| Nome |
# |
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Anatomical Studies of Two Jatropha Species with Importance for Biodiesel Production, file e0d6c928-8e48-fcf8-e053-d805fe0aa794
|
490
|
|
Exploring the interaction between polystyrene nanoplastics and Allium cepa during germination: Internalization in root cells, induction of toxicity and oxidative stress, file e0d6c92e-ca90-fcf8-e053-d805fe0aa794
|
378
|
|
TiO2 nanoparticles may alleviate cadmium toxicity in co-treatment experiments on the model hydrophyte Azolla filiculoides, file e0d6c92e-0c43-fcf8-e053-d805fe0aa794
|
271
|
|
Aerobic environment ensures viability and anti-oxidant capacity when seeds are wet with negative effect when moist: implications for persistence in the soil, file e0d6c92b-93ae-fcf8-e053-d805fe0aa794
|
236
|
|
An integrated approach to highlight biological responses of Pisum sativum root to nano-TiO2 exposure in a biosolid-amended agricultural soil, file e0d6c92b-ba68-fcf8-e053-d805fe0aa794
|
227
|
|
Early evidence of the impacts of microplastic and nanoplastic pollution on the growth and physiology of the seagrass Cymodocea nodosa, file b5442e3c-98bc-4c8a-bf20-f81f9ab4635f
|
221
|
|
Root responses to different types of TiO2 nanoparticles and bulk counterpart in plant model system Vicia faba L, file e0d6c92b-9dde-fcf8-e053-d805fe0aa794
|
216
|
|
Indole-3-acetic acid metabolism and growth in young kiwifruit berry, file e0d6c92b-cfa3-fcf8-e053-d805fe0aa794
|
200
|
|
Morpho-anatomical and physiological traits of Agrostis castellana living in an active geothermal alteration field, file e0d6c92b-dfa6-fcf8-e053-d805fe0aa794
|
186
|
|
Durum wheat seedlings in saline conditions: Salt spray versus root-zone salinity, file e0d6c92b-c0ab-fcf8-e053-d805fe0aa794
|
174
|
|
TiO2 nanoparticles in a biosolid-amended soil and their implication in soil nutrients, microorganisms and Pisum sativum nutrition, file e0d6c92e-469c-fcf8-e053-d805fe0aa794
|
167
|
|
Antioxidant response to cold stress in two oil plants of the genus Jatropha, file e0d6c92b-8099-fcf8-e053-d805fe0aa794
|
149
|
|
Seasonal and microclimatic influences on the ecophysiology of Mediterranean coastal dune plants, file e0d6c92c-491f-fcf8-e053-d805fe0aa794
|
142
|
|
LE PIANTE NEL MONITORAGGIO AMBIENTALE: EFFETTI FITOTOSSICI E GENOTOSSICI DI DIVERSI CONTAMINANTI, file e0d6c92d-45c8-fcf8-e053-d805fe0aa794
|
132
|
|
Anthemis maritima L. in different coastal habitats: A tool to explore plant plasticity, file e0d6c92b-ade1-fcf8-e053-d805fe0aa794
|
119
|
|
Morpho-physiological plasticity contributes to tolerance of Calluna vulgaris in an active geothermal field, file e0d6c92b-c13d-fcf8-e053-d805fe0aa794
|
118
|
|
Polystyrene nanoplastics affect seed germination, cell biology and physiology of rice seedlings in-short term treatments: Evidence of their internalization and translocation, file e0d6c932-1aea-fcf8-e053-d805fe0aa794
|
108
|
|
Modulation of the defence responses against Cd in willow species through a multifaceted analysis, file e0d6c930-6a62-fcf8-e053-d805fe0aa794
|
81
|
|
Study of functional and physiological response of co-occurring shrub species to the Mediterranean climate, file e0d6c92b-aea0-fcf8-e053-d805fe0aa794
|
69
|
|
Stress-induced changes to the flora in a geothermal field in central Italy, file e0d6c92b-ca26-fcf8-e053-d805fe0aa794
