Nitrogen Fertilization Increases Root Growth and Coordinates the Root–Shoot Relationship in Cotton

Chen, Jing; Liu, Liantao; Wang, Zhanbiao; Zhang, Yongjiang; Sun, Huimin; Song, Shijia; Bai, Zhiying; Lu, Zhanyuan; Li, Cundong

doi:10.3389/fpls.2020.00880

Cited by 61 publications

(35 citation statements)

References 50 publications

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“…This phenomenon is consistent with the regularity described in the literature, according to which, as the doses of some nutrients, e.g. nitrogen (present as NH 4 + in the Z-ion substrate) are increased, the above-ground biomass of plants increases as well, while the root mass may not, and sometimes it even decreases [Chen et al 2017, Chen et al 2020].…”

Section: Resultssupporting

confidence: 90%

The Application of Z-Ion Substrate to Support Energy Crop Growth (<i>Dactylis Glomerata</i> L.) on Degraded Soil

Chomczyńska¹

2021

J. Ecol. Eng.

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Investigations concerned the effect of raising the dose of new Z-ion zeolite substrate on cocksfoot (Dactylis glomerata L.) growth. During the pot experiment, plants were grown on degraded soil, arable soil and mixtures of degraded soil with increasing Z-ion substrate additions (1%, 2%, 5%, 10% v/v). When the experiment was terminated, the mean values of the vegetative parameters of test species were calculated. The carbon to nitrogen ratio for cocksfoot stem biomass was determined. The enzyme diversity of the degraded soil enriched with substrate additions after cocksfoot growth (Shannon's diversity index) was also evaluated. The application of Z-ion additions positively influenced the cocksfoot growth -the additions in the range of 1-10% v/v to degraded soil significantly increased wet and dry stem biomass, dry root biomass and total dry biomass of plants. It turned out that the Z-ion substrate addition not exceeding 1% v/v can be considered as one which -after introducing into a specific degraded soil -would give similar biomass yield of cocksfoot to that obtained on the selected arable soil. At 1% substrate dose, the carbon/nitrogen ratio in the plant material (27.17) was within the range of values ensuring the proper methane fermentation course. The preliminary studies have shown that a significant increase in enzyme diversity can be observed when there is a certain degree of root development caused by a sufficiently high addition of Z-ion substrate to the degraded soil -under experimental conditions it was 5% v/v Z-ion dose.

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Section: Resultssupporting

confidence: 90%

The Application of Z-Ion Substrate to Support Energy Crop Growth (<i>Dactylis Glomerata</i> L.) on Degraded Soil

Chomczyńska¹

2021

J. Ecol. Eng.

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“…Similarly, the reduction of root growth measured in plants grown with NPK addition might be related to the high application rate, which led to a large quantity of urea-based fertilizer considered phytotoxic (Chen et al, 2020). Also, high N fertilizer application rates to such an early growth stage of seedlings, may induce a growth priority to the aboveground structure, thereby repressing root growth without affecting shoot biomass (Dong et al, 2008;Rogato et al, 2010;Zhang et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Root Biomass Distribution of Populus sibirica and Ulmus pumila Afforestation Stands Is Affected by Watering Regimes and Fertilization in the Mongolian Semi-arid Steppe

et al. 2021

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Desertification of the semi-arid steppe of Mongolia is advancing very rapidly, motivating afforestation efforts. The “Green Belt” joint project (Government of Mongolia and Republic of Korea), which aims to mitigate soil degradation and develop agroforestry activities through the planting of a forest shelterbelt, is one such response. In these plantations, tree growth has been supported by different watering regimes (no watering, 2, 4, and 8 L h−1) and by two types of soil fertilization (NPK and Compost). The present paper analyses the effect of these techniques on soil chemistry and root biomass partitioning of Populus sibirica (Horth ex Tausch) and Ulmus pumila (L.) tree species. In July 2019, at the plantation site in Lun Soum, Tuv province (Mongolia), six trees were excavated by hand in each treatment, the root system was divided into taproot and five diameter classes (0–2; 2–5; 5–10; 10–20; > 20 mm), and the biomass was measured. Soil organic matter, macronutrients, and pH were also measured. The addition of fertilizers in the long-term did not enhance the soil chemical properties. The build-up of root biomass in both species correlated positively with increasing levels of the watering, while the application of fertilizers led to root growth suppression. For most of the root classes and both species, an irrigation level of 4 L h−1 was sufficient to yield the highest biomass and could be recommended for afforesting the semi-arid steppe of Mongolia. The root biomass of P. sibirica was more dependent on the watering regimes and of U. pumila was more negatively influenced by the application of fertilizers, indicating that U. pumila, due to the its lower water need, could be suitable for afforesting semi-arid environments. Our experiments suggest that afforestation practices in the semi-arid steppe of Mongolia should be supported by a prior analysis of plants' needs, soil type, dose, and type of fertilizers to be applied. Knowledge of the root response to the supporting techniques is necessary for choosing the best one for the plantation and, thus, to develop a sustainable and successful strategy to restore these degraded lands.

