安建刚^**, 敬夫^**, 丁祎^**, 肖怡^**, 尚浩浩^**, 李宏利^**, 杨晓璐^**, 唐道彬^**, 王季春^,*西南大学农学与生物科技学院, 重庆400716

Effects of Split Application of Nitrogen Fertilizer on Yield, Quality and Nitrogen Use Efficiency of Sweet Potato

AN Jian-Gang^**, JING Fu^**, DING Yi^**, XIAO Yi^**, SHANG Hao-Hao^**, LI Hong-Li^**, YANG Xiao-Lu^**, TANG Dao-Bin^**, WANG Ji-Chun^,*College of Agronomy and Biotechnology, Southwest University, Chongqing 400716, China

通讯作者: * 通信作者(Corresponding author): 王季春, E-mail: wchun1963@163.com

第一联系人: ^** 同等贡献(Contributed equally to this work)安建刚, E-mail: 1406771446@qq.com
收稿日期:2018-03-4接受日期:2018-07-20网络出版日期:2018-07-30

基金资助:

本研究由“十三五”重庆市薯类主题专项重大项目资助.CSTC2015shms-ztzx80002 本研究由“十三五”重庆市薯类主题专项重大项目资助.CSTC2015shms-ztzx80003 本研究由“十三五”重庆市薯类主题专项重大项目资助.CSTC2015shms-ztzx80004

Received:2018-03-4Accepted:2018-07-20Online:2018-07-30

Fund supported:

This study was supported by the “13th Five-Year” Potato Theme Project of Chongqing .CSTC2015shms-ztzx80002 This study was supported by the “13th Five-Year” Potato Theme Project of Chongqing.CSTC2015shms-ztzx80003 This study was supported by the “13th Five-Year” Potato Theme Project of Chongqing.CSTC2015shms-ztzx80004

摘要
为了探寻套作甘薯高产优质的氮肥运筹方式, 以甘薯套作及单作为主区, 定量氮肥全部基施、分2期和分3期运筹为副区, 于2015—2016两年度探讨了不同处理对2个甘薯品种(渝紫7号和万薯10号)块根产量、品质及氮肥利用效率的影响。结果表明, 2个品种无论单作或套作, 定量氮肥分2期或分3期运筹显著提高甘薯块根产量、单薯重、可溶性蛋白含量、可溶性糖含量、氮肥表观利用率和氮肥偏生产力; 套作中定量氮肥不同运筹方式对2个甘薯品种商品薯率影响不显著, 但单作中分3期运筹时最高; 万薯10号块根β-胡萝卜素含量以定量氮肥分3期运筹最高, 渝紫7号块根花青素含量以分2期和3期运筹最高, 2个品种块根淀粉含量以氮肥全部基施最高。套作降低了除甘薯块根可溶性糖含量外的其他营养品质以及产量和氮肥利用效率, 但套作定量氮肥分2期或3期运筹, 可使这些指标达到或优于单作氮肥全部基施水平。为提高块根淀粉含量, 定量的氮肥宜采用全部基施, 为同时优化其他营养品质、提高甘薯产量和氮肥利用效率, 定量的氮肥宜采用分2期或分3期运筹。
关键词： 套作甘薯;氮肥分期运筹;产量;营养品质;氮素利用效率

Abstract
To explore the optimal split nitrogen fertilizer application methods for high yield and quality sweet potato production in intercropping, we conducted a field experiment using two sweet potato cultivars Yuzi 7 and Wanshu 10 with single N application, 2-split and 3-split N application, and measured the yield, quality, and nitrogen use efficiency in monocropping and interplanting in 2015-2016. The yield, single storage root weight, soluble protein content, soluble sugar content of storage root, apparent nitrogen use efficiency and partial nitrogen productivity were significantly increased in the two tested cultivars under 2-split and 3-split N application in monocropping and interplanting. Under interplanting, commodity rate was not significantly different in the two cultivars among the three N application treatments, however, the highest commodity rate was obtained under 3-split N application in monocropping. The highest content of β-carotene in the storage root was obtained when 3-split N application was used in Wanshu 10, and the highest content of anthocyanin in the storage root was obtained when 2-split N application was used in Yuzi 7, but the highest starch content of storage root was obtained when non-split N application was used in the two cultivars. All of the quality traits except soluble protein content of storage root, and yield and nitrogen use efficiency reduced in intercropping, but these traits were equal or better in 2 or 3-split N application when compared to those in monocropping. In conclusion, non-split N application could be used to increase the starch content of storage root, and 2 or 3-split N application could be used to increase other quality traits, yield and nitrogen efficiency of sweet potato.
Keywords：sweet potato-maize interplanting;split application of nitrogen fertilizer;yield;quality;nitrogen use efficiency