|
56
|
|
Effect of zinc priming on salt response of wheat seedlings: Relieving or worsening?, file e0d6c92f-821c-fcf8-e053-d805fe0aa794
|
53
|
|
Responses to desiccation injury in developing wheat embryos from naturally- and artificially-dried grains, file e0d6c92b-d74a-fcf8-e053-d805fe0aa794
|
44
|
|
Plant adaptation to extreme environments: The example of Cistus salviifolius of an active geothermal alteration field, file e0d6c92b-8c83-fcf8-e053-d805fe0aa794
|
43
|
|
Ageing in embryos from wheat grains stored at different temperatures: oxidative stress and antioxidant response, file e0d6c92b-92af-fcf8-e053-d805fe0aa794
|
42
|
|
Morpho-anatomical and physiological traits of Agrostis castellana living in an active geothermal alteration field, file e0d6c92b-c56b-fcf8-e053-d805fe0aa794
|
42
|
|
TiO2 nanoparticles and sludge from wastewater treatment plants: a new concern for crops?, file e0d6c92b-aaa7-fcf8-e053-d805fe0aa794
|
29
|
|
Glutathione and phytochelatins jointly allow intracellular and extracellular detoxification of cadmium in the liverwort Marchantia polymorpha, file 32904926-f6e0-4428-8360-5ed9bc0dd4cd
|
28
|
|
Mineral nutrients in soil and pea plants after exposition to TiO2 nanoparticles through a biosolid-amended soil, file e0d6c92b-b6a1-fcf8-e053-d805fe0aa794
|
26
|
|
Response of Pteris vittata to different cadmium treatments, file e0d6c92b-e70f-fcf8-e053-d805fe0aa794
|
15
|
|
Impact of TiO2 nanoparticles on Vicia narbonensis L.: potential toxicity effects, file e0d6c92b-b540-fcf8-e053-d805fe0aa794
|
14
|
|
Effects of Zinc Oxide Particles with Different Sizes on Root Development in Oryza sativa, file 2bae69f5-921c-46ec-94c7-a54abb0f6070
|
12
|
|
Calystegia soldanella: dune versus laboratory plants to highlight
key adaptive physiological traits, file e0d6c92b-9a69-fcf8-e053-d805fe0aa794
|
9
|
|
Anthemis maritima L. in different coastal habitats: A tool to explore plant plasticity, file e0d6c926-3bba-fcf8-e053-d805fe0aa794
|
7
|
|
Response of Pteris vittata to different cadmium treatments, file e0d6c926-dd61-fcf8-e053-d805fe0aa794
|
6
|
|
Synchrotron Radiation Spectroscopy and Transmission Electron Microscopy Techniques to Evaluate TiO2 NPs Incorporation, Speciation, and Impact on Root Cells Ultrastructure of Pisum sativum L. Plants, file e0d6c931-94ef-fcf8-e053-d805fe0aa794
|
5
|
|
Polystyrene nanoplastics affect seed germination, cell biology and physiology of rice seedlings in-short term treatments: Evidence of their internalization and translocation, file 5338a480-5358-4cb1-86dd-6d818c2cf734
|
4
|
|
Plant adaptation to extreme environments: The example of Cistus salviifolius of an active geothermal alteration field, file e0d6c927-b3f9-fcf8-e053-d805fe0aa794
|
4
|
|
Root responses to different types of TiO2 nanoparticles and bulk counterpart in plant model system Vicia faba L, file e0d6c92b-78fa-fcf8-e053-d805fe0aa794
|
4
|
|
Responses to desiccation injury in developing wheat embryos from naturally- and artificially-dried grains, file e0d6c92b-9900-fcf8-e053-d805fe0aa794
|
4
|
|
Aerobic environment ensures viability and anti-oxidant capacity when seeds are wet with negative effect when moist: implications for persistence in the soil, file e0d6c92b-dfbd-fcf8-e053-d805fe0aa794
|