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“…However, the same authors mention that this effect was generated only by some nitrogenous sources, such as potassium nitrate (KNO 3 ), which negatively affects the diameter of lesions but not the severity. Also, applications of different forms of N, such as ammonia (NO 3 ) and ammonium (NH 4 ), can act biochemically, physiologically, and molecularly in a different way in plants against pathogens (Sun et al, 2020). In this way, it can be inferred that both some external factor and an effect at the cellular level of each fertilizer in cotton plants may have in uenced the behavior observed in our work.…”

Section: Discussionmentioning

confidence: 62%

“…However, the r for RLS incidence was only lower in plants fertilized with urea, compared to the rest of the nitrogen sources. Although the increase or reduction of disease due to nitrogen fertilization (NH 4 , NO 3, or another source), forms of N can act biochemically, physiologically, and molecularly in a differentiated way in plants (Sun et al 2020). However, this may vary in other species.…”

Section: Discussionmentioning

confidence: 99%

Ramularia leaf spot and Boll rot are affected differently by organic and inorganic nitrogen fertilization in cotton plants

Palma-Zambrano

Gavilanes

Portalanza

et al. 2021

Preprint

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Background: In this work, the interaction among nitrogen fertilization using bovine manure, poultry manure, Jatropha curcas seed cake and urea, and the diseases Ramularia leaf spot (RLS) and Boll rot (BR), caused by Ramulariopsis pseudoglycines and Diplodia gossypina, respectively, on cotton plants (Gossypium hirsutum L.), was studied under field conditions. The intensity (incidence and severity in percentage) of RLS and the incidence (%) of BR were evaluated six times, starting in the reproductive stage B1 (first visible flower bud). A randomized complete block experimental design with a 4x4 factorial arrangement (fertilizers x dose), totaling 16 treatments were used. The disease progress was analyzed with the nonlinear Logistic and Gomperts models, obtaining the initial disease's epidemiological parameters (Y0) and progress rate (r). Results: Cotton plants fertilized with 100 kg N ha-1 of J. curcas seed cake and poultry manure with 100 and 200 kg N ha-1 showed an incidence between 16 and 21% of RLS. In contrast, plants fertilized with bovine manure presented the highest incidence of ramularia leaf spot (33%). Regarding factor B (dose), cotton plants fertilized with 50 kg N ha-1, showed a higher percentage of BR incidence, being different from those fertilized with the other doses. In the analysis of the interaction corresponding to the BR incidence, no response pattern was found in the doses for each fertilizer. No correlation was observed between the three health variables analyzed, finding probabilities between 0.002 and 0.892. In the temporal progress of RLS incidence, it was shown that fertilization with J. curcas seedcake and poultry manure was lower than the rest. In severity, the plants were fertilized by J. curcas seedcake concerning the rest. The progression curve of RLS severity temporarily increased similarly, observing that plants fertilized with higher doses reached a lower final proportion of the disease.Regarding the modeling of epidemics using the nonlinear Logistic and Gompertz models, the first model better represented the RLS, except for factor B, where none of the curves was significant. In the Logistic model, a lower amount of initial disease was found (Y0) of RLS, both in incidence (0.259) as in severity (0.081), in plants fertilized with J. curcas seed cake and poultry manure, compared to the rest. For the case of BR incidence, none of the nonlinear models used could be represented.Conclusions: Plants fertilized with 50 kg N ha-1, presented an incidence twice higher than those obtained with other fertilizers. The Logistic model better fits RLS, but no model was adapted to BR. Only the RLS epidemiological parameters were affected differently in this experiment compared to BR disease.

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Nitrogen Fertilization Increases Root Growth and Coordinates the Root–Shoot Relationship in Cotton

Cited by 61 publications

References 50 publications

The Application of Z-Ion Substrate to Support Energy Crop Growth (<i>Dactylis Glomerata</i> L.) on Degraded Soil

The Application of Z-Ion Substrate to Support Energy Crop Growth (<i>Dactylis Glomerata</i> L.) on Degraded Soil

Root Biomass Distribution of Populus sibirica and Ulmus pumila Afforestation Stands Is Affected by Watering Regimes and Fertilization in the Mongolian Semi-arid Steppe

Ramularia leaf spot and Boll rot are affected differently by organic and inorganic nitrogen fertilization in cotton plants

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