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本文引用格式
安建刚, 敬夫, 丁祎, 肖怡, 尚浩浩, 李宏利, 杨晓璐, 唐道彬, 王季春. 氮肥分期运筹对套作甘薯产量、品质及氮素效率的影响[J]. 作物学报, 2018, 44(12): 1858-1866. doi:10.3724/SP.J.1006.2018.01858
AN Jian-Gang, JING Fu, DING Yi, XIAO Yi, SHANG Hao-Hao, LI Hong-Li, YANG Xiao-Lu, TANG Dao-Bin, WANG Ji-Chun. Effects of Split Application of Nitrogen Fertilizer on Yield, Quality and Nitrogen Use Efficiency of Sweet Potato[J]. Acta Agronomica Sinica, 2018, 44(12): 1858-1866. doi:10.3724/SP.J.1006.2018.01858


我国西南地区耕地以丘陵山地为主, 人均耕地较少, 光热水资源丰富, 多熟套作能够充分利用光、热、水、养分、土地资源^[1], 有效缓解作物间季节矛盾, 充分增加单位土地面积的农作物生产种类及产值^[2], 是我国西南地区主要种植制度, 以玉米/甘薯套作面积最大。

相比单作, 玉米/甘薯套作系统中存在强烈的种间竞争现象, 玉米始终占据套作系统的优势生态位^[3], 空间低位作物甘薯生长和产量受到严重限制, 是这种套作系统中无法避免的问题。有研究表明, 相关套作系统中通过调节氮肥施用量可以缓解小麦^[4]、大豆^[5]、马铃薯^[6]等低位作物产量受限的问题。

作物在不同阶段对养分的需求情况不一, 氮肥全部基施往往导致氮素利用率低^[7], 甚至减产^[8]。合理的氮肥运筹在提高作物产量、氮肥利用率及改善作物品质等方面已有诸多有益探索。苏伟等^[9]通过盆栽试验模拟不同时期和比例的氮肥运筹对油菜产量、氮肥利用率及氮素淋失的影响, 发现氮肥分期施用提高了油菜籽的产量、氮肥的利用效率和较好的环境效应。陈源等^[10]以定量氮肥分别设置2个棉花品种基肥、花铃肥、桃肥的比例试验, 发现吸N量为208.5~243.0 kg hm^-2, 科棉1号和科棉4号3个时期的氮肥施用比例分别为20:60:20和15:70:15, 且促花肥为30%时, 有利于大铃的形成和纤维品质的优化, 桃肥施用量为15%~20%时有利于秋桃的形成。氮肥按2:1基追比分别于种植前基施和在块茎膨大前追施可有效提高马铃薯块茎中养分分配比例, 提高马铃薯产量^[11]。王小晶等^[12]研究氮磷钾不同比例和组合分期施用对单作甘薯产量和品质的影响, 发现氮磷钾分期运筹可以提高豫薯王的产量, 改善可溶性糖、蛋白质等部分营养品质。董月等^[13]研究定量的氮肥分3个时期不同比例运筹对单作甘薯干物质累积及氮素吸收的影响, 发现在甘薯移栽后30 d和60 d追施氮肥有利于氮素积累和向块根转移, 基施和30 d或60 d追施氮肥各半(比例5:5:0和5:0:5)均能获得较高产量。

前人众多研究表明, 氮肥施用量和分期运筹均有利于作物生长, 对单作甘薯的研究也表明氮肥分期运筹是提高甘薯产量、氮肥利用率和改善营养品质的有效途径^[12,13], 能否通过氮肥分期运筹解决套作甘薯产量低下的问题, 尚有待研究。本研究探讨氮肥分期运筹对单作甘薯和玉米/甘薯套作下的甘薯产量、营养品质及肥料利用率的影响, 以期确定甘薯/玉米模式中甘薯最佳氮肥施用方式, 为建立套作甘薯高产优质的氮肥管理措施提供理论依据。

1 材料与方法

1.1 试验地及试验材料

试验于2015—2016年在重庆北碚区歇马镇进行, 试验地土壤为沙壤土, 0~20 cm土层土壤的基本理化性质见表1。试验选用重庆市主推甘薯品种万薯10号(橘黄肉, 淀粉含量为16.30%, β-胡萝卜素含量为2.5 mg 100 g^-1鲜薯)、渝紫7号(紫肉, 淀粉含量为19.59%, 花青素含量为17.85 mg 100 g^-1鲜薯), 玉米材料为西大985 (半紧凑型)。供试肥料为尿素(含N 46%), 过磷酸钙(含P₂O₅ 12%), 硫酸钾(含K₂O 50%)。

Table 1
表1
表1不同试验年份移栽前土壤肥力状况
Table 1Chemical composition of the soil before transplanting in two years

