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{{Short description|German agricultural scientist}}
{{Short description|German agricultural scientist}}
{{coi|date=January 2023}}
{{Draft topics|women|western-europe|stem}}
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{{Infobox scientist
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'''Silvia Hildegard Haneklaus''' (* [[October 17, 1959]] in [[Rheine]], [[North Rhine-Westphalia]]) is a German agricultural scientist and researcher specialised in [[Plant nutrition]] and [[Soil science]].
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[[File:Silvia Progeny Cairo 2021.jpg|thumb| Silvia Hildegard Haneklaus, December 2021 in Cairo]]
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== Life and Education ==
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Haneklaus was born in [[Rheine]], the third child of the engineer Karl Haneklaus and his wife Erna, née Geburzky and was baptised a Catholic. Haneklaus attended from 1966 the catholic primary school in Rheine-Eschendorf <ref>[https://johannesschule-eschendorf.de]</ref> and from 1970 on the [[Emsland-Gymnasium]] in [[Rheine]]. She studied agriculture with specialization in plant production nutrition at [[Christian-Albrechts-Universität zu Kiel]] (CAU) and received her diploma 1985 in the discipline plant nutrition with a thesis about the essentiality of chlorine for plant life <ref>[Haneklaus, S. 1983. Chlor als Nährelement und nützliches Element für Pflanzen und Grundlagen der Chlordüngung. Diplom Thesis.Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Haneklaus_S_1983_Chlor_als_Nahrelement_und_nutzliches_Element_fur_Pflanzen_und_Grundlagen_der_Chlordungung_Diplomarbeit_an_der_Landwirtschaftlichen_Fakultat_der_Christian-Albrechts-Universitat_zu_Kiel]</ref>. In 1989 she completed her doctorate and received the title “Dr. sc. agr.” at the Faculty of Agriculture in Kiel with a thesis about fertilizer strategies to combat uptake of radionuclides by food plants in the aftermath of the reactor disaster in [[Chernobyl]]<ref>[Haneklaus S (1989) Strontiumgehalte in Pflanzen und Böden Schleswig-
| image = CSilvia Hildegard Haneklaus.jpg
Holsteins und Bewertung von Düngungsmaßnahmen zur Verminderung der Strontiumaufnahme von Kulturpflanzen. Dissertation Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Strontiumgehalte_in_Pflanzen_und_Boden_Schleswig-_Haneklaus_Silvia_Ewald_Schnug_superv_Holsteins_und_Bewertung_von_Dungungsmassnahmen_zur_Verminderung_der_Strontiumaufnahme_von_Kulturpflanzen_Disserta]</ref>.
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| birth_place = Rheine, North Rhine-Westphalia, West Germany
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'''Silvia Hildegard Haneklaus''' (born 17 October 1959) is a German agricultural scientist and researcher specialised in [[Plant nutrition]] and [[Soil science]].

== Education ==
Haneklaus was born in [[Rheine]], [[North Rhine-Westphalia]]. She studied agriculture at [[Christian-Albrechts-Universität zu Kiel]] (CAU) and in 1983 published her thesis about the essentiality of chlorine for plant life.<ref>[Haneklaus, S. 1983. Chlor als Nährelement und nützliches Element für Pflanzen und Grundlagen der Chlordüngung. Diplom Thesis.Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Haneklaus_S_1983_Chlor_als_Nahrelement_und_nutzliches_Element_fur_Pflanzen_und_Grundlagen_der_Chlordungung_Diplomarbeit_an_der_Landwirtschaftlichen_Fakultat_der_Christian-Albrechts-Universitat_zu_Kiel]</ref> In 1989 she completed her doctorate and received the title “Dr. sc. agr.” at the Faculty of Agriculture in Kiel with a thesis about fertilizer strategies to combat uptake of radionuclides by food plants in the aftermath of the reactor disaster in [[Chernobyl]].<ref>[Haneklaus S (1989) Strontiumgehalte in Pflanzen und Böden Schleswig-

Holsteins und Bewertung von Düngungsmaßnahmen zur Verminderung der Strontiumaufnahme von Kulturpflanzen. Dissertation Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Strontiumgehalte_in_Pflanzen_und_Boden_Schleswig-_Haneklaus_Silvia_Ewald_Schnug_superv_Holsteins_und_Bewertung_von_Dungungsmassnahmen_zur_Verminderung_der_Strontiumaufnahme_von_Kulturpflanzen_Disserta]</ref>


