbon. The oldest sample had a radiocarbon date of 978 ± 14 BP, corresponding to a calibrated age of 955 ± 20 calendar years. By this value, the Big Tree at Victoria Falls is 1150 ± 50 years old. We found that the eight common stems belong to three generations, which are 1000–1100, 600–700 and 200–250 years old, respectively. The false stem is 550 years old. The stems belonging to the oldest generation stopped growing over 100 years ago.

Published

2021

11. Final Radiocarbon Investigation of Platland Tree, the Biggest African Baobab

Author

Karl F. von Reden, Roxana T. Patrut, László Rákosy, Adrian Patrut, Stephan Woodborne, Ileana-Andreea Ratiu, and Grant Hall

Subjects

Geography, biology, law, Tropical trees, Forestry, General Chemistry, Radiocarbon dating, Adansonia digitata, biology.organism_classification, law.invention

Abstract

Author Posting. © Studia Chemia, 2017. This article is posted here by permission of Studia Chemia for personal use, not for redistribution. The definitive version was published in Studia Universitatis Babes-Bolyai, Seria Chemia 62, no. 2, Tom 2 (2017): 347-354, doi:10.24193/subbchem.2017.2.27.

Published

2017

12. Radiocarbon dating of two old African baobabs from India

Author

Stephan Woodborne, Roxana T. Patrut, Daniel A. Lowy, László Rákosy, Arti Garg, Adrian Patrut, and Ileana Andreea Ratiu

Subjects

0106 biological sciences, 010506 paleontology, Asia, Science, India, Social Sciences, Plant Science, Research and Analysis Methods, 010603 evolutionary biology, 01 natural sciences, law.invention, Trees, Geographical Locations, Adansonia, law, Bodies of water, Oceans, Historical Archaeology, Radiocarbon dating, Indian Ocean, Historical archaeology, Chemical Characterization, 0105 earth and related environmental sciences, Isotope Analysis, Multidisciplinary, Plant Anatomy, Radiometric Dating, Organisms, Biology and Life Sciences, Eukaryota, Plants, Archaeology, Wood, Radioactive Carbon Dating, Marine and aquatic sciences, Indian ocean, Earth sciences, Geography, Archaeological Dating, People and Places, Africa, Medicine, Research Article

Abstract

The article presents the radiocarbon investigation of the baobab of Jhunsi, Allahabad and the Parijaat tree at Kintoor, two old African baobabs from northern India. Several wood samples extracted from these baobabs were analysed by using AMS radiocarbon dating. The radiocarbon date of the oldest samples were 779 ± 41 BP for the baobab of Jhunsi and 793 ± 37 BP for the baobab of Kintoor. The corresponding calibrated ages are 770 ± 25 and 775 ± 25 calendar years. These values indicate that both trees are around 800 years old and become the oldest dated African baobabs outside Africa.

Published

2020

13. Age, Growth and Death of a National Icon: The Historic Chapman Baobab of Botswana

Author

Christiaan W. Winterbach, Grant Hall, László Rákosy, Karl F. von Reden, Stephan Woodborne, Adrian Patrut, and Roxana T. Patrut

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, Adansonia digitata L, Tropical trees, Tropics, Forestry, age determination, lcsh:QK900-989, 01 natural sciences, Archaeology, law.invention, Geography, law, lcsh:Plant ecology, tropical trees, growth rate, Radiocarbon dating, AMS radiocarbon dating, multiple stems, 0105 earth and related environmental sciences

Abstract

The year 2016 witnessed the fall of a symbol of the botanical world: the historic Chapman baobab of Botswana. This article presents the results of our investigation of the standing and fallen tree. The Chapman baobab had an open ring-shaped structure composed of six partially fused stems. Several wood samples collected from the stems prior and after their collapse were analysed by using radiocarbon dating. The radiocarbon date of the oldest sample was 1381 &plusmn, 22 BP, which corresponds to a calibrated age of 1345 (+10, &minus, 15) calendar years. The dating results show that the six stems of the Chapman baobab belonged to three different generations, which were 1350&ndash, 1400, 800&ndash, 1000 and 500&ndash, 600 years old. The growth rate variation of the largest and oldest stem is presented and correlated with the climate evolution in the area over the past 1000 years. The factors that determined the sudden fall and death of the Chapman baobab are also presented and discussed.

Published

2019

14. The Growth Stop Phenomenon Of Baobabs (Adansonia Spp.) Identified By Radiocarbon Dating

Author

Daniel A. Lowy, Grant Hall, Stephan Woodborne, Roxana T. Patrut, Jean-Michel Leong Pock-Tsy, Dragos Margineanu, László Rákosy, Adrian Patrut, Karl F. von Reden, and Pascal Danthu

Subjects

0106 biological sciences, Wet season, 010506 paleontology, Archeology, F40 - Écologie végétale, Stress dû à la sécheresse, Tropical trees, F62 - Physiologie végétale - Croissance et développement, Teneur en eau, Adansonia, Biology, 010603 evolutionary biology, 01 natural sciences, law.invention, Âge, law, Floraison, Dry season, Botany, Radiocarbon dating, Croissance, 0105 earth and related environmental sciences, biology.organism_classification, Horticulture, Résistance à la sécheresse, Cerne, Datation au radiocarbone, visual_art, visual_art.visual_art_medium, General Earth and Planetary Sciences, Bark

