Amit Sagervanshi
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View article: Nitrogen rate drives the effectiveness of 3,4-Dimethylpyrazole phosphate (DMPP) in reducing N2O emissions from limed soil subjected to temporary waterlogging
Nitrogen rate drives the effectiveness of 3,4-Dimethylpyrazole phosphate (DMPP) in reducing N2O emissions from limed soil subjected to temporary waterlogging Open
View article: Transcriptome Analysis Unravels Diverse Response Mechanisms of Nodules to Phytic Acid Supply in Vicia faba
Transcriptome Analysis Unravels Diverse Response Mechanisms of Nodules to Phytic Acid Supply in Vicia faba Open
Faba bean (Vicia faba L.) is an essential crop that contributes enormously to nitrogen (N) input due to its ability to fix atmospheric nitrogen via symbiotic N fixation (SNF). During this process, the symbionts undergo cascades of gene exp…
View article: The magnesium-specific uptake and translocation transporters ZmMGT10 and MGR6 are upregulated not only by magnesium deficiency but also by high potassium concentrations in maize
The magnesium-specific uptake and translocation transporters ZmMGT10 and MGR6 are upregulated not only by magnesium deficiency but also by high potassium concentrations in maize Open
The antagonism between potassium (K+) and magnesium (Mg2+) is the primary cause of Mg2+ deficiency worldwide. Recent studies have demonstrated that the suppressive effect of K+ on Mg2+…
View article: Transcriptional and physiological analyses uncover the mineralization and uptake mechanisms of phytic acid in symbiotically grown Vicia faba plants
Transcriptional and physiological analyses uncover the mineralization and uptake mechanisms of phytic acid in symbiotically grown Vicia faba plants Open
Legume-rhizobia symbiosis requires high phosphorus (P) in the form of ATP to convert atmospheric nitrogen (N) into ammonia. The fixed ammonia is converted to NH4+ by H+-ATPase via protonation. To the best o…
View article: pH Stabilized NH4+-Fed Nutrition Promotes Higher B Uptake and Plant Growth in Rapeseed (Brassica napus L.) by the Upregulation of B Transporters
pH Stabilized NH4+-Fed Nutrition Promotes Higher B Uptake and Plant Growth in Rapeseed (Brassica napus L.) by the Upregulation of B Transporters Open
Rapeseed ( Brassica napus L.) is a major oilseed crop with high boron (B) requirements. In hydroponic cultivation, B uptake is highly responsive to the media conditions (e.g., pH). Different N sources, such as NH 4 + and NO 3 − , directly …
View article: High soil moisture rather than drying-rewetting cycles reduces the effectiveness of nitrification inhibitors in mitigating N2O emissions
High soil moisture rather than drying-rewetting cycles reduces the effectiveness of nitrification inhibitors in mitigating N2O emissions Open
Climate change has been intensifying soil drying and rewetting cycles, which can alter the soil microbiome structure and activity. Here we hypothesized that a soil drying-rewetting cycle enhances biodegradation and, hence, decreases the ef…
View article: A method to experimentally clamp leaf water content to defined values to assess its effects on apoplastic pH
A method to experimentally clamp leaf water content to defined values to assess its effects on apoplastic pH Open
View article: A method to experimentally clamp leaf water content to defined values to assess its effects on apoplastic pH
A method to experimentally clamp leaf water content to defined values to assess its effects on apoplastic pH Open
Background Leaf hydration is controlled by feedback mechanisms, e.g. stomatal responses, adjustments of osmotic potential and hydraulic conductivity. Leaf water content thus is an input into related feedback-loops controlling the balance o…
View article: One-Time Foliar Application and Continuous Resupply via Roots Equally Improved the Growth and Physiological Response of B-Deficient Oilseed Rape
One-Time Foliar Application and Continuous Resupply via Roots Equally Improved the Growth and Physiological Response of B-Deficient Oilseed Rape Open
Oilseed rape (Brassica napus L.) is a high-boron (B)-demanding crop, and initially, normal growing plants might show B deficiency at advanced growth stages on soils with marginal B availability. Hence, we compared the effects of B resupply…
View article: One‐time abscisic acid priming induces long‐term salinity resistance in <i>Vicia faba</i>: Changes in key transcripts, metabolites, and ionic relations
One‐time abscisic acid priming induces long‐term salinity resistance in <i>Vicia faba</i>: Changes in key transcripts, metabolites, and ionic relations Open
Abscisic acid (ABA) priming is known to enhance plant growth and survival under salinity. However, the mechanisms mediating this long‐term acclimatization to salt stress are still obscure. Specifically, the long‐term transcriptional change…