== Scientific career ==
== Scientific career ==
From 1990 to 1991 Haneklaus was principal investigator of a technology-transfer project for [[Precision agriculture]] (PA) at the Institute of Plant Nutrition and Soil Science at CAU in Kiel. 1991-1992 she worked as freelancer in PA for the Danish Agricultural Advisory Service, and on [[Remote sensing]] at the ‘Institute for Agricultural And Agroecological Innovations and Techologies” (ILLIT) Ltd. in Kiel. 1992 Haneklaus became a senior scientist at the at the Institute of Plant Nutrition and Soil Science [[Bundesforschungsanstalt für Landwirtschaft]] in Braunschweig (FAL) where she implemented with [[Ewald Schnug]] international recognized competence centres for research on sulphur nutrition of crop plants and [[Precision agriculture]] <ref>https://literatur.thuenen.de/digbib_extern/zi025161.pdf {{Bare URL PDF|date=May 2022}}</ref> <ref>[Haneklaus, S., Lilienthal, H., Schnug, E., 2016. 25 years Precision Agriculture in Germany – a retrospective. Proceedings of the 13th International Conference on Precision Agriculture : July 31 – August 3, 2016, St. Louis, Missouri, USA.]</ref>. Fom 1997-1998 she was member of a governmental working group drafting government regulations to prevent radiation exposition of the public after nuclear accidents <ref>[Genkel, S. und Schnadt, H. (2010) Übersicht über Maßnahmen zur Verringerung der Strahlenexposition nach Ereignissen mit nicht unerheblichen radiologischen Auswirkungen. Heft 60 Publikationen der SSK, ISBN 978-3-87344-163-7]</ref>.
From 1990 to 1991 Haneklaus was principal investigator of a technology-transfer project for [[Precision agriculture]] (PA) at the Institute of Plant Nutrition and Soil Science at CAU in Kiel. 1991–1992 she worked as freelancer in PA for the Danish Agricultural Advisory Service, and on [[Remote sensing]] at the ‘Institute for Agricultural And Agroecological Innovations and Technologies” (ILLIT) Ltd. in Kiel. 1992 Haneklaus became a senior scientist at the Institute of Plant Nutrition and Soil Science [[Bundesforschungsanstalt für Landwirtschaft]] in Braunschweig (FAL) where she implemented with [[Ewald Schnug]] international recognized competence centres for research on sulphur nutrition of crop plants and [[Precision agriculture]].<ref>{{cite web|title=Lokales Ressourcen|website=thuenen.de|access-date=13 December 2023|language=de
|url=https://literatur.thuenen.de/digbib_extern/zi025161.pdf}}</ref><ref>[Haneklaus, S., Lilienthal, H., Schnug, E., 2016. 25 years Precision Agriculture in Germany – a retrospective. Proceedings of the 13th International Conference on Precision Agriculture : 31 July 3 August 2016, St. Louis, Missouri, USA.]</ref> From 1997 to 1998 she was member of a governmental working group drafting government regulations to prevent radiation exposition of the public after nuclear accidents.<ref>[Genkel, S. und Schnadt, H. (2010) Übersicht über Maßnahmen zur Verringerung der Strahlenexposition nach Ereignissen mit nicht unerheblichen radiologischen Auswirkungen. Heft 60 Publikationen der SSK, ISBN 978-3-87344-163-7]</ref>
In 2002 Haneklaus was appointed Director & Professor at the Federal Agricultural Research Institute (FAL, since 2008 [[Julius Kühn-Institut]] (JKI) in Braunschweig. Since 2010 she is acting as Secretary General for the International Scientific Centre of Fertilizers (CIEC) in Shenyang, China <ref>{{Cite web|url=https://ciec.iae.ac.cn/|title=International Scientific Center of Fertilizers (CIEC)|website=ciec.iae.ac.cn}}</ref> which was founded in 1933 in Rome. End of October 2022 she retired regularly at JKI.
In 2002 Haneklaus was appointed Director & Professor at the Federal Agricultural Research Institute (FAL), since 2008 [[Julius Kühn-Institut]] (JKI) in Braunschweig. Since 2010 she is acting as Secretary General for the International Scientific Centre of Fertilizers (CIEC) in Shenyang, China<ref>{{Cite web|url=https://ciec.iae.ac.cn/|title=International Scientific Center of Fertilizers (CIEC)|website=ciec.iae.ac.cn}}</ref> which was founded in 1933 in Rome. End of October 2022 she retired regularly at JKI.