4
|
|
Ageing in embryos from wheat grains stored at different temperatures: oxidative stress and antioxidant response, file e0d6c92b-a918-fcf8-e053-d805fe0aa794
|
3
|
|
Indole-3-acetic acid metabolism and growth in young kiwifruit berry, file e0d6c92b-c726-fcf8-e053-d805fe0aa794
|
3
|
|
Seasonal and microclimatic influences on the ecophysiology of Mediterranean coastal dune plants, file e0d6c92c-4921-fcf8-e053-d805fe0aa794
|
3
|
|
An integrated approach to highlight biological responses of Pisum sativum root to nano-TiO2 exposure in a biosolid-amended agricultural soil, file 484b32ac-d988-43b8-9029-c8fcc0993e98
|
2
|
|
Early evidence of the impacts of microplastic and nanoplastic pollution on the growth and physiology of the seagrass Cymodocea nodosa, file 62b3f5e5-aab9-4a25-92fa-f518b1b7891a
|
2
|
|
Durum wheat seedlings in saline conditions: Salt spray versus root-zone salinity, file e0d6c92b-96b1-fcf8-e053-d805fe0aa794
|
2
|
|
Dormancy and germination in wheat embryos: ribonucleases and hormonal control, file e0d6c92b-dcc7-fcf8-e053-d805fe0aa794
|
2
|
|
Phytochemicals and antioxidant capacity in four Italian traditional maize (Zea mays L.) varieties, file e0d6c92b-e463-fcf8-e053-d805fe0aa794
|
2
|
|
Ecophysiological research on Mediterranean natural plants in a changing environment, file e0d6c92d-c9f5-fcf8-e053-d805fe0aa794
|
2
|
|
TiO2 nanoparticles in a biosolid-amended soil and their implication in soil nutrients, microorganisms and Pisum sativum nutrition, file e0d6c92e-8f83-fcf8-e053-d805fe0aa794
|
2
|
|
RNases and nucleases in embryos and endosperms from naturally aged wheat seeds stored in different conditions, file e0d6c92b-7436-fcf8-e053-d805fe0aa794
|
1
|
|
Ribonucleases during cold acclimation in winter and spring wheats, file e0d6c92b-827c-fcf8-e053-d805fe0aa794
|
1
|
|
Morpho-physiological plasticity contributes to tolerance of Calluna vulgaris in an active geothermal field, file e0d6c92b-96b2-fcf8-e053-d805fe0aa794
|
1
|
|
Impact of TiO2 nanoparticles on Vicia narbonensis L.: potential toxicity effects, file e0d6c92b-ac13-fcf8-e053-d805fe0aa794
|
1
|
|
Stress-induced changes to the flora in a geothermal field in central Italy, file e0d6c92b-cd6a-fcf8-e053-d805fe0aa794
|
1
|
|
Nucleolytic enzymes and DNA degradation in aleurone layers of imbibed aged wheat seeds, file e0d6c92b-d4ae-fcf8-e053-d805fe0aa794
|
1
|
|
Paolo Meletti: Ricordo di un ricercatore, e non solo, file e0d6c92b-dcb7-fcf8-e053-d805fe0aa794
|
1
|
|
Ribonucleases during ripening and after-ripening in Triticum durum embryos, file e0d6c92b-dcc3-fcf8-e053-d805fe0aa794
|
1
|
|
Calystegia soldanella: dune versus laboratory plants to highlight
key adaptive physiological traits, file e0d6c92b-e184-fcf8-e053-d805fe0aa794
|
1
|
|
Ecophysiological research on Mediterranean natural plants in a changing environment, file e0d6c92d-b6d8-fcf8-e053-d805fe0aa794
|
1
|
|
TiO2 nanoparticles may alleviate cadmium toxicity in co-treatment experiments on the model hydrophyte Azolla filiculoides, file e0d6c92d-f638-fcf8-e053-d805fe0aa794
|
1
|
|
Exploring the interaction between polystyrene nanoplastics and Allium cepa during germination: Internalization in root cells, induction of toxicity and oxidative stress, file e0d6c92e-c53a-fcf8-e053-d805fe0aa794
|
1
|
| Totale |
4.170 |