In-Season Root-Zone Nitrogen Management Strategies for Improving Nitrogen Use Efficiency in High-Yielding Maize Production in China

Many recently developed N management strategies have been extremely successful in improving N use efficiency. How- ever, attempts to further increase grain yields have had limited success. Field experiments were conducted in 2007 and 2008 at four sites to evaluate the effect of an in-season root-zon...

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Published inPedosphere Vol. 22; no. 3; pp. 294 - 303
Main Authors MENG, Qing-Feng, CHEN, Xin-Ping, ZHANG, Fu-Suo, CAO, Ming-Hui, CUI, Zhen-Ling, BAI, Jin-Shun, YUE, Shan-Chao, CHEN, Su-Yi, MÜLLER, T.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2012
Center for Resources, Environment and Food Security, China Agricultural University, Beijing 100193(China)%Center for Resources, Environment and Food Security, China Agricultural University, Beijing 100193(China)
Fertilization with Soil Chemistry(340i), Institute of Crop Science, Universit(a)t Hohenheim, Stuttgart 70593(Germany)%Fertilization with Soil Chemistry(340i), Institute of Crop Science, Universit(a)t Hohenheim, Stuttgart 70593(Germany)
Subjects
agronomists
apparent N recovery
China
corn
environmental pollution
farmers
fertilizer rates
field experimentation
grain yield
N losses
nitrogen
nitrogen fertilizers
nutrient use efficiency
optimal N rate
rhizosphere
soil minerals
soil N supply
Zea mays
中国
反季节
根区
氮素管理
氮肥利用效率
氮肥利用率
玉米生产
经营策略
China
apparent N recovery
N losses
optimal N rate
soil N supply
environmental pollution
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Summary:Many recently developed N management strategies have been extremely successful in improving N use efficiency. How- ever, attempts to further increase grain yields have had limited success. Field experiments were conducted in 2007 and 2008 at four sites to evaluate the effect of an in-season root-zone N management strategy on maize (Zea mays L.). According to the in-season root-zone N management, the optimal N rate (ONR) was determined by subtracting measured soil mineral N (NHa+-N and NO3-N) in the root zone from N target values. Other treatments included a control without N fertilization, 70% of ONR~ 130% of ONR, and recommended N rate (RNR) by agronomists in China that have been shown to approach maize yield potentials. Although apparent N recovery for the ONR treatment was significantly higher than that under RNR in 2007, grain yield declined from 13.3 to 11.0 Mg ha-1 because of an underestimation of N uptake. In 2008, N target values were adjusted to match crop uptake, and N fertilization rates were reduced from 450 kg N ha-1 for RNR to 225 to 265 kg N ha 1 for ONR. High maize yields were maintained at 12.6 to 13.5 Mg ha 1 which were twice the yield from typical farmers' practice. As a result, apparent N recovery increased from 29% to 66%, and estimated N losses decreased significantly for the ONR treatment compared to the RNR treatment. In conclusion, the in-season root-zone N management approach was able to achieve high yields, high NUE and low N losses.
Bibliography:32-1315/P
Many recently developed N management strategies have been extremely successful in improving N use efficiency. How- ever, attempts to further increase grain yields have had limited success. Field experiments were conducted in 2007 and 2008 at four sites to evaluate the effect of an in-season root-zone N management strategy on maize (Zea mays L.). According to the in-season root-zone N management, the optimal N rate (ONR) was determined by subtracting measured soil mineral N (NHa+-N and NO3-N) in the root zone from N target values. Other treatments included a control without N fertilization, 70% of ONR~ 130% of ONR, and recommended N rate (RNR) by agronomists in China that have been shown to approach maize yield potentials. Although apparent N recovery for the ONR treatment was significantly higher than that under RNR in 2007, grain yield declined from 13.3 to 11.0 Mg ha-1 because of an underestimation of N uptake. In 2008, N target values were adjusted to match crop uptake, and N fertilization rates were reduced from 450 kg N ha-1 for RNR to 225 to 265 kg N ha 1 for ONR. High maize yields were maintained at 12.6 to 13.5 Mg ha 1 which were twice the yield from typical farmers' practice. As a result, apparent N recovery increased from 29% to 66%, and estimated N losses decreased significantly for the ONR treatment compared to the RNR treatment. In conclusion, the in-season root-zone N management approach was able to achieve high yields, high NUE and low N losses.
apparent N recovery, environmental pollution, N losses, optimal N rate, soil N supply
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1002-0160
2210-5107
DOI:10.1016/S1002-0160(12)60016-2