年份 Year	有机质 Organic matter (g kg-1)	全N Total N (g kg-1)	碱解氮 Available nitrogen (mg kg-1)	有效磷 Available phosphorus (mg kg-1)	速效钾 Available potassium (mg kg-1)
2015	11.356	0.427	54.17	54.84	204.83
2016	10.442	0.546	81.99	19.24	175.60

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1.2 试验设计与方法

采用二因素裂区试验设计。主区为甘薯单作(A)和玉米/甘薯(B) 2个种植模式; 副区为3种氮肥分期运筹方式, 用NOA、NSA、NTA表示, 分别表示总量90 kg hm^-2的氮肥分1次施用、分2次施用和分3次施用, 用量分别为100%、60%+40%、40%+30%+ 30%, 3次施氮时期分别为甘薯移栽前基施、甘薯移栽后30 d和甘薯移栽后60 d。磷肥(P₂O₅) 45 kg hm^-2, 钾肥(K₂O) 180 kg hm^-2在甘薯移栽时各小区作基肥施入。小区面积为13.32 m², 长3.7 m, 甘薯和玉米2:2行比套作, 每个小区2个条带, 带宽1.8 m (甘薯双垄各单行栽培, 垄距60 cm, 薯玉间距40 cm, 玉米小行距40 cm), 甘薯单作中玉米行不栽种玉米, 3次重复。于每年3月中旬育甘薯苗, 5月中旬剪苗, 薯蔓入土两节扦插, 株距18.5 cm, 密度60 000株 hm^-2。于每年3月20日左右用穴盘育玉米苗, 每孔1粒, 至二叶一心时单株移栽, 株距32 cm, 密度33 000株 hm^-2。对玉米基施复合肥(N:P₂O₅:K₂O = 15:15:15) 750 kg hm^-2, 大喇叭口期追施尿素150 kg hm^-2。其他田间管理同一般生产田。

1.3 样品采集与测定

1.3.1 土壤基本理化性质 试验开始前以整个试验田为单元, 采用“S”型取样法采集0~20 cm土层土样5份, 风干过筛后备用。采用重铬酸钾容量法测定土壤有机质, 采用重铬酸钾容量法-外加热法测定全氮, 采用碱解扩散法-标准酸滴定测定碱解氮, 采用0.5 mol L^-1 NaHCO₃浸提-钼锑抗比色法测定速效磷, 采用1 mol L^-1 NH₄OAc 浸提-火焰光度法测定速效钾, 按照水土比2.5:1.0, 用pH计测定pH^[14]。

1.3.2 甘薯养分吸收 甘薯收获前1 d在每个小区随机挖取3株整株, 按照块根、茎秆和叶片分开后称重, 烘干后分别称重和粉碎。采用硫酸-双氧水消煮-凯氏蒸馏法测定全氮, 计算甘薯植株养分吸收^[14]。

1.4 计算方法

商品薯率(%) = 单位面积大中薯重/单位面积总薯重×100% (其中50 g及以上且完好的块根以大中薯计重, 50 g以下或受伤的块根以小薯计重);

甘薯淀粉含量^[15]y = 0.86945x-6.34587 (即, 淀粉率 = 烘干率×0.86945x-6.34587);

氮素吸收量 = 每公顷甘薯叶干重×每千克叶片氮素含量+每公顷甘薯茎杆干重×每千克茎杆氮素含量+每公顷甘薯块根干重×每千克块根氮素含量;

氮肥表观利用率 = 氮肥投入量/氮素总积累量;

氮素收获指数 = 块根氮素积累量/全株氮素吸收量^[16];

氮肥偏生产力 = 甘薯收获期块根干重/氮肥投入量^[16]。

1.5 数据处理

采用SPSS 19.0数据处理软件中一般线性模型进行二因素方差分析, 通过Duncan’s法进行多重比较。采用Microsoft Excel 2013软件制图。

2 结果与分析

2.1 甘薯产量性状

甘薯单作和套作中定量的氮肥分2期和3期运筹较全部基施均有效提高块根产量和单薯重(表2)。单作万薯10号和渝紫7号在NSA处理时产量和单薯重最高, 两年平均产量比NOA分别提高了17.5%和24.61%, 平均单薯重分别提高了26.09%和28.96%。相同处理的套作万薯10号和渝紫7号产量比单作均有一定的降低, 但通过氮肥分2期和3期运筹较氮肥全部基施同样可以显著提高产量和单薯重, 且在NSA处理时最高, 两年平均产量比NOA分别提高了25.41%和19.51%, 平均单薯重分别提高了41.61%和41.14%。在套作中通过氮肥分2期和3期运筹, 甘薯产量和单薯重均可以达到或显著高于单作中氮肥全部基施处理。NTA处理较NOA和NSA显著提高了单作万薯10号(2016年)和单作渝紫7号的商品薯率, 但在甘薯套作中氮肥分期运筹对甘薯商品薯率没有显著影响。万薯10号和渝紫7号套作平均商品薯率比单作分别降低了5.26%和5.40%。

