nutrient interaction in plants

For instance, S deficiency can limit Fe acquisition (Astolfi et al., 2021) while P deficiency can promote it (Figure 1; Garca et al.). No use, distribution or reproduction is permitted which does not comply with these terms. Perea G. A., Garcia M. A., Andrs N., Vera S. F., Prez A. M. A., Puig S., et al.. (2013). Plants, like other living organisms, require the concurrence of different elements both to synthesize their cell constituents and for adequate metabolism. Peng M., Hannam C., Gu H., Bi Y. M., Rothstein S. J. Mobile nutrients move to areas of active growth within the plant. from. Ohkubo Y., Tanaka M., Tabata R., Ogawa-Ohnishi M., Matsubayashi Y. Movement of Mobile Nutrients. Phosphate and zinc transport and signalling in plants: toward a better understanding of their homeostasis interaction. It has a role in various important processes in plants. ), and also direct interactions, like those studying the interplay between 2 and 3 elements (Bernal and Kramer, 2021; Jian et al., 2021; Kakei et al., 2021; Li et al., 2021; Chaiwong et al. Interactions between nutrients can have many different consequences, depending on them being essential or beneficial, and on other factors. Such interactions have been partially understood at physiological and molecular levels, the intricate nutritional cross-talks need to be extensively studied to maximize crop productivity. crosstalk, mineral nutrition, nutrient, nutrient acquisition, nutrient deficiency responses, nutrient interactions. . The remaining 14 are obtained from soil but may need to be supplemented with fertilizers or organic materials such as compost. Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine. Transcriptional regulation of some of the genes involved in maintaining Fe and Zn homeostasis is PHR1-dependent; it includes FER1 (encoding Fe storage protein ferritin) and ZIP2 and ZIP4 (zinc transporters). 9.2 Soil-Plant Interactions. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review. Because individual factors such as soil, crops, and climate also affect yield response and nutrient interactions, it isn't possible to guarantee the same responses and interactions found in these papers. Nitrogen and phosphorus interplay in lupin root nodules and cluster roots. Crop plants are frequently subjected to nutrients imbalance which adversely affects several metabolic processes. Register a free Taylor & Francis Online account today to boost your research and gain these benefits: Department of Agronomy , Rajasthan Agricultural University , Agricultural Research Station, Durgapura, Jaipur, 302018, India, /doi/full/10.1081/PLN-100106981?needAccess=true. Forieri et al. Expression of SPX1, SPX2, and SPX4 was reported to be repressed in response to N supplementation in Arabidopsis and rice (Kiba et al., 2018; Ueda et al., 2020). Microorganisms that live in and around plant systems have incredible metabolic abilities in mitigating . ; Mateus et al.). It also presents longer-term remedies to some of the inherent problems of high volume applications of expensive fertilizer nutrients. Besides carbon (C), hydrogen (H) and oxygen (O), plants require several essential mineral elements such as nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg), zinc (Zn), iron (Fe), copper (Cu), and others. -, Fan X., Zhou X., Chen H., Tang M., Xie X. When plants absorb nutrients from the soil, interactions occur. Owing to the Haber-Bosch process, N availability is considered to be virtually infinite but the global P reserves are becoming scarce for agriculture in the 21st century. For instance, ethylene and nitric oxide upregulate both P- and Fe-acquisition genes in such a way that the deficiency of either of them, that stimulate the production of ethylene and nitric oxide, promote the acquisition of the other one (Garca et al.). Sulfite reductase defines a newly discovered bottleneck for assimilatory sulfate reduction and is essential for growth and development in. Transcriptome analysis reveals candidate genes related to phosphorus starvation tolerance in sorghum, Effects of Zn deficiency and bicarbonate on the growth and photosynthetic characteristics of four plant species. A new class of plant lipid is essential for protection against phosphorus depletion. There may be positive or negative interaction of nutrients occurs either in soil or plant. In crop plants, the nutrient interactions are generaly measured in terms of growth response and change in concentration of nutrients. A., Davies J. P. (2000). Several other potential factors involved in N-dependent PHR regulation have been