== Awards ==
== Awards ==
In 2008, Haneklaus, was awarded the Diploma of Excellency of the Romanian Academy of Agricultural and Forestry Sciences ‘Gheorghe Ionescu-Şişeşti’.<ref>The Yearbook 2008 of the Academy of Agricultural and Forestry Sciences ”Gheorghe Ionescu-Șișești”, page 119. ”Terra Nostra” Publishing House, Iași, 2009</ref><ref>{{Cite book|url=https://www.worldcat.org/oclc/72954112 |title=AASS yearbooks|website=www.worldcat.org |oclc=72954112 |language=en}}</ref>
[[File:Silvia Haneklaus and Cristian Hera, A.A.F.S. awarding I.jpg|thumb|The President of The Academy of Agricultural and Forestry Sciences "Gheorghe Ionescu-Şişeşti" (A.A.F.S.) in Bucharest, Cristian Haera. awards the Diploma of Excellence of A.A.F.S. to Silvia Haneklaus]]
[[File:Certificate for the appointment of Silvia Haneklaus "Visiting Professor" at the Institute of Applied Ecology of the Chinese Academy of Sciences (signed).jpg|thumb|Certificate for the appointment of Silvia Haneklaus "Visiting Professor" at the Institute of Applied Ecology of the Chinese Academy of Sciences]]
* 2008: Diploma of Excellency of the Romanian Academy of Agricultural and Forestry Sciences ‘Gheorghe Ionescu-Şişeşti’<ref>The Yearbook 2008 of the Academy of Agricultural and Forestry Sciences ”Gheorghe Ionescu-Șișești”, page 119. ”Terra Nostra” Publishing House, Iași, 2009 (See enclosed the excerpt of the reference paragraph from page 119)</ref>
* 2022: Appointment as Visiting Professor at the ‘Institute of Applied Ecology’ of the Chinese Academy of Science.