Table 1
表2
表2甘薯产量性状及氮肥利用效率
Table 1Yield trait and nitrogen use efficiency of sweet potato

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不同的甘薯品种对产量、单薯重的影响达到了显著水平, 对商品薯率的影响不显著。种植制度对甘薯块根产量(2016年)、单薯重和商品薯率(2016年)的影响达到极显著水平。氮肥分期运筹方式对上述指标的影响均达到极显著水平, 甘薯品种与种植制度以及甘薯品种与氮肥分期运筹方式在上述指标中的互作效应均未达到显著水平。种植制度与氮肥分期运筹在甘薯产量和商品薯率上有显著的互作效应(表2)。

2.2 氮素利用效率

从表2可以看出, 甘薯不同种植模式中, 相比氮肥全部基施, 氮肥分期运筹均显著提高了氮肥表观利用率, 相同的氮肥分期运筹方式下的氮肥表观利用率在甘薯套作中显著低于单作。万薯10号单作中, NSA和NTA处理的氮肥表观利用率无显著差异, 两年平均分别比NOA处理高30.55%和29.59%; 万薯10号套作中NSA处理下最高, 比NOA处理高30.95%。渝紫7号单作中NSA处理下氮肥表观利用率最高, 比NOA处理高40.59%, 套作中NTA处理最高, 比NOA处理高45.75%。甘薯氮素收获指数在不同年份间表现不一, 单作万薯10号氮素收获指数在不同氮肥分期运筹下没有显著差异, 套作中2016年不同氮肥分期运筹的氮素收获指数无差异, 两年平均值在NSA处理下达到最大, 比NOA处理高7.59%。2015年单作渝紫7号不同氮肥分期运筹的氮素收获指数无差异, 两年平均值在NTA处理下达到最大, 比NOA处理高14.41%, 套作中在NSA处理下最高, 两年平均比NOA处理高54.65%。单作万薯 10 号氮肥偏生产力随氮肥分期次数的增加呈先增加后降低的趋势, 在NSA处理下达到最大, 比NOA处理高30.37%, 套作中NSA和NTA处理下无差异, 两年平均分别比NOA高35.16%和35.05%。相同种植模式中渝紫7号NSA和NTA处理下的氮肥偏生产力没有显著差异, 单作中两年平均比NOA处理分别高47.14%和52.66%, 套作中分别高59.27%和48.77%。

品种差异对氮肥表观利用率和氮肥偏生产力的影响达到极显著水平; 种植制度对氮肥表观利用率、氮素收获指数和氮肥偏生产力(2016年)的影响达到极显著水平; 氮肥分期运筹差异对氮肥表观利用率、氮素收获指数和氮肥偏生产力的影响均达到极显著水平; 品种与种植制度在2015年氮肥表观利用率、氮素收获指数和氮肥偏生产力中存在极显著互作; 品种与氮肥分期运筹在2016年氮肥表观利用率和氮素收获指数存在极显著互作, 在两年氮肥偏生产力中存在显著互作。种植制度与氮肥分期运筹的互作效应在氮肥表观利用率、氮素收获指数(2015年)和氮肥偏生产力(2015年)达到显著或极显著水平(表2)。

2.3 甘薯营养品质

通过栽培措施获取红肉甘薯更高的β-胡萝卜素含量及紫肉甘薯更高的花青素含量是生产的期望。相同处理下套作万薯10号β-胡萝卜素含量比单作均有一定的降低, 相同种植模式下, NOA处理和NSA处理的β-胡萝卜素含量没有显著差异, 且在NTA处理下达到最高(图1), 单作中NTA处理β-胡萝卜素两年平均含量比NOA处理提高了28.35%, 套作中提高了40.88%。表明万薯10号套作中氮肥分3期运筹最利于β-胡萝卜素含量的积累。渝紫7号单作和套作中, NSA和NTA处理的花青素含量间没有显著差异, 但均显著高于NOA (图2), 单作中NTA处理两年平均比NOA提高了29.71%, 套作中NSA处理两年平均比NOA提高了39.9%; 同时套作中NSA和NTA处理的花青素含量也均达到或显著高于单作中NOA处理。

图1

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图1万薯10号β-胡萝卜素含量

A: 甘薯单作; B: 玉米/甘薯; NOA: 定量氮肥全部基施; NSA: 定量氮肥分2期运筹; NTA: 定量氮肥分3期运筹。图柱顶端不同字母表示处理间差异达到0.05显著水平。
Fig. 1β-carotene content of Wanshu 10

A: sweet potato monocropping; B: sweet potato-maize interplanting; NOA: single N application, NSA: 2-split N application, NTA: 3-split N application N. Bars superscripted by different letters are significantly different between treatments at the 0.05 probability leave.

