Inhibition of nitrogen uptake by rice after wheat straw application determined by tracer NH4+-15N

Tanaka, Fukuyo; Nishida, Mizuhiko

doi:10.1080/00380768.1996.10416327

Cited by 9 publications

(6 citation statements)

References 2 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this case, a detrimental effect pertaining to organic acid accumulation on young rice seedlings may occur, especially when soil‐available N is low. Tanaka and Nishida (1996) reported that the reduction of N uptake in rice plants at an early growth stage was not associated with biological N immobilization, but with inhibition in N uptake, although N immobilization was enhanced by wheat straw application. However, the microbes using organic acids to form CH 4 might be more sensitive to the level of available N in the soil.…”

Section: Discussionmentioning

confidence: 99%

Organic acid accumulation under flooded soil conditions in relation to the incorporation of wheat and rice straws with different C:N ratios

Shan

Cai

Han

et al. 2008

Soil Science and Plant Nutrition

View full text Add to dashboard Cite

Crop residues are important agricultural resources and incorporating wheat straw into rice fields is becoming an alternative to open-field burning after wheat harvest in rice-wheat rotation systems. Organic acids are important soil constituents that are believed to be linked to many biological and environmental processes in the soil, including nutrient cycling, phytotoxicity, metal solubility and greenhouse gas formation. A number of studies have focused on the impact of wheat straw incorporation on organic acid accumulation under flooded soil conditions, but information on the relationship between organic acid accumulation and the properties of wheat straw, especially the C:N ratio, and the response of organic acid accumulation to N application is rare. In this study, incubation experiments were conducted to investigate the difference in organic acid (formic, acetic, propionic and butyric acids) accumulation in soil solution under flooded conditions between wheat and rice straw incorporation, and the relationship between the C:N ratio of the straw materials and organic acid accumulation. Results showed that the concentration of organic acids in the soil solution increased with the rate of straw incorporated. The overall accumulation of organic acids was higher when soil was incorporated with wheat straw than with rice straw. The concentration in soil solution decreased more with wheat straw incorporation because of its higher C:N ratio. The addition of urea-N significantly enhanced CH 4 flux and reduced the concentration of organic acids in soil solution in the wheat straw treatment, whereas CH 4 flux and the concentration of organic acids in the rice straw treatment were less sensitive to the addition of urea-N. The practical implication of the results obtained in this study to N management in rice fields is also discussed.

show abstract

Section: Discussionmentioning

confidence: 99%

Organic acid accumulation under flooded soil conditions in relation to the incorporation of wheat and rice straws with different C:N ratios

Shan

Cai

Han

et al. 2008

Soil Science and Plant Nutrition

View full text Add to dashboard Cite

show abstract

“…Though many reports related to the adverse effect of fresh organic matter application have been published (Cannell and Lynch 1984), none has directly referred to the inhibition of either N uptake or transport. Tanaka and Nishida (1996) published the first report in which the inhibition of N uptake and transport in paddy rice plants by application of fresh wheat straw to soil was described. The present findings on the effects of aromatic acids on N uptake and N transport in rice plants support the field observations.…”

Section: Resultsmentioning

confidence: 99%

“…This inhibition is mainly attributed to the deficiency of available N in soil, resulting from a large N assimilation by soil microbes in soils supplied with straw (Rao and Mikkelsen 1976). In a previous report (Tanaka and Nishida 1996), we showed that the activity of 15N uptake from 15NH 4 + introduced into the soil decreased by straw application. We found the accumulation of some aromatic acids in soils to levels inhibitory to root elongation when fresh wheat straw was applied (Tanaka 1990;Tanaka et al 1990).…”

mentioning

confidence: 98%

Inhibitory effects of aromatic acids on nitrogen uptake and transport in rice (Oryza sativaL.) plants cultured on hydroponics

Tanaka

Nishida

1998

Soil Science and Plant Nutrition

Self Cite

View full text Add to dashboard Cite

“…Huang and Broadbent (1989) reported that, when sampled at sixth-leaf stage, straw incorporation had no effect on shoot DM. Tanaka and Nishida (1996) reported that, when sampled at 16 DAT, the DM of shoots with straw incorporation decreased by 28.5%, but that the total root DM increased by 9.8% compared with the no-straw treatment. These phenomena suggest that the negative effect of straw decomposition on rice shoots or total roots was not apparent immediately after straw incorporation.…”

Section: Effects Of Straw Incorporation On Rice Growth (Shoot Dm and mentioning

confidence: 99%

“…The negative effects of straw incorporation in the early stage have been explained by N starvation (Fig. 3), toxic substances and intensely reducing conditions caused by straw decomposition (Tanaka and Nishida, 1996;Cucu et al, 2014). The variety of effects of straw incorporation at maturity are probably due to the differences in soil N availability; N fertilizer level and application method; the amount and method of straw incorporated; or the length of the growing season.…”

Section: Effects Of Straw Incorporation On Rice Growth (Shoot Dm and mentioning

confidence: 99%

Effects of straw incorporation on nitrogen absorption of split fertilizer applications and on rice growth

Cao

Yan

2019

Emir J Food Agric

View full text Add to dashboard Cite

A greenhouse experiment investigated the effect and mechanism of straw incorporation (0 and 6 t ha−1) on the absorption of fertilizer nitrogen (N) of split applications and on the growth of rice shoots and roots. N fertilizer was split into: (1) base fertilizer (BF), incorporated before transplanting; (2) tillering fertilizer (TF), broadcasted at tillering stage; and (3) panicle-formation fertilizer (PF), broadcasted at panicle-formation stage. 15N-urea was used as one of three splits. To evaluate the hypothesis that straw incorporation influences the 15N absorption of one split by enhancing 15N immobilization or changing root growth, we measured the 15N residual rate in soil at maturity and root growth throughout the rice-growing season. Straw incorporation significantly decreased 15N absorption of BF, accompanied by significantly higher 15N immobilization in soil than in the no-straw treatment. However, straw incorporation significantly increased 15N absorption of top-dressing (both TF and PF), accompanied by significantly greater dry matter and length of surface roots (0–5 cm depth) throughout the rice-growing season (top-dressing 15N was seldom found in soils > 5 cm). Shoot dry matter with straw incorporation decreased significantly in the early stage but increased in the late stage, compared with the no-straw treatment, and shoot total N with straw incorporation decreased significantly throughout the rice-growing season (this negative effect had decreased by the late stage). To better synchronize N supply with rice demand and reduce the risk of water eutrophication, N levels of BF and top-dressing should be reviewed when straw is incorporated.

show abstract

Inhibition of nitrogen uptake by rice after wheat straw application determined by tracer NH₄⁺-¹⁵N

Cited by 9 publications

References 2 publications

Organic acid accumulation under flooded soil conditions in relation to the incorporation of wheat and rice straws with different C:N ratios

Organic acid accumulation under flooded soil conditions in relation to the incorporation of wheat and rice straws with different C:N ratios

Inhibitory effects of aromatic acids on nitrogen uptake and transport in rice (Oryza sativaL.) plants cultured on hydroponics

Effects of straw incorporation on nitrogen absorption of split fertilizer applications and on rice growth

Contact Info

Product

Resources

About