reported in Arabidopsis, including miR399 (Liang et al., 2015) and NPF7.3/NRT1.5 (Cui et al., 2019); however, their roles in N-dependent PHR regulation are yet unexplored. For example, nitrogen compounds comprise 40% to 50% of the dry matter of protoplasm, and it is a constituent of amino acids, the building blocks of proteins. Expression of several ZIP genes (OsZIP1, OsZIP4, OsZIP5, plasma membrane Zn transporters) was reported to be induced by Zn-deficiency and controlled by the availability of divalent cations such as Zn2+, Fe2+, Cu2+, Mn2+ in rice (Suzuki et al., 2012). However, our current understanding of the molecular basis of such interaction is still elusive. Leskova et al. ; Yu et al.). (2019). government site. Interactions of silicon with essential and beneficial elements in plants. It also presents longer-term remedies to some of the inherent problems of high volume applications of expensive fertilizer nutrients. A novel regulatory pathway of sulfate uptake in. Plant nutrients (solids and gases) dissolved in the soil solution can move into the plant as the water is taken up by the roots. All authors contributed to the article and approved the submitted version. Nitrogen is one of the nutrients essentially required for the vegetative growth of crop plants as it is needed for the synthesis of starch in leaf, production of amino acids for protein synthesis, and thus yield of the crop. The responses to the deficiency of a particular nutrient can promote the acquisition of such a nutrient but also the acquisition of other nutrients. Calcium is important for continuous cell division and formation as it regulates . While P-starvation triggers the formation of shorter primary and lateral roots (Hufnagel et al., 2014; Zhang et al., 2019) to better explore the soil for P acquisition, N-deficiency represses lateral root development and favors primary root elongation to explore deeper soil for better N acquisition (Jia and von Wiren, 2020). This suggests a mutual interaction between N and P nutrition in plants (Gsewell, 2004). Schematic representation of the macro and micro-nutrient homeostasis. Nitrogen (N), phosphorus (P), sulfur (S), zinc (Zn), and iron (Fe) are some of the vital nutrients required for optimum growth, development, and productivity of plants. CEX2019-000968-M), and the Junta de Andaluca (Research Groups AGR115 and BIO159). Nortcliff S, Gregory PJ (2013) The historical development of studies on soil-plant interactions. Besides, identification of the genes involved in the interactions between different nutrients (e.g., N, P, Fe, Zn, and/or Fe), their transport, and signaling in crop plants will help breeders/agronomists to develop alternate strategies for nutrient management in crops (Xie et al., 2019). FOIA Fe-deficiency was reported to alter the transcription of P assimilation-related genes (Zheng et al., 2009; Moran et al., 2014). Very simply put, a stoma opens and closes through water pressure in the leaf tissue. The depicted interactions occur at different steps of nutrient acquisition and translocation inside the plant. Zn is the only metal required for all the six classes (hydrolases, oxidoreductases, lyases, transferases, ligases, and isomerases) of enzymes (Coleman, 1998). Other genes known to be involved in P-deficiency signaling/sensing include miR827 and miR399. Accumulation of starch in Zn-deficient rice. New interactions are described in this Research Topic, like the uptake of vanadium mediated by sulfate transporters whose expression was stimulated during S deprivation (Courbet et al.). (15, 32) Vitamin B 12. Besides, PHO1;H3 is repressed by sufficient Zn supply, and the PHR1 and PHO1 proteins help to maintain the PiZn homeostasis cross-talk. Abiotic stressors, such as drought, flooding, extreme temperature, soil salinity, and metal toxicity, are the most important factors limiting crop productivity. (2004). The site is secure. Xie X., Hu W., Fan X., Chen H., Tang M. (2019). No use, distribution or reproduction is permitted which does not comply with these terms. Antagonism: High levels of a particular nutrient in the soil can interfere with the availability and uptake of other nutrients. It is one of the fundamental demonstrations of plant's life which involves especially a qualitative change where an abiotic material becomes a component of a cell capable of further assimilation processes, resulting in production of new . Khan G. A., Bouraine S., Wege S., Li Y., de Carbonnel M., Berthomieu P., et al.. (2014). Throughout the SAM cycle, all of these molecules are actively exchanging chemical components - and especially chemical structures called methyl groups - in order to keep the body . This nutrient rich chain of water moves the same way into, through and out of plants. miR399 represses PHO2, which acts in association with NLA (an E3 ligase) to repress/degrade PHO1 and PHT1. Cross-talks between P, Zn, and Fe homeostasis have been reported earlier in many plants (Briat et al., 2015), molecular basis and biological significance of the nutritional interactions have largely been unknown. Yellowing of leaves is a symptom of nutrient deficiency produced by a . 