图2

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图2渝紫7号花青素含量

图柱顶端不同字母表示处理间差异达到0.05显著水平。缩写同图1。
Fig. 2Anthocyanin content of Yuzi 7

Bars superscripted by different letters are significantly different between treatments at the 0.05 probability leave. Abbreviations are the same as those given in Fig. 1.


从图3可以看出, 不同种植模式下万薯10号块根可溶性蛋白含量均在NTA处理下达到最高, 两年平均含量比NOA处理分别高19.66% (P<0.05)和12.53% (P<0.05), NOA处理及NSA处理的可溶性蛋白含量在不同种植模式中没有显著差异, 但NTA处理下块根可溶性蛋白含量单作中显著高于套作, 套作中NSA与单作NOA处理没有显著差异, 但套作中NTA处理显著高于单作中NOA处理; 渝紫7号单作NSA和NTA处理块根可溶性蛋白含量没有显著差异, 两年分别比NOA处理高15.33% (P<0.05)和12.83% (P<0.05), 渝紫7号套作中NSA处理下块根可溶性蛋白含量最高, 两年平均比NOA处理高10.72% (P<0.05)。

图3

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图3甘薯块根可溶性蛋白含量

图柱顶端不同字母表示处理间差异达到0.05显著水平。缩写同图1。
Fig. 3Soluble protein content of sweet potato storage root

Bars superscripted by different letters are significantly different between treatments at the 0.05 probability leave. Abbreviations are the same as those given in Fig. 1.


2015年NOA处理的块根可溶性蛋白含量在渝紫7号单作和套作中没有显著差异, 2016年单作中显著高于套作, 其余各处理均在单作中显著高于套作, 套作中NSA处理下含量达到单作中NOA处理水平。

万薯10号和渝紫7号在相同种植模式中随氮肥运筹次数的增加其块根淀粉含量有下降的趋势, 相同氮肥分期运筹方式下的块根淀粉含量在单作中显著高于套作, 套作万薯10号和渝紫7号块根淀粉含量比其单作中两年平均降低了17.64%和14.12% (图4)。表明甘薯单作和套作中, 增加氮肥分期运筹次数均不利于甘薯块根淀粉的积累, 套作种植会显著降低甘薯块根淀粉含量。

图4

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图4甘薯块根淀粉含

图柱顶端不同字母表示处理间差异达到0.05显著水平。缩写同图1。
Fig. 4Starch content of sweet potato storage root

Bars superscripted by different letters are significantly different between treatments at the 0.05 probability leave. Abbreviations are the same as those given in Fig. 1.


从图5可以看出, 同一品种甘薯在相同氮肥运筹下的块根可溶性糖含量套作中比单作中有一定的提高, 但未达到显著水平。万薯10号在不同种植模式中NSA处理下块根可溶性糖含量均最高, 两年平均比NOA处理分别高62.04% (P<0.05)和42.52% (P<0.05); 渝紫7号单作中NSA处理下块根可溶性糖含量最高, 两年平均比NOA处理增加了37.02% (P<0.05), 套作中NTA处理下最高, 两年平均比NOA处理增加了34.56% (P<0.05)。两品种甘薯套作中NSA和NTA处理的块根可溶性糖含量均显著高于单作中NOA处理。

图5

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图5甘薯块根可溶性糖含量

图柱顶端不同字母表示处理间差异达到0.05显著水平。缩写同图1。
Fig. 5Soluble sugar content of sweet potato storage root

Bars superscripted by different letters are significantly different between treatments at the 0.05 probability leave. Abbreviations are the same as those given in Fig. 1.

3 讨论

3.1 氮肥分期运筹效应

NOA、NSA和NTA三种氮肥分期运筹方式的特点是依次增加了甘薯生长中后期氮素的直接供应量, 延长了氮肥的有效供应期。结果发现, 氮肥分2期和3期运筹均比氮肥全部基施显著提高了氮肥的表观利用率, 促进了甘薯块根产量的形成, 此结果与宁运旺等^[17]关于甘薯分期需氮特性研究以及董月等^[13]关于氮肥运筹对甘薯干物质累积及氮素吸收影响的研究结果一致。甘薯块根β-胡萝卜素和花青素均属于植物次生代谢产物, 其代谢受环境因素的影响, 养分的有效供应主要调节其持续的合成与积累, 氮肥分3期运筹可以有效提高红肉甘薯块根β-胡萝卜素含量, 氮肥分2期运筹可以有效提高紫甘薯块根花青素含量。陈梦云等^[18]发现提高穗肥占总施氮量的比例可以显著提高了稻米的蛋白质含量, 显著降低了稻米直链淀粉含量。本研究中氮肥分2期和3期运筹有效提高了块根可溶性蛋白含量, 不同品种因生长习性和对不同种植模式的适应性不同, 其最佳的氮肥运筹方式不一。但块根淀粉含量显著降低, 这与陈梦云等^[18]的研究结果相似。同时氮肥分2期和3期运筹显著增加了块根可溶性糖含量, 淀粉含量与可溶性糖含量具有明显的负相关性。即通过氮肥分期运筹可以有效减少块根可溶性糖合成淀粉, 提高块根含糖量, 从而保证食用型甘薯良好的适口性。

