[HTML][HTML] Comparative transcriptome profiling of salinity-induced genes in citrus rootstocks with contrasted salt tolerance
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance
H Snoussi, H Askri, D Nacouzi, I Ouerghui… - …, 2022 - econpapers.repec.org
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
[PDF][PDF] Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance. Agriculture 2022, 12, 350
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - 2022 - researchgate.net
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance.
H Snoussi, H Askri, D Nacouzi, I Ouerghui… - Agriculture; …, 2022 - search.ebscohost.com
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - agris.fao.org
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative transcriptome profiling of salinity-induced genes in citrus rootstocks with contrasted salt tolerance.
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - 2022 - cabidigitallibrary.org
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - Agriculture, 2022 - ideas.repec.org
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance
H Snoussi, H Askri, D Nacouzi, I Ouerghui… - …, 2022 - search.proquest.com
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
[PDF][PDF] Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance. Agriculture 2022, 12, 350
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - 2022 - academia.edu
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …
[PDF][PDF] Comparative Transcriptome Profiling of Salinity-Induced Genes in Citrus Rootstocks with Contrasted Salt Tolerance. Agriculture 2022, 12, 350
H Snoussi, H Askri, D Nacouzi, I Ouerghui, A Ananga… - 2022 - academia.edu
Salinity is one of the most destructive environmental challenges for citriculture worldwide,
and all climate change scenarios are predicting an increased impact of salinity on citrus …
and all climate change scenarios are predicting an increased impact of salinity on citrus …