== Research highlights ==
== Research highlights ==
Haneklaus contributed essentially to the development of the [[X-ray fluorescence analysis|X-ray fluorescence method]] for the determination of the [[Glucosinolate]]-(GSL) content of rapeseed,<ref>{{citation|surname1=E. Schnug, S. Haneklaus|periodical=Raps|title=Eine Methode zur schnellen Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen|volume=4|at=pp.&nbsp;128–130|date=1986|language=German}}</ref> which was employed already in 1987 nationwide during the harvest period of oilseed rape in order to differentiate old (high glucosinolate containing) (0-oilseed rape) cultivars from new (low glucosinolate containing (00-oilseed rape) varieties. Issues of sulfur nutrition of crop plants, with focus on resistance to abiotic and biotic stress were later one of her main research subjects. In 2001 Haneklaus coined with [[Ewald Schnug]] the term ‘Sulphur-Induced Resistance’ (SIR) which will become a major focus in the research portfolio of FAL/JKI.<ref>[ Haneklaus, S.; Bloem, E.; Schnug, E.: Sulphur Induced Resistance (SIR) – an Innovative Concept for Improving Crop Quality in Sustainable Agricultural Production Systems. Symp. on Elemental Sulfur for Agronomic Applications and Desert Greening, Abu Dhabi, United Arabic Emirates 24–25 February 2001, 34]</ref><ref>[ Handklaus S. and Schnug: ''Sulfur and Plant Disease.'' In: Datnoff u. a. (Hrsg.): ''Mineral Nutrition and Plant disease.'' APS Press Minneapolis MN USA, 2007, S. 101–118.]</ref> Later in her career she dedicated her research nutrinional and medical issues of uranium in food and water<ref>[* with H. Windmann, M. Maekawa, L. Zhang and E. Schnug: “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. https://www.openagrar.de/receive/openagrar_mods_00073578]</ref>
[[File:First volume of the first international journal for Precision Agiculture.pdf|thumb|First volume of the first international journal for Precision Agriculture (cover)]]
[[File:First volume of the first international journal for Precision Agriculture.pdf|thumb|First volume of the first international Journal for Precision Agriculture (contents)]]
Haneklaus contributed essentially to the development of the [[X-ray fluorescence analysis|X-ray fluorescence method]] for the determination of the [[Glucosinolate]]-(GSL) content of rapeseed,<ref>{{citation|surname1=E. Schnug, S. Haneklaus|periodical=Raps|title=Eine Methode zur schnellen Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen|volume=4|at=pp.&nbsp;128–130|date=1986|language=German}}</ref> which was employed already in 1987 nationwide during the harvest period of oilseed rape in order to differentiate old (high glucosinolate containing) (0-oilseed rape) cultivars from new (low glucosinolate containing (00-oilseed rape) varieties. Issues of sulfur nutrition of crop plants, with focus on resistance to abiotic and biotic stress were later one of her main research subjects. In 2001 Haneklaus coined with [[Ewald Schnug]] the term ‘Sulphur-Induced Resistance’ (SIR) which will become a major focus in the research portfolio of FAL/JKI. <ref>[ Haneklaus, S.; Bloem, E.; Schnug, E.: Sulphur Induced Resistance (SIR) – an Innovative Concept for Improving Crop Quality in Sustainable Agricultural Production Systems. Symp. on Elemental Sulfur for Agronomic Applications and Desert Greening, Abu Dhabi, United Arabic Emirates 24–25 February 2001, 34]</ref> <ref>[ Handklaus S. and Schnug: ''Sulfur and Plant Disease.'' In: Datnoff u. a. (Hrsg.): ''Mineral Nutrition and Plant disease.'' APS Press Minneapolis MN USA, 2007, S. 101–118.]</ref>. Later in her career she dedicated her research nutrinional and medical issues of uranium in food and water <ref>[* with H. Windmann, M. Maekawa, L. Zhang and E. Schnug: “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. https://www.openagrar.de/receive/openagrar_mods_00073578] </ref>.
== Publications ''(Selection)'' ==
== Publications ''(Selection)'' ==
* with E. Schnug (1987): ''Indirekte Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen mittels Röntgenfluoreszenzanalyse.'' In: ''Fresenius Z. Anal. Chem.'' 326, 1987, S. 441–445.
* with E. Schnug (1987): ''Indirekte Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen mittels Röntgenfluoreszenzanalyse.'' In: ''Fresenius Z. Anal. Chem.'' 326, 1987, S. 441–445.