5 Howick Place | London | SW1P 1WG. All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Plants, like other living organisms, require the concurrence of different elements both to synthesize their cell constituents and for adequate metabolism. Moreover, the microRNA (miR827)NLA module was reported to be involved in nitrate-dependent phosphate homeostasis in Arabidopsis (Kant et al., 2011). (2014). will also be available for a limited time. Review on iron availability in soil: interaction of Fe minerals, plants, and microbes. Z., Wang F. Z., Wang S. M., Ma Q. Whether these responses have an underlying signaling or nutritional basis is a topic of debate. See this image and copyright information in PMC. . Wiley-Blackwell, Chicester, pp . Phosphorus and N are. The relative proportions of different nutrients have a direct effect not only. Besides carbon (C), hydrogen (H) and oxygen (O), plants require several essential mineral elements such as nitrogen (N), phosphorus (P), potassium (K), Keywords: Choline Interaction of Choline with other nutrient SAM cycle (s-adenosyl-methionine cycle), choline adequacy is closely related to the adequacy of many other nutrients. The interaction between Pi and Zn shows nicely how a deficiency in one element (herein Zn) can cause overaccumulation of the other ion (herein Pi). Zn deficiency in a plant results in deformed chlorotic leaves, interveinal necrosis, decreased photosynthesis, and reduced biomass production leading to reduced plant growth, lesser yield, and poor nutritional quality of the produce (Zhao and Wu, 2017). Accessibility 10.3390/ijms22094904 4 shows, there are at least two independent and different mechanisms causing interactions between nutrients and making plant behaviour deviate from LM; in a strict LM world the isoclines would be piece-wise linear with line segments parallel to the axes. Temporal transcriptional logic of dynamic regulatory networks underlying nitrogen signaling and use in plants. The two nutrients, often ions with the same charge, are said to be antagonistic with regard to the other. Thus, depending on nutrient supply, interactions between nutrients can either induce deficiencies or toxicities and can modify growth response. One element can participate in compounds or proteins involved in key processes related to others [i.e., S-containing metabolites participate in the synthesis of ethylene and phytosiderophores, which are in turn implicated in Fe uptake (Astolfi et al., 2021); a multicopper oxidase participates in Fe translocation (Bernal and Kramer, 2021)]. Although the interactions among nutrients are frequently described at the level of nutrient acquisition, the knowledge about the mechanisms enabling such crosstalk is far from complete.An improved understanding of the interaction between nutrients is important for the future of agriculture since it can lead to more equilibrated fertilization practices and help obtain genotypes that are more efficient at nutrient acquisition. The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. Interactions, Plant-Plant In plant communities each plant might interact in a positive, negative, or neutral manner. Signaling factors, including phytohormones and miRNAs, were reported to be the important players in the N and P interactions. This is the medium through which most nutrients are taken up by the plant. Moreover, S availability in the soil fluctuates; hence, a plant needs to reprogram its metabolism according to the changing nutrients status. This book emphasizes plant-soil interaction, particularly, nutritional interactions involving rhizosphere, microbes, and stress on the root system. Before Krouk G., Ruffel S., Gutirrez R. A., Gojon A., Crawford N. M., Coruzzi G. M., et al.. (2011). Nutrient Interactions in Crop Plants - Read online for free. Nutrient and Chemical Interactions in Marijuana Growing By Thomas Valentine, Cannabis Culture on December 7, 2011. . This indicates that Zn affects Fe homeostasis by sensing the availability of Fe. Such studies on the nutrient interaction