3.2 套作效应

“甘薯/玉米”模式是依据喜光与耐阴作物组合、高矮作物搭配、根系深浅疏密结合、生育期长短前后“交错确定的田间作物群体结构^[19,20]。但在共生期内, 玉米始终占据优势生态位, 相比之下, 甘薯单作系统强烈地限制了甘薯的生长发育, 降低了产量和品质^[3,21-22], 这是甘薯套作系统无法回避的问题。套作系统存在对光照、养分等资源强烈的种间竞争关系, 这是本研究中甘薯套作中块根产量、氮肥表观利用率以及β-胡萝卜素、花青素、淀粉含量等营养品质显著低于单作的主要原因。本研究还发现, 在套作甘薯中, 通过氮肥分2期运筹和3期运筹时块根产量、单薯重、氮肥表观利用率、氮肥偏生产力、块根可溶性蛋白含量、可溶性糖含量以及万薯10号β-胡萝卜素含量和渝紫7号花青素含量无法达到单作中相同氮肥运筹时的水平, 但均可以达到(P > 0.05)或显著高于(P < 0.05)单作时氮肥全部基施处理。考虑到氮肥分期运筹较全部基施需投入更多劳动成本以及套作甘薯生长环境的特殊性, 在甘薯单作中或可采用氮肥全部基施处理, 但在甘薯套作中必须采用氮肥分2期或3期运筹。

王庆美等^[23]在研究遮荫对紫甘薯块根品质影响时发现该处理明显降低了紫甘薯的总淀粉含量和花青素含量。本研究中套作渝紫7号淀粉含量比单作中降低了14.12%, 花青素含量较单作降低了18.62%, 这与王庆美等^[23]的研究结果相符。控制甘薯块根花青素合成的酶是光诱导类酶, 短期弱光对该酶活性影响较小, 长期弱光时, 花青素合成酶活性受到抑制, 进而影响花青素的合成^[24]。甘薯块根中β-胡萝卜素的合成与光也有密切的关系, 我国西南地区甘薯/玉米种植制度中两种作物共生期可以达到90 d左右, 玉米对甘薯长时间的荫蔽严重^[25]是造成套作渝紫7号甘薯花青素含量以及万薯10号β-胡萝卜素含量较单作中低的主要原因。

4 结论

甘薯套作与单作中, 定量的氮肥分 2 期或分 3期运筹均比氮肥全部基施可以提高产量和氮肥利用效率, 优化除甘薯淀粉含量外的其他营养品质。相同种植模式中同种氮肥运筹方式难以达到高产优质的统一, 依据不同的生产目的选择恰当的氮肥分期运筹方式是达到生产目标的有效手段。

The authors have declared that no competing interests exist.

