Your search keyword '"Cakmak, Ismail"' showing total 7 results

1. Differences In Uptake And Translocation Of Foliar-Applied Zn In Maize And Wheat

Author

Rehman, Raheela, Asif, Muhammad, Cakmak, Ismail, and Ozturk, Levent

Abstract

Background and Aim Success in agronomic biofortification of maize and wheat is highly variable. This study aimed to elucidate the differences in uptake and translocation of foliar-applied zinc (Zn) in maize (Zea mays L.) and wheat (Triticum aestivum L.) using different experimental approaches. Methods Old leaves of plants cultured with low or adequate Zn supply in soil were treated with natural Zn (as ZnSO4) or enriched stable isotope Zn-70 as SO4 salt. Treated leaves, and the remaining untreated shoot and roots were analyzed for Zn using quantitative (ICP-OES and ICP-MS after acid digestion) and qualitative (fluorescence microscopy after Zinpyr-1 staining) techniques. Results Application of Zn to a single old leaf resulted in significantly higher increments in Zn concentration of the treated leaf, remaining untreated shoot and roots in wheat than in maize, particularly under low Zn supply. The relative Zn uptake (i.e., the portion of Zn-70 taken up by the treated leaf) was also estimated to be significantly higher in wheat than maize, irrespective of the rate of Zn supply to plants. Higher uptake and translocation of Zn in wheat compared to maize was also visualized and demonstrated by using Zinpyr-1 fluorescent dye. Conclusions Our results conclude that wheat is superior to maize in terms of leaf penetration and uptake, as well as subsequent translocation of foliar-applied Zn, therefore, the agronomic biofortification potential is better for wheat than for maize.

Published

2021

2. Kondenzasyon Polimerizasyonu Tekniği ile Poliimit (BPDA - DASDA) Sentezi, Karakterizasyonu ve Yoğunluk Fonksiyoneli Teori (DFT) Çalışması

Author

Yildiko, Ümit and Cakmak, Ismail

Published

2019

3. 4,4'-Diaminotrifenilamin Sentezi, Karakterizasyonu Ve Yoğunluk Fonksiyonel Teorisi (DFT) Çalışmaları

Author

Yildiko, Ümit, Cakmak, Ismail, and Ata, Ahmet Çağrı

Published

2019

4. MOESM1 of Nano- and Pheroid technologies for development of foliar iron fertilizers and iron biofortification of soybean grown in South Africa

Author

Knijnenburg, Jesper, Hilty, Florentine, Janro Oelofse, Riaan Buitendag, Zimmermann, Michael, Cakmak, Ismail, and Grobler, Anne

Abstract

Additional file 1. Fresh leaf analysis results and infrared spectra of the treatments T1â T8.

Published

2018

5. Bor elementinin bitkiler için önemi

Author

GÜNEŞ, Aydın, GEZGİN, Sait, KALİNBACAK, Kadriye, OZCAN, Hesna, and CAKMAK, İsmail

Subjects

inorganic chemicals, Engineering, fungi, Bor,borlu gübreler,borlu gübreleme, Mühendislik, food and beverages, Boron,boron fertilizers,fertilization with boron