* with E. Bloem and E. Schnug (2003): “The global sulphur cycle and its link to plant environment”. In: Abrol YP, Ahmand A (eds.), Sulphur in Plants. Kluwer Academic, Dordrecht, The Netherlands, pp 1-28.
* with E. Bloem and E. Schnug (2003): “The global sulphur cycle and its link to plant environment”. In: Abrol YP, Ahmand A (eds.), Sulphur in Plants. Kluwer Academic, Dordrecht, The Netherlands, pp 1–28.
* with E. Schnug (2005): ''Sulphur deficiency symptoms in oilseed rape (Brassica Napus L.) – The aesthetics of starvation.'' In: ''Phyton'' 45, 79–95.
* with E. Schnug (2005): ''Sulphur deficiency symptoms in oilseed rape (Brassica Napus L.) – The aesthetics of starvation.'' In: ''Phyton'' 45, 79–95.
* with E. Schnug, L. J. De Kok, I. Stulen and E. Bloem (2006): ''Sulfur.'' In: Barker and Pilbeam (eds.): ''Handbook of Plant Nutrition.'' CRC Press, Boca Raton, Florida 2006, S. 183–238.
* with E. Schnug, L. J. De Kok, I. Stulen and E. Bloem (2006): ''Sulfur.'' In: Barker and Pilbeam (eds.): ''Handbook of Plant Nutrition.'' CRC Press, Boca Raton, Florida 2006, S. 183–238.
* with E. Schnug (2006): ''Site specific nutrient management – objectives, current status and future research needs.'' In: A. Srinivasan (eds.): ''Precision Farming – A global perspective.'' Marcel Dekker, New York, 91–151.
* with E. Schnug (2006): ''Site specific nutrient management – objectives, current status and future research needs.'' In: A. Srinivasan (eds.): ''Precision Farming – A global perspective.'' Marcel Dekker, New York, 91–151.
* with E. Schnug (2008): A critical evaluation of phytoextraction on uranium contaminated agricultural soils. In: Loads and Fate of Fertilizer Derived Uranium, pp. 111-125. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
* with E. Schnug (2008): A critical evaluation of phytoextraction on uranium contaminated agricultural soils. In: Loads and Fate of Fertilizer Derived Uranium, pp.&nbsp;111–125. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
* with E. Schnug, M. Birke, N. Costa, F. Knolle, J. Fleckenstein, K. Panten and H. Lilienthal (2008): Uranium in German mineral and tap waters. In: Loads and Fate of Fertilizer Derived Uranium, pp. 11-22. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
* with E. Schnug, M. Birke, N. Costa, F. Knolle, J. Fleckenstein, K. Panten and H. Lilienthal (2008): Uranium in German mineral and tap waters. In: Loads and Fate of Fertilizer Derived Uranium, pp.&nbsp;11–22. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
* with E. Schnug (2016): ''Glucosinolates – The Agricultural Story.'' In ''[[S. Kopriva (Ed.), Glucosinolates]].'' pp.&nbsp;281–302, 2016 Elsevier Ltd., ISBN 978-0-08-100327-5.
* with E. Schnug (2016): ''Glucosinolates – The Agricultural Story.'' In ''[[S. Kopriva (Ed.), Glucosinolates]].'' pp.&nbsp;281–302, 2016 Elsevier Ltd., ISBN 978-0-08-100327-5.
* with E. Schnug (2016): “The Enigma of Fertilizer Phosphorus Utilization”. In: Phosphorus in Agriculture: 100 % Zero, pp 7–26, Springer, 2016, DOI: 10.1007/978-94-017-7612-7_2
* with E. Schnug (2016): “The Enigma of Fertilizer Phosphorus Utilization”. In: Phosphorus in Agriculture: 100% Zero, pp 7–26, Springer, 2016, DOI: 10.1007/978-94-017-7612-7_2
* with E. Schnug (2018): “Hungry Plants—A Short Treatise on How to Feed Crops under Stress” Agriculture, 8, 43; https://doi.org/10.3390/agriculture8030043
* with E. Schnug (2018): “Hungry Plants—A Short Treatise on How to Feed Crops under Stress” Agriculture, 8, 43; [https://doi.org/10.3390/agriculture8030043 Hungry Plants—A Short Treatise on How to Feed Crops under Stress]
* with H. Windmann, M. Maekawa, L. Zhang and E. Schnug (2021): “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. https://www.openagrar.de/receive/openagrar_mods_00073578
* with H. Windmann, M. Maekawa, L. Zhang and E. Schnug (2021): “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. [https://www.openagrar.de/receive/openagrar_mods_00073578 Medical Research Archives]
* with A. Dollacker, R. Oppermann and R. de Graeff (2021): "Dually-beneficial habitats serve as a practical biodiversity mainstreaming tool in European crop production". Journal of cultivated plants. 73, 53-71. Doi: 10.5073/JfK.2021.03-04.01
* with A. Dollacker, R. Oppermann and R. de Graeff (2021): "Dually-beneficial habitats serve as a practical biodiversity mainstreaming tool in European crop production". Journal of cultivated plants. 73, 53–71. Doi: 10.5073/JfK.2021.03-04.01