作者已声明无竞争性利益关系。

参考文献 View Option 原文顺序
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[1] 宁堂原, 焦念元, 张民, 郑延海, 赵春, 安艳艳, 李增嘉 . 不同品种组合方式下春夏玉米套作的氮素利用特征研究
作物学报, 2007,33:1896-1901
DOI:10.3321/j.issn:0496-3490.2007.11.026URL [本文引用: 1]
Three different cultivars, premature cultivars Luyuandan 14, medium cultivars Yedan 22 and late maturing cultivars Yedan 13, were chosen to study the effects of different maize cultivars on nitrogen (N) use characteristic and yield of relay-planted spring-sown and summer-sown maize compared with those of mono-planted. The results indicated that the N uptake of spring-sown maize was increased with longer growth duration. But when the longer growth duration cultivars of spring-sown maize with highest N uptake ability were used in relay-cropping, the N uptake by summer-sown maize were decreased obviously, which was not benefit to increase the annual yield. The N uptake efficiency (N accumulation in plant /N supplied, NUPE), N use efficiency (grain yield/N accumulation in plant, NUE) and N harvest index (N accumulation in grain/N accumulation in plant, NHI) were higher under relay-cropping than under sole cropping, while the N production efficiency (grain yield/N supplied, NPE) of relay cropping was between the range of spring-sown maize and summer-sown maize under sole cropping. Relay cropping of spring-sown maize with suitable N uptake ability and summer-sown maize with highest N uptake ability could enhance the advantages of the cropping system. The average land equivalent ratio for N yield of cropping system relay-planted with spring-sown maize of Luyuandan 14, Yedan 22, and Yedan 13 were 2.46, 1.63, and 2.04, respectively. While those for biomass yield were 1.91, 1.60, and 1.78, respectively. The relay cropping modes with higher N yield and biomass yield were Yedan 13/Yedan 22, Yedan 13/Yedan 13, and Luyuandan 14/Yedan 13. Compared with sole cropping maize, the relay-cropping system can get higher N productive ability and biomass yield by using more suitable cultivars.
Ning T Y, Jiao N Y, Zhang M, Zheng Y H, Zhao C, An Y Y, Li Z J . Nitrogen use characteristic in maize relay-cropping system of different cultivars
Acta Agron Sin, 2007,33:1896-1901 (in Chinese with English abstract)
DOI:10.3321/j.issn:0496-3490.2007.11.026URL [本文引用: 1]
Three different cultivars, premature cultivars Luyuandan 14, medium cultivars Yedan 22 and late maturing cultivars Yedan 13, were chosen to study the effects of different maize cultivars on nitrogen (N) use characteristic and yield of relay-planted spring-sown and summer-sown maize compared with those of mono-planted. The results indicated that the N uptake of spring-sown maize was increased with longer growth duration. But when the longer growth duration cultivars of spring-sown maize with highest N uptake ability were used in relay-cropping, the N uptake by summer-sown maize were decreased obviously, which was not benefit to increase the annual yield. The N uptake efficiency (N accumulation in plant /N supplied, NUPE), N use efficiency (grain yield/N accumulation in plant, NUE) and N harvest index (N accumulation in grain/N accumulation in plant, NHI) were higher under relay-cropping than under sole cropping, while the N production efficiency (grain yield/N supplied, NPE) of relay cropping was between the range of spring-sown maize and summer-sown maize under sole cropping. Relay cropping of spring-sown maize with suitable N uptake ability and summer-sown maize with highest N uptake ability could enhance the advantages of the cropping system. The average land equivalent ratio for N yield of cropping system relay-planted with spring-sown maize of Luyuandan 14, Yedan 22, and Yedan 13 were 2.46, 1.63, and 2.04, respectively. While those for biomass yield were 1.91, 1.60, and 1.78, respectively. The relay cropping modes with higher N yield and biomass yield were Yedan 13/Yedan 22, Yedan 13/Yedan 13, and Luyuandan 14/Yedan 13. Compared with sole cropping maize, the relay-cropping system can get higher N productive ability and biomass yield by using more suitable cultivars.

[2] 苏本营, 陈圣宾, 李永庚, 杨文钰 . 间套作种植提升农田生态系统服务功能
生态学报, 2013,33:4505-4514
DOI:10.5846/stxb201204200574URL [本文引用: 1]
间套作是指在同一块土地上同时种植两种或两种以上的作物,能够充分利用有限资源,提升单位面积物质产出,同时还具有多重其他生态效益,是一种基于生物多样性的可持续农业发展范式。生态系统服务是评价生态系统功能的重要突破口,也是当前生态学领域研究的热点问题。从生态系统服务的角度论述间套作种植提升农田生态系统服务功能,并从物质产出、土壤肥力维持、生物多样性保护、水土保持、病虫草害和有害污染物控制等方面论述了间套作种植提升农田生态系统功能的实践及机制。在此基础上,构建了间套作农田生态系统服务功能评价的理论框架和指标体系,并提出了间套作种植农田生态系统未来应加强的研究方向。
Su B Y, Chen S B, Li Y G, Yang W Y . Intercropping enhances the farmland ecosystem services
Acta Ecol Sin, 2013,33:4505-4514 (in Chinese with English abstract)
DOI:10.5846/stxb201204200574URL [本文引用: 1]
间套作是指在同一块土地上同时种植两种或两种以上的作物,能够充分利用有限资源,提升单位面积物质产出,同时还具有多重其他生态效益,是一种基于生物多样性的可持续农业发展范式。生态系统服务是评价生态系统功能的重要突破口,也是当前生态学领域研究的热点问题。从生态系统服务的角度论述间套作种植提升农田生态系统服务功能,并从物质产出、土壤肥力维持、生物多样性保护、水土保持、病虫草害和有害污染物控制等方面论述了间套作种植提升农田生态系统功能的实践及机制。在此基础上,构建了间套作农田生态系统服务功能评价的理论框架和指标体系,并提出了间套作种植农田生态系统未来应加强的研究方向。