Abstract

Bitkilerdebor noksanlığı, en çok kumlu ve organik maddesi düşük olan, yıkanmanın fazlaolduğu ve kireçlemenin sıklıkla yapıldığı asit topraklarda ortaya çıkar.Ayrıca, bor adsorpsiyonu/fiksasyonu yüksek olan killi ve pH’sı yüksektopraklarda da bor noksanlığına rastlanmaktadır. Bor noksanlığının ortayaçıkışıyla birlikte öncelikle hücre duvarlarının oluşumu, yapısal bütünlüğü veişlevi zarar görmektedir. Bitkilerdeki borun yaklaşık % 90’a varan bölümü,hücre duvarlarında yapısal bir element olarak yer almakta ve biyolojikmembranların stabilitesini korumaktadır. Bu özelliği ile bor, bitkinin büyümeve verimi üzerinde ve besin elementi alımında belirleyici bir role sahiptir.Bitkilerin hücre duvarlarında pektin maddesine bağlı olarak bulunan bor, hücreduvarlarına önemli bir sağlamlık ve bütünlük kazandırmaktadır. Böylece borbitki dokularını, patojen girişine ve enfeksiyona karşı koruyucu bir rolüstlenmekte ve bitkilerin hastalıklara karşı direncini arttıran önemli birbesin elementi olarak karşımıza çıkmaktadır. Borun en dikkat çekiciişlevlerinden birisi de, polen oluşumu /tozlaşma, döllenme ve meyve tutumundakirolüdür. Çoğunlukla, bor noksanlığı çeken bitkilerde vejetatif büyümeetkilenmezken, generatif büyümede ve meyve oluşumunda ciddi azalmalar ortayaçıkar. Bor bitki içinde floem iletim demetinde zor taşınan bir element olarakbilinir ve noksanlık belirtileri genç yapraklarda ve sürgünlerde ortaya çıkar.Bu yüzden, özellikle çiçeklenme ve meyve/tane oluşum döneminde yapraklardanbitkilere kontrollü bir bor gübrelemesinin yapılması yüksek verim için birverimi garanti etmek adına önemlidir. Bor noksanlığı problemi, topraklarda veyayapraklarda borun yeterli olması durumunda dahi ortaya çıkabilir. Bu durum,daha çok hava neminin yüksek ve transpirasyonun düşük olduğu koşullarda belirginbiçimde ortaya çıkar. Hücre duvarı kompozisyonu ve pektin maddesi miktarınabağlı olmak üzere bitkilerin bor gereksinimi türden türe önemli farklılıklargöstermektedir. Genelde, tahıllar gibi bor gereksinimi düşük olan bitkilere 100-200 g/da bor önerilirken; bu oran, şeker pancarı, kolza, ayçiçeği gibi boragereksinimi yüksek olan bitkilerde 400 g’a çıkabilmektedir. Yapraktan yapılacak borgübrelemesinde ise genelde kabul gören oran 250-300 mg B/litre olacak şekildeönerilmektedir., Inplants, boron deficiency occurs most often in acidic sandy soils with loworganic matter, high leaching capacity, and frequent lime applications. In addition,boron deficiency is also observed in clayey and high pH soil with high boronadsorption/fixation capacity. Under boron deficiency conditions, the formation,structural stability and functional integrity of cell walls are damaged. Up to90% of boron in plants is located on cell walls as a structural element andcontributes to maintenance of the stability of biological membranes. With thesefunctions boron plays decisive roles in plant growth, yield and nutrientuptake. Boron, as a cell wall element is associated with the pectin substanceand provides a substantial strength and stability to cell walls. Thanks tothese functions, boron plays a protective role against the penetration andinfection of pathogens into plant tissues and increases high resistance ofplants to diseases. One of the most particular functions of boron in plants isits role in pollination, fertilization and fruit setting. Therefore, in mostcases, vegetative growth is not affected in plants by boron deficiency, whilegenerative growth and fruit formation are affected seriously. Among plantmineral nutrients, boron show the lowest phloem mobility. For this reason,foliar boron fertilization based on leaf analysis is of great importance,especially during the periods of flowering and fruit/seed formation to ensurehigh yields. Boron deficiency problem can even occur in plants despite ofsufficiently high amounts of boron in soils or in fully-expanded leaves whichis usually common under conditions where the humidity is high and thetranspiration is low. Boron requirements of plants varies considerably fromspecies to species depending on the composition of the cell wall and the amountof pectin. Thus, it is very important to take into account plant species whenboron fertilizers are applied. In general, 1 to 2 kg/ha of boron is recommendedfor plants with low boron requirements, such as cereals, and this rate can be 4kg for plants with high boron requirement such as sugar beet, rape andsunflower. In the case of foliar boron fertilization, 250-300 mg B/liter ismost commonly recommended rate.