== References ==
== References ==
<!-- Inline citations added to your article will automatically display here. See en.wikipedia.org/wiki/WP:REFB for instructions on how to add citations. -->
{{reflist}}
{{reflist}}

{{Authority control}}

{{DEFAULTSORT:Haneklaus, Silvia Hildegard}}
[[Category:German women academics]]
[[Category:1959 births]]
[[Category:Living people]]
[[Category:German agriculturalists]]
[[Category:People from Rheine]]

Latest revision as of 09:40, 28 February 2024

Silvia Hildegard Haneklaus
Born (1959-10-17) 17 October 1959 (age 65)
Rheine, North Rhine-Westphalia, West Germany

Silvia Hildegard Haneklaus (born 17 October 1959) is a German agricultural scientist and researcher specialised in Plant nutrition and Soil science.

Education

[edit]

Haneklaus was born in Rheine, North Rhine-Westphalia. She studied agriculture at Christian-Albrechts-Universität zu Kiel (CAU) and in 1983 published her thesis about the essentiality of chlorine for plant life.[1] In 1989 she completed her doctorate and received the title “Dr. sc. agr.” at the Faculty of Agriculture in Kiel with a thesis about fertilizer strategies to combat uptake of radionuclides by food plants in the aftermath of the reactor disaster in Chernobyl.[2]

Scientific career

[edit]

From 1990 to 1991 Haneklaus was principal investigator of a technology-transfer project for Precision agriculture (PA) at the Institute of Plant Nutrition and Soil Science at CAU in Kiel. 1991–1992 she worked as freelancer in PA for the Danish Agricultural Advisory Service, and on Remote sensing at the ‘Institute for Agricultural And Agroecological Innovations and Technologies” (ILLIT) Ltd. in Kiel. 1992 Haneklaus became a senior scientist at the Institute of Plant Nutrition and Soil Science Bundesforschungsanstalt für Landwirtschaft in Braunschweig (FAL) where she implemented with Ewald Schnug international recognized competence centres for research on sulphur nutrition of crop plants and Precision agriculture.[3][4] From 1997 to 1998 she was member of a governmental working group drafting government regulations to prevent radiation exposition of the public after nuclear accidents.[5] In 2002 Haneklaus was appointed Director & Professor at the Federal Agricultural Research Institute (FAL), since 2008 Julius Kühn-Institut (JKI) in Braunschweig. Since 2010 she is acting as Secretary General for the International Scientific Centre of Fertilizers (CIEC) in Shenyang, China[6] which was founded in 1933 in Rome. End of October 2022 she retired regularly at JKI.

Awards

[edit]

In 2008, Haneklaus, was awarded the Diploma of Excellency of the Romanian Academy of Agricultural and Forestry Sciences ‘Gheorghe Ionescu-Şişeşti’.[7][8]

Research highlights

[edit]

Haneklaus contributed essentially to the development of the X-ray fluorescence method for the determination of the Glucosinolate-(GSL) content of rapeseed,[9] which was employed already in 1987 nationwide during the harvest period of oilseed rape in order to differentiate old (high glucosinolate containing) (0-oilseed rape) cultivars from new (low glucosinolate containing (00-oilseed rape) varieties. Issues of sulfur nutrition of crop plants, with focus on resistance to abiotic and biotic stress were later one of her main research subjects. In 2001 Haneklaus coined with Ewald Schnug the term ‘Sulphur-Induced Resistance’ (SIR) which will become a major focus in the research portfolio of FAL/JKI.[10][11] Later in her career she dedicated her research nutrinional and medical issues of uranium in food and water[12]

Publications (Selection)

[edit]
  • with E. Schnug (1987): Indirekte Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen mittels Röntgenfluoreszenzanalyse. In: Fresenius Z. Anal. Chem. 326, 1987, S. 441–445.
  • with E. Bloem and E. Schnug (2003): “The global sulphur cycle and its link to plant environment”. In: Abrol YP, Ahmand A (eds.), Sulphur in Plants. Kluwer Academic, Dordrecht, The Netherlands, pp 1–28.
  • with E. Schnug (2005): Sulphur deficiency symptoms in oilseed rape (Brassica Napus L.) – The aesthetics of starvation. In: Phyton 45, 79–95.
  • with E. Schnug, L. J. De Kok, I. Stulen and E. Bloem (2006): Sulfur. In: Barker and Pilbeam (eds.): Handbook of Plant Nutrition. CRC Press, Boca Raton, Florida 2006, S. 183–238.
  • with E. Schnug (2006): Site specific nutrient management – objectives, current status and future research needs. In: A. Srinivasan (eds.): Precision Farming – A global perspective. Marcel Dekker, New York, 91–151.
  • with E. Schnug (2008): A critical evaluation of phytoextraction on uranium contaminated agricultural soils. In: Loads and Fate of Fertilizer Derived Uranium, pp. 111–125. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
  • with E. Schnug, M. Birke, N. Costa, F. Knolle, J. Fleckenstein, K. Panten and H. Lilienthal (2008): Uranium in German mineral and tap waters. In: Loads and Fate of Fertilizer Derived Uranium, pp. 11–22. Edited by L.J. De Kok & E. Schnug. Backhuys Publishers, Leiden, The Netherlands.
  • with E. Schnug (2016): Glucosinolates – The Agricultural Story. In S. Kopriva (Ed.), Glucosinolates. pp. 281–302, 2016 Elsevier Ltd., ISBN 978-0-08-100327-5.
  • with E. Schnug (2016): “The Enigma of Fertilizer Phosphorus Utilization”. In: Phosphorus in Agriculture: 100% Zero, pp 7–26, Springer, 2016, DOI: 10.1007/978-94-017-7612-7_2
  • with E. Schnug (2018): “Hungry Plants—A Short Treatise on How to Feed Crops under Stress” Agriculture, 8, 43; Hungry Plants—A Short Treatise on How to Feed Crops under Stress
  • with H. Windmann, M. Maekawa, L. Zhang and E. Schnug (2021): “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. Medical Research Archives
  • with A. Dollacker, R. Oppermann and R. de Graeff (2021): "Dually-beneficial habitats serve as a practical biodiversity mainstreaming tool in European crop production". Journal of cultivated plants. 73, 53–71. Doi: 10.5073/JfK.2021.03-04.01