Abstract

The article reports the growth stop phenomenon, which was documented only for baobabs, i.e. for trees belonging to the Adansonia genus. The identification of growth stop was enabled by radiocarbon dating, which allows a complex investigation of samples collected from the trunk/stems of baobabs. In several cases, the outermost rings of baobabs, which were close to the bark, were found to be old, with ages of several hundreds of years, instead of being very young. Dating results of samples collected from six baobabs are presented. For multistemmed baobabs, the growth stop may occur only for one or several stems. We identified four factors that may induce the growth stop: (i) stress determined by severe climate conditions, (ii) old age, (iii) the need to keep a stable internal architecture, and (iv) the collapse of stems that survive this trauma. Baobabs and their stems affected by growth stop may survive for several centuries, by continuing to produce leaves, flowers, and fruits. This phenomenon was associated with the capacity of baobabs to store large amounts of water in their trunks/stems in the rainy season. This reservoir of water is used during the dry season and allows the trees to survive prolonged drought periods.

Published

2016

15. AMS Radiocarbon Dating of Large Za Baobabs (Adansonia za) of Madagascar

Author

Daniel A. Lowy, László Rákosy, Karl F. von Reden, Roxana T. Patrut, Pascal Danthu, Adrian Patrut, and Jean-Michel Leong Pock-Tsy

Subjects

0106 biological sciences, Identification, Time Factors, lcsh:Medicine, Adansonia, Forests, 01 natural sciences, F50 - Anatomie et morphologie des plantes, Mass Spectrometry, law.invention, Trees, Âge, law, K01 - Foresterie - Considérations générales, Radiocarbon dating, lcsh:Science, Port de la plante, Multidisciplinary, biology, Ecology, Geography, Adansonia grandidieri, F70 - Taxonomie végétale et phytogéographie, Wood, Cerne, Anatomie végétale, Adansonia za, Calibration, Adansonia digitata, Radiometric dating, Geology, Research Article, 010506 paleontology, Distribution géographique, Adansonia rubrostipa, Spectrométrie de masse, Bois, Dendrochronology, Madagascar, 0105 earth and related environmental sciences, lcsh:R, Radiometric Dating, Taxonomie, biology.organism_classification, Archaeology, Datation au radiocarbone, lcsh:Q, 010606 plant biology & botany

Abstract

The article reports the radiocarbon investigation of Anzapalivoro, the largest za baobab (Adansonia za) specimen of Madagascar and of another za, namely the Big cistern baobab. Several wood samples collected from the large inner cavity and from the outer part/exterior of the tree were investigated by AMS (accelerator mass spectrometry) radiocarbon dating. For samples collected from the cavity walls, the age values increase with the distance into the wood up to a point of maximum age, after which the values decrease toward the outer part. This anomaly of age sequences indicates that the inner cavity of Anzapalivoro is a false cavity, practically an empty space between several fused stems disposed in a ring-shaped structure. The radiocarbon date of the oldest sample was 780 ± 30 bp, which corresponds to a calibrated age of around 735 yr. Dating results indicate that Anzapalivoro has a closed ring-shaped structure, which consists of 5 fused stems that close a false cavity. The oldest part of the biggest za baobab has a calculated age of 900 years. We also disclose results of the investigation of a second za baobab, the Big cistern baobab, which was hollowed out for water storage. This specimen, which consists of 4 fused stems, was found to be around 260 years old.

Published

2016

16. AMS radiocarbon dating of very large Grandidier's baobabs (Adansonia grandidieri)

Author

Roxana T. Patrut, Karl F. von Reden, Adrian Patrut, László Rákosy, Pascal Danthu, Jean-Michel Leong Pock-Tsy, Daniel A. Lowy, and Dragos Margineanu

Subjects

K50 - Technologie des produits forestiers, Nuclear and High Energy Physics, Identification, Tropical trees, Adansonia, Anatomie du bois, F50 - Anatomie et morphologie des plantes, law.invention, Adansonia grandidieri, Âge, law, Dendrochronology, Radiocarbon dating, Instrumentation, Tronc, Morphologie végétale, biology, biology.organism_classification, Archaeology, Above ground, Geography, Cerne, Datation au radiocarbone, Third specimen, Adansonia digitata

Abstract

The article reports the AMS radiocarbon investigation of the two largest known Adansonia grandidieri specimens. The two baobabs, which are named Tsitakakoike and Pregnant baobab, are located in Southwestern Madagascar, near Andombiro. A third specimen from this area, the House baobab, was also investigated. According to measurements, Tsitakakoike is the biggest individual above ground level of all Adansonia species. The House baobab was selected for its exposed structure, which is identical to the closed ring-shaped structure with false cavities identified by us in large and old Adansonia digitata specimens. According to our research, Tsitakakoike and the Pregnant baobab have multi-stemmed cylindrical trunks which are mainly hollow; the two very large baobabs also possess a ring-shaped structure. The radiocarbon dates of the oldest wood samples collected from the large trunks were 1274 ± 20 bp for Tsitakakoike and 930 ± 20 bp for the Pregnant baobab. According to their original positions and to the architectures of the two A. grandidieri , the ages of Tsitakakoike and Pregnant baobab would be between 1300 and 1500 years. Therefore, A. grandidieri becomes the third Adansonia species with individuals that can live over 1000 years, according to accurate dating results.

Published

2015