Please enable Javascript to use all features and improve your user experience.
ISINIP 2024
Programme
People
Search
EN
Back
Poster session
Poster Session A
Appointment
Date:
09/07/2024
Time:
14:00
–
15:30
Location / Stream:
Conference room „K1“
Programme
Poster
P 2
A proposed methodology for evaluating plant reduction and uptake of Fe from fertilizers by strategy I Plants
Juan José Lucena (Madrid / ES)
Iron acquisition and transport
Poster
P 3
Biofortification of spinach varieties by foliar fertilization with different forms of iron
Esther Schulz (Osnabrück / DE)
Micronutrient biofortification
Poster
P 4
Arabidopsis thaliana early foliar proteome response to root exposure to the rhizobacterium Pseudomonas simiae WCS417
Irene Murgia (Milano / IT)
Plant-soil-microbe interactions
Poster
P 5
An iron-centered microbial approach for enhancing crop production and resilience
Juliet Ochola (Raleigh, NC / US)
Plant-soil-microbe interactions
Poster
P 6
From roots to shoots and back again: the interplay between iron nutrition, the coumarin pathway and infection with bacterial pathogens
Alicja Dobek (Gdańsk / PL)
Plant-soil-microbe interactions
Poster
P 7
Physiological characterization of Arabidopsis halleri accessions originating from sites contrasting in soil pH
Gen Yang (Bochum / DE)
Alkaline and acidic soil environments
Poster
P 8
Exploring natural variation of Arabidopsis thaliana response to multiple stress: tolerance to calcareous soil and high temperatures
Stephane Mari (Montpellier / FR)
Alkaline and acidic soil environments
Poster
P 9
How does N-form modulate the root exudome after Fe supply in tomato plant?
Laura Zanin (Udine / IT)
Iron physiology and interaction with other elements
Poster
P 25
Breeding of high quality, high iron and zinc Japanese rice varieties which are especially suitable to cultivate in Akita
Hiroshi Masuda (Akita-shi / JP)
Micronutrient biofortification
Poster
P 26
Production of high iron and zinc Japanese Akitakomachi rice using
OsVIT1
and
OsYSL9
genes by genome editing approach
May Sann Aung (Akita / JP)
Micronutrient biofortification
Poster
FT 2
Ferritin accumulation is transient during the developmental senescence
Ádám Solti (Budapest / HU)
Iron acquisition and transport
Poster
FT 3
Shikimic acid pathway responses in poplar roots and root exudates under Fe, N, and combined Fe and N deficiencies
Maria Teresa Cieschi Villalba (Gif sur Yvette / FR)
Crop iron physiology
Poster
FT 4
Striking similarities and divergences between HIGH CHLOROPHYLL FLUORESCENCE 101 proteins in plants and apicomplexan parasites Fe-S cluster assembly machineries
Florence Vignols (Montpellier / FR)
Iron physiology and interaction with other elements
Poster
FT 5
Exploring the role of an electron transport mechanism in Fe-dependent root growth under low P
Rodolfo Maniero (Gatersleben / DE)
Iron physiology and interaction with other elements
Poster
FT 6
The allelochemical L-DOPA modulates Fe and Cd homeostasis through a peculiar transcriptional program
Ching-Yuan Chang (Hsinchu / TW)
Iron physiology and interaction with other elements
Poster
FT 7
Iron uptake and accumulation in a purple wheat (T. turgidum ssp. durum) genotype in response to drought stress
Eleonora Coppa (Viterbo / IT)
Iron physiology and interaction with other elements
Poster
FT 8
Effect of proline deoxymgineic acid (PDMA) application on micronutrient, nicotianamine, and endogenous phytosiderohore content in plants
Hiromi Nakanishi (Tokyo / JP)
Iron acquisition and transport
Poster
FT 9
Bloody nodules for breakfast? Bridging the gap between plant and human nutritionists.
Isidro Abreu (Oxford / GB)
Micronutrient biofortification
Poster
FT 10
Iron accumulation as a function of sulfur supply in four tetraploid wheats (Triticum turgidum L.)
Eleonora Coppa (Viterbo / IT)
Micronutrient biofortification
Poster
FT 11
Plant Iron Research in African Countries: Current "Hot Spots", Approaches, and Potentialities
Irene Murgia (Milano / IT)
Whole-plant iron physiology and regulation
Poster
FT 12
Can plants use soil microorganism-derived siderophores to take up iron?
Miguel Pérez-Antón (Auzeville-Tolosane / FR)
Plant-soil-microbe interactions
Poster
FT 13
Siderophore-producing bacteria: a natural source for degradable Fe biofertilizers
Sandra López-Rayo (Madrid / ES)
Micronutrient biofortification
Poster
FT 14
Efficacy of plant growth-promoting bacteria inoculation to alleviate iron deficiency symptoms in cucumber plants
José María Lozano-González (Madrid / ES)
Plant-soil-microbe interactions
Poster
FT 15
The effect of oxygen on synergies between reductant- and ligand-based Fe acquisition strategies
Walter Schenkeveld (Wageningen / NL)
Plant-soil-microbe interactions
Poster
FT 16
Understanding Iron Dynamics in Pigeon Pea and Impacts of Deficiency and Toxicity on Growth
Divya Gupta (Bharatpur / IN)
Micronutrient biofortification
Poster
FT 17
The barley genome encodes high pH-responsive NRT2 homologues.
Kyoko Higuchi (Tokyo / JP)
Alkaline and acidic soil environments
Poster
FT 18
Rapid auxin signalling, mediated by the AFB1 auxin receptor, interferes with rhizosphere acidification during iron deficiency
Vasyl Brykov (Prague / CZ)
Iron acquisition and transport
Poster
FT 19
Machine Phenotyping of
Arabidopsis thaliana
Lines in Alkaline Calcareous Soil Environments
Marie Knopf (Düsseldorf / DE)
Alkaline and acidic soil environments
Poster
FT 20
Interplay between iron and oxygen metabolism in Arabidopsis plants
Gianpiero Vigani (Turin / IT)
Iron physiology and interaction with other elements
Poster
FT 21
The Emerging Contamination Element Indium Effects on Rice Inhibition and Iron/Phosphorus Imbalance
Ya-Fen Lin (Taipei / TW)
Iron physiology and interaction with other elements
Poster
FT 22
Iron chelates photodegradation affected by UV light: a useful assessment for hydroponic cultivation systems.
María Carmen García-Rico (Madrid / ES)
Micronutrient biofortification
Poster
FT 23
Iron availability is an important determinant of ammonium tolerance in the C3 model grass Brachypodium distachyon.
Marino Daniel (Leioa / ES)
Iron physiology and interaction with other elements
Poster
FT 24
Differential uptake and translocation capacity for Fe, Zn, and Mn in high and low-Fe common bean (Phaseolus vulgaris L.) genotypes.
Francois Xavier Rucamumihigo (Stuttgart / DE)
Crop iron physiology
v1.20.0
© Conventus Congressmanagement & Marketing GmbH
Imprint
Privacy