Published

2017

6. Magnesium Applications To Growth Medium And Foliage Affect The Starch Distribution, Increase The Grain Size And Improve The Seed Germination In Wheat

Author

Ceylan, Yasemin, Kutman, Umit Baris, Mengutay, Melis, and Cakmak, Ismail

Subjects

food and beverages, human activities

Abstract

Magnesium (Mg) has diverse functions in plants and plays a critical role in carbohydrate partitioning between source and sink tissues. There is, however, limited information available about the effects of Mg deficiency on grain starch accumulation, yield formation and seed quality in terms of seed germination and seedling establishment in wheat.

Published

2016

7. Micronutrient homeostasis in plants for more sustainable agriculture and healthier human nutrition

Author

Ana G L Assunção, Ismail Cakmak, Stephan Clemens, Manuel González-Guerrero, Adam Nawrocki, Sébastien Thomine, Independent Research Fund Denmark, Agence Nationale de la Recherche (France), German Research Foundation, Federal Ministry of Education and Research (Germany), European Cooperation in Science and Technology, Assunção, Ana G L, Cakmak, Ismail, Clemens, Stephan0000-0003-0570-1060, González-Guerrero, Manuel, Nawrocki, Adam, Thomine, Sébastien, Universidade de Lisboa = University of Lisbon (ULISBOA), Sabanci University [Istanbul], Leibniz-Institut fur Pflanzenbiochemie, Leibniz Association, Universidad Politécnica de Madrid (UPM), Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Assunção, Ana G L [0000-0002-5562-6807], Clemens, Stephan0000-0003-0570-1060[, González-Guerrero, Manuel [0000-0001-7334-5286], Nawrocki, Adam [000-0001-5494-0266], and Thomine, Sébastien [0000-0003-0045-1701]

Subjects

Crops, Agricultural, Physiology, Iron, fungi, [SDV.SA.AGRO]Life Sciences [q-bio]/Agricultural sciences/Agronomy, food and beverages, Agriculture, Plant Science, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, Trace Elements, Zinc, Nitrogen fixation, Sustainability, Food, Fortified, Homeostasis, Humans, Micronutrients, Photosynthesis, Essential metals, Nutrition

Abstract

11 Pág., The provision of sustainable, sufficient, and nutritious food to the growing population is a major challenge for agriculture and the plant research community. In this respect, the mineral micronutrient content of food crops deserves particular attention. Micronutrient deficiencies in cultivated soils and plants are a global problem that adversely affects crop production and plant nutritional value, as well as human health and well-being. In this review, we call for awareness of the importance and relevance of micronutrients in crop production and quality. We stress the need for better micronutrient nutrition in human populations, not only in developing but also in developed nations, and describe strategies to identify and characterize new varieties with high micronutrient content. Furthermore, we explain how adequate nutrition of plants with micronutrients impacts metabolic functions and the capacity of plants to express tolerance mechanisms against abiotic and biotic constraints. Finally, we provide a brief overview and a critical discussion on current knowledge, future challenges, and specific technological needs for research on plant micronutrient homeostasis. Research in this area is expected to foster the sustainable development of nutritious and healthy food crops for human consumption., The authors are supported by an Independent Research Fund Denmark (DFF) grant (no. 9041-00182B) to AA, ERC-StG-2013-335284 to MGG, HarvestPlus-HarvestZinc Project (https://www.harvestzinc.org/) to IC, ANR (Agence Nationale de la Recherche) projects 17-CE20-0008 (MOBIFER) and 19-CE13-0007 (PHLOWZ) to ST, and German Research Foundation (DFG) grant CL 152/11 and Federal Ministry of Education and Research (BMBF) grant 031B0840 to SC. The ST lab benefits from the support of Saclay Plant Sciences-SPS (ANR-17-EUR-0007). This article/publication is based upon work from COST Action CA19116 PLANTMETALS, supported by COST (European Cooperation in Science and Technology). www.cost.eu. This review was written on the basis of a report from the Focus Group ‘Improving micronutrient uptake and use efficiency’ in the context of the CropBooster-P project (EU Horizon 2020 Research and Innovation grant agreement 81769).

Published

2021