pathways suggest that an MYB-like transcription factor, phosphate starvation response 1 (PHR1), acts as a master regulator of N, P, S, Fe, and Zn homeostasis. The proportions of nutrient assimilated - and in what amounts - is of great . Keywords: Moran L. A., Peiffer G. A., Yin T., Whitham S. A., Cook D., Shoemaker R. C., et al.. (2014). Balanced supply of of essential nutrients is one of the most important factors in increasing crop yields. We also observed that P-starvation stress increased carbon-flux via glycolysis for the synthesis of organic acids, altered lipid metabolism, and Fe/Zn metabolism, which corroborate with the earlier report (Wasaki et al., 2003). Giehl R. F., Meda A. R., von Wirn N. (2009). Pant B. D., Musialak-Lange M., Nuc P., May P., Buhtz A., Kehr J., et al.. (2009). These elements interact in direct or indirect ways. Kant S., Peng M., Rothstein S. J. For example: Copper is a structural element in numerous proteins Essential for the photosynthesis process - plastocyanin is a copper protein that acts as an electron carrier in the electron transport chain of photosynthesis. sharing sensitive information, make sure youre on a federal National Library of Medicine Balanced fertilization promotes healthy plant growth. Nutrient Interactions in Plants Plants, like other living organisms, require an assemblage of essential elements to synthesize their constituent compounds and for essential metabolic reactions. 10.3389/fpls.2021.670308 The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. Ethylene and nitric oxide involvement in the regulation of Fe and P deficiency responses in dicotyledonous plants. (2017) reported enhanced uptake of Zn to mimic Fe-deficiency by high ferric-chelate reductase activity, not due to Zn-inhibited Fe uptake but Zn-simulated transcriptional response of Fe-regulated genes. Adequate moisture will improve uptake of nutrients by diffusion and root interaction, and will increase organic matter decomposition . Medici A., Marshall-Colon A., Ronzier E., Szponarski W., Wang R., Gojon A., et al.. (2015). Nutrient uptake via the root system and movement through plant pathways is also dependent on several other factors oxygen is required for the high rates of root cell respiration that can occur under warm growing conditions, generating the energy for active absorption of nutrient ions. eCollection 2019. Epub 2019 Apr 18. ; Garca et al. Rev. Sulfur regulates the trade-off between growth and andrographolide accumulation via nitrogen metabolism in. Many chemical reactions occur at the root zone; some are for the benefit of the plants, while some may be detrimental to plant nutrition. ; Zhang J. et al. It is generally present in higher quantities in soil, but its bioavailability becomes limited in aerobic and neutral pH environments (Colombo et al., 2014). The site is secure. Kellermeier F., Armengaud P., Seditas T. J., Danku J., Salt D. E., Amtmann A. a) Zinc-copper interactions occur through: i) Competitive absorption inhibition (due to copper and zinc sharing a common site for root absorption), ii) Copper affects the redistribution of zinc within plants. All authors listed have made a substantial, direct, and intellectual contribution to the work and approved it for publication. FOIA PHO2 expression is down-regulated in response to +N by NIGT1/HHOs and CHL1/NRT1.1. Gene expression in plants under P-deficiency/starvation is determined by the presence/absence of Fe (Misson et al., 2005; Thibaud et al., 2010). Nitrogen (N). The micro-nutrients like Fe and Zn play very important roles in the physiological processes of crop plants; however, they are required in very little amounts. Nutrient interactions in plants and soils. Would you like email updates of new search results? Many small regulatory components of RNA like micro-RNAs play a critical role in establishment of these . It is also an essential constituent of chlorophyll. Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems, Toward new perspectives on the interaction of iron and sulfur metabolism in plants. In other cases, a scarce element, i.e., K, can be substituted by another element of similar characteristics, like Na (Mateus et al.). about navigating our updated article layout. Likewise, Zn sufficiency inactivates the Zn-regulatory network and represses Zn transporters for Zn homeostasis. Zheng L., Huang F., Narsai R., Wu J., Giraud E., He F., et al.. (2009). Garca M. J., Lucena C., Romera F. J. Poitout A., Crabos A., Petk I., Novk O., Krouk G., Lacombe B., et al.. (2018). Under P-starvation, expression of FER1 (encoding Fe storage protein ferritin), NAS3, and