PUBLICACIONES

2021

- Spagnoletti F.N., Kronberg F., Spedalieri C., Munarriz E., Giacometti, R. 2021. Protein corona on biogenic silver nanoparticles provides stability and protects cells from toxicity.  Journal of Environmental Management. Elsevier. 297, 113434.

- Amodeo, G., Santagapita, P.R., Spagnoletti, F.N., Giacometti, R., and Perullini, M. Biosynthesis/and or green synthesis of nanoparticles and their use in agriculture. Nano-enabled Agrochemicals in Agriculture. Springer. En prensa.

- Spagnoletti, F., Carmona, M., Balestrasse, K., Chiocchio, V., Giacometti, R., Lavado, R.S. 2021. The arbuscular mycorrhizal fungus Rhizophagus intraradices reduces the root rot caused by Fusarium pseudograminearum in wheat. Rhizosphere, 19, 100369. 

2020

- Giacometti, R., Jacobi, V., Kronberg, F., Panagos, C., Edison, A. S., & Zavala, J. A. (2020). Digestive activity and organic compounds of Nezara viridula watery saliva induce defensive soybean seed responses. Scientific reports, 10(1), 1-12.

- Spagnoletti, F. N., & Giacometti, R. (2020). Dark Septate Endophytic Fungi (DSE) Response to Global Change and Soil Contamination. In Plant Ecophysiology and Adaptation under Climate Change: Mechanisms and Perspectives II (pp. 629-642). Springer, Singapore.

- Spagnoletti, F. N., Cornero, M., Chiocchio, V., Lavado, R. S., & Roberts, I. N. (2020). Arbuscular mycorrhiza protects soybean plants against Macrophomina phaseolina even under nitrogen fertilization. European Journal of Plant Pathology, 156(3), 839-849.

- Spagnoletti, F. N., & Chiocchio, V. M. (2020). Tolerance of dark septate endophytic fungi (DSE) to agrochemicals in vitro. Revista Argentina de microbiologia, 52(1), 43-49.

2019

- Spagnoletti, F. N., Spedalieri, C., Kronberg, F., & Giacometti, R. (2019). Extracellular biosynthesis of bactericidal Ag/AgCl nanoparticles for crop protection using the fungus Macrophomina phaseolina. Journal of environmental management, 231, 457-466.

2018

Giacometti, R., Ilina, N., Eduardo, P. A., & Zavala, J. A. (2018). Stink bug nezara viridula sustains late MAPKs phosphorylation status and induces expression of genes related with cell wall rearrangement in developing soybean seeds. Arthropod-Plant Interactions, 12(4), 531-541.

- Spagnoletti, F. N., Leiva, M., Chiocchio, V., & Lavado, R. S. (2018). Phosphorus fertilization reduces the severity of charcoal rot (Macrophomina phaseolina) and the arbuscular mycorrhizal protection in soybean. Journal of Plant Nutrition and Soil Science, 181(6), 855-860.

- Spagnoletti, F. N., Lavado, R. S., & Giacometti, R. (2018). Interaction of plants and arbuscular mycorrhizal fungi in responses to arsenic stress: a collaborative tale useful to manage contaminated soils. In Mechanisms of arsenic toxicity and tolerance in plants (pp. 239-255). Springer, Singapore.

2017

Spagnoletti, F., Carmona, M., Gómez, N. E. T., Chiocchio, V., & Lavado, R. S. (2017). Arbuscular mycorrhiza reduces the negative effects of M. phaseolina on soybean plants in arsenic-contaminated soils. Applied Soil Ecology, 121, 41-47.

- Spagnoletti, F. N., Tobar, N. E., Di Pardo, A. F., Chiocchio, V. M., & Lavado, R. S. (2017). Dark septate endophytes present different potential to solubilize calcium, iron and aluminum phosphates. Applied Soil Ecology, 111, 25-32.

- Zavala, J. A., Gog, L., & Giacometti, R. (2017). Anthropogenic increase in carbon dioxide modifies plant-insect interactions. Annals of Applied Biology170(1), 68-77.

2016

- Giacometti, R., Barneto, J., Barriga, L. G., Sardoy, P. M., Balestrasse, K., Andrade, A. M., ... & Zavala, J. A. (2016). Early perception of stink bug damage in developing seeds of field‐grown soybean induces chemical defences and reduces bug attack. Pest management science72(8), 1585-1594.

- Giacometti, R., & Zavala, J. A. (2016). Soybean response to pest attack. Soybeans: cultivation, nutritional properties and effects on health. Nova Science Publishers, New York, 35-62.

- Spagnoletti, F. N., Balestrasse, K., Lavado, R. S., & Giacometti, R. (2016). Arbuscular mycorrhiza detoxifying response against arsenic and pathogenic fungus in soybean. Ecotoxicology and Environmental Safety, 133, 47-56.

- Spagnoletti, F. N., Chiocchio, V. M., & Lavado, R. S. Mycorrhizal inoculation improves the performance of soybean subjected to biotec and abiotic stresses. Soybeans: cultivation, nutritional properties and effects on health. Nova Science Publishers, New York, 85-113.

2015

- Spagnoletti, F., Tobar, N., Chiocchio, V., & Lavado, R. S. (2015). Mycorrhizal inoculation and high arsenic concentrations in the soil increase the survival of soybean plants subjected to strong water stress. Communications in Soil Science and Plant Analysis, 46(22), 2837-2846.

- Spagnoletti, F., & Lavado, R. S. (2015). The arbuscular mycorrhiza Rhizophagus intraradices reduces the negative effects of arsenic on soybean plants. Agronomy, 5(2), 188-199.

2014

- Spagnoletti, F. N., Tobar, N. E., Chiocchio, V. M., & Lavado, R. S. (2014, May). The in-vitro and in-vivo influence of arsenic on arbuscular mycorrhizal fungi. In One century of the discovery of arsenicosis in Latin America (1914-2014) As 2014: Proceedings of the 5th international congress on arsenic in the environment, Buenos Aires, Argentina (pp. 375-377).

- Spagnoletti, F., Chiocchio, V., Hernadez, A., Carmona, M., Lavado, L., & Balestrasse, K. (2014, January). Effect of arsenic on soybean plants associated to pathogens and arbuscular mycorrhizae. In BIOCELL (Vol. 38, pp. 176-176). Fac Ciencias Med-Univ Nac Cuyo.