References

[edit]
  1. ^ [Haneklaus, S. 1983. Chlor als Nährelement und nützliches Element für Pflanzen und Grundlagen der Chlordüngung. Diplom Thesis.Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Haneklaus_S_1983_Chlor_als_Nahrelement_und_nutzliches_Element_fur_Pflanzen_und_Grundlagen_der_Chlordungung_Diplomarbeit_an_der_Landwirtschaftlichen_Fakultat_der_Christian-Albrechts-Universitat_zu_Kiel]
  2. ^ [Haneklaus S (1989) Strontiumgehalte in Pflanzen und Böden Schleswig- Holsteins und Bewertung von Düngungsmaßnahmen zur Verminderung der Strontiumaufnahme von Kulturpflanzen. Dissertation Landwirtschaftliche Fakultät der Christian-Albrechts-Universität zu Kiel, Germany; https://www.researchgate.net/publication/361438495_Strontiumgehalte_in_Pflanzen_und_Boden_Schleswig-_Haneklaus_Silvia_Ewald_Schnug_superv_Holsteins_und_Bewertung_von_Dungungsmassnahmen_zur_Verminderung_der_Strontiumaufnahme_von_Kulturpflanzen_Disserta]
  3. ^ "Lokales Ressourcen" (PDF). thuenen.de (in German). Retrieved 13 December 2023.
  4. ^ [Haneklaus, S., Lilienthal, H., Schnug, E., 2016. 25 years Precision Agriculture in Germany – a retrospective. Proceedings of the 13th International Conference on Precision Agriculture : 31 July – 3 August 2016, St. Louis, Missouri, USA.]
  5. ^ [Genkel, S. und Schnadt, H. (2010) Übersicht über Maßnahmen zur Verringerung der Strahlenexposition nach Ereignissen mit nicht unerheblichen radiologischen Auswirkungen. Heft 60 Publikationen der SSK, ISBN 978-3-87344-163-7]
  6. ^ "International Scientific Center of Fertilizers (CIEC)". ciec.iae.ac.cn.
  7. ^ The Yearbook 2008 of the Academy of Agricultural and Forestry Sciences ”Gheorghe Ionescu-Șișești”, page 119. ”Terra Nostra” Publishing House, Iași, 2009
  8. ^ AASS yearbooks. OCLC 72954112. {{cite book}}: |website= ignored (help)
  9. ^ E. Schnug, S. Haneklaus (1986), "Eine Methode zur schnellen Bestimmung des Gesamtglucosinolatgehaltes von Rapssamen", Raps (in German), vol. 4, pp. 128–130
  10. ^ [ Haneklaus, S.; Bloem, E.; Schnug, E.: Sulphur Induced Resistance (SIR) – an Innovative Concept for Improving Crop Quality in Sustainable Agricultural Production Systems. Symp. on Elemental Sulfur for Agronomic Applications and Desert Greening, Abu Dhabi, United Arabic Emirates 24–25 February 2001, 34]
  11. ^ [ Handklaus S. and Schnug: Sulfur and Plant Disease. In: Datnoff u. a. (Hrsg.): Mineral Nutrition and Plant disease. APS Press Minneapolis MN USA, 2007, S. 101–118.]
  12. ^ [* with H. Windmann, M. Maekawa, L. Zhang and E. Schnug: “Diet Controls Uranium Intake and Aggravates Health Hazards”. Medical Research Archives 2021. https://www.openagrar.de/receive/openagrar_mods_00073578]
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