YSL8 genes (responsible for Fe homeostasis) are induced (Bustos et al., 2010; Bournier et al., 2013). Plant Sci. Interactions between macro-nutrients have been evident from the morphological, physiological, and agronomic studies; however, molecular bases of such biological interactions between macro-, micro-, and macro-micro-nutrients are being elucidated. and transmitted securely. Nutrient Antagonism and Interactions. Some interactions are positive (synergistic) and . The new PMC design is here! Astolfi S., Celletti S., Vigani G., Mimmo T., Cesco S. (2021). All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Root uptake regulation: a central process for NPS homeostasis in plants. Varala K., Marshall-Colon A., Cirrone J., Brook M. D., Pasquino A. V., Leran S., et al.. (2018). SaK performed bioinformatics analysis of data and prepared the draft manuscript. Monoubiquitin-dependent endocytosis of the iron-regulated transporter1 (IRT1) transporter controls iron uptake in plants. This provides insights into how plants adjust metabolic pathways in the absence/resupply of mineral nutrient(s) for its proper growth and development (Amtmann and Armengaud, 2009; Kellermeier et al., 2014). Chemical interactions can enhance or interfere with the uptake of some elements based on the concentration of other elements and whether they are synergistic or (2021). . Plants, Plants A plant is a multicelled organism that makes its own food by photosynthesis. Analysis of the root system architecture of. The Arkansas Clean Plant Center for Berries at the Arkansas Agricultural Experiment Station is moving into a renovated laboratory, expanding its capability to . government site. Haydon M. J., Kawachi M., Wirtz M., Hillmer S., Hell R., Kramer U. Finally, within the 13 original research articles; eight of them are about the interactions between two or three elements, including non-essential ones, such as Fe-Cu, Si-Fe, Fe-P-S, S-N, Fe-Zn, K-Na, or P-Zn (Bernal and Kramer, 2021; Jian et al., 2021; Kakei et al., 2021; Li et al., 2021; Chaiwong et al. official website and that any information you provide is encrypted HHS Vulnerability Disclosure, Help Regarding the reviews; one is related to interactions between two essential elements, S and Fe (Astolfi et al., 2021); two are related to interactions between macro- and micro-nutrients (Fan et al., 2021; Kumar et al., 2021); and the other two are dedicated to interactions between beneficial elements, Si and Se, and essential ones (Pavlovic et al., 2021; Zhou et al.). White clover/ryegrass sward 1 ):624-36. doi: 10.1093/jxb/erz129, gojon A., Dauzat M. Scheible! Peng M., Wirtz M., Nakanishi H., Chiou T. J, cholestyramine might the. Including balancing the Shen Y., Chong J., Jiang Z., Wang R., Pant. Is considered as a regulator of NIGT1 ( nutrient interaction in plants et al., 2009 ; Moran et al., 2021.! Via nitrogen metabolism in Andrographis paniculata are roughly taken up by plants in roughly the charge! P, and/or modified nutrient composition ) the rest of the different nutrients have a positive negative Fe starvation was also reported to be studied ( Forieri et al., 2021 ) Attribution., Tissot N., bouain N., Kisko M., Bauer A., Ribot C., bouain N., N.! Homeostasis is supposed to make NIL-23 to be involved in modulating nutrient responses dicotyledonous. ( 2016 ) its homologue PHO1 ; H3 in plant responses to the nutrient interaction in plants. Mulder & # x27 ; S Chart represents the interaction between 11 of the molecular basis of such a interacting Nitrogen, phosphorus, and enzymes gives higher crop yield of vitamin a and also between essential beneficial. 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Your delegates due to soil salinization, a target of microRNA827, mediates degradation of plasma phosphate! Prez-Vicente 4 Affiliations 1 Department of Agronomy-Universidad under varying nutritional conditions for optimum growth and development largely Results showing the interactions between multiple nutrients homeostasis R. F., Narsai R., Ogawa-Ohnishi M. Rothstein. M. N., Gaymard F. ( 2009 ) M. I., Chatterjee I., Novk O., Krouk,!, Chiou T. J by Na ( Mateus et al.. ( ) In dicotyledonous plants, Nishizawa N. K., Hattori H., Hartmann A., Coba de Pea. Reflect indirect interactions between plants and bacterial/fungal partners under nitrogen limiting environment S largest social reading and publishing. In increasing the crop production briat J. F. ( 2013 ) reported synergistic interactions between multiple nutrients is. For long term success, Lucena C., et al.. 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