[3] 雍太文, 杨文钰, 向达兵, 陈小容, 万燕 . 小麦/玉米/大豆套作的产量、氮营养表现及其种间竞争力的评定
草业学报, 2012,21(1):50-58
DOI:10.11686/cyxb20120107URLMagsci [本文引用: 2]
采用多年大田试验研究了小麦－大豆（Ａ１）、小麦－甘薯（Ａ２）、玉米（Ａ３）、小麦／玉米／大豆（Ａ４，麦／玉／豆）和小麦／玉米／甘薯（Ａ５，麦／玉／薯）５种种植模式的生物积累和氮素吸收特性，以探讨麦／玉／豆套作体系的种间竞争力变化规律。试验通过土地当量比（ＬＥＲ）、种间相对竞争力（Ａ）、氮营养竞争比率（ＮＣＲ）等指标来评定不同套作系统内的作物竞争力。结果表明，麦／玉／豆套作表现出明显的套作优势（<em><strong>LER</strong></em>＞１、<em><strong>A</strong>_wc</em>＜０、<em><strong>A</strong>_cs</em>＞０、<em><strong>NCR</strong>_wc</em>＜０、<em><strong>NCR</strong>_cs</em>＞１），玉米始终占据套作系统的优势生态位，小麦、大豆处于竞争劣势；与Ａ１、Ａ２、Ａ３及Ａ５相比，麦／玉／豆套作提高了各作物在开花期（或吐丝期）与成熟期的籽粒产量与吸氮量和地上部植株的总生物量与总吸氮量；各作物的生物量与吸氮量在处理间的变化规律为套作＞单作、大豆茬口＞甘薯茬口，以Ａ４处理最高。麦／玉／豆套作的全年总经济产出比麦／玉／薯套作平均高２８．０２％。
Yong T W, Yang W Y, Xiang D B, Chen X R, Wan Y . Production and N nutrient performance of wheat-maize-soybean relay strip intercropping system and evaluation of interspecies competition
Acta Pratac Sin, 2012,21(1):50-58 (in Chinese with English abstract)
DOI:10.11686/cyxb20120107URLMagsci [本文引用: 2]
采用多年大田试验研究了小麦－大豆（Ａ１）、小麦－甘薯（Ａ２）、玉米（Ａ３）、小麦／玉米／大豆（Ａ４，麦／玉／豆）和小麦／玉米／甘薯（Ａ５，麦／玉／薯）５种种植模式的生物积累和氮素吸收特性，以探讨麦／玉／豆套作体系的种间竞争力变化规律。试验通过土地当量比（ＬＥＲ）、种间相对竞争力（Ａ）、氮营养竞争比率（ＮＣＲ）等指标来评定不同套作系统内的作物竞争力。结果表明，麦／玉／豆套作表现出明显的套作优势（<em><strong>LER</strong></em>＞１、<em><strong>A</strong>_wc</em>＜０、<em><strong>A</strong>_cs</em>＞０、<em><strong>NCR</strong>_wc</em>＜０、<em><strong>NCR</strong>_cs</em>＞１），玉米始终占据套作系统的优势生态位，小麦、大豆处于竞争劣势；与Ａ１、Ａ２、Ａ３及Ａ５相比，麦／玉／豆套作提高了各作物在开花期（或吐丝期）与成熟期的籽粒产量与吸氮量和地上部植株的总生物量与总吸氮量；各作物的生物量与吸氮量在处理间的变化规律为套作＞单作、大豆茬口＞甘薯茬口，以Ａ４处理最高。麦／玉／豆套作的全年总经济产出比麦／玉／薯套作平均高２８．０２％。

[4] 赵亚妮, 王科, 王佳锐, 陈远学, 杨昱 . 施氮对单作和套作小麦产量和氮素利用特征的影响
中国生态农业学报, 2016,24:845-852
[本文引用: 1]

Zhao Y N, Wang K, Wang J R, Chen Y X, Yang Y . Wheat grain yield and nitrogen use characteristics under monoculture and intercropping with different nitrogen fertilization rates
Chin J Eco-Agric, 2016,24:845-852 (in Chinese with English abstract)
[本文引用: 1]

[5] 陈平, 杜青, 周丽, 杨欢, 董茜, 宋春, 杨文钰, 雍太文 . 减量施氮及施肥距离对玉米/大豆套作系统增产节肥的影响
应用生态学报, 2016,27:3247-3256
DOI:10.13287/j.1001-9332.201610.031URL [本文引用: 1]
通过田间试验研究了3种施氮水平（RN1：210 kg N·hm-2;RN2：270 kg N·hm-2;CN：330 kg N·hm-2）与4个施肥距离（与窄行玉米距离,D1：0 cm、D2：15 cm、D3：30 cm、D4：45 cm）对玉米/大豆套作系统增产节肥的影响.结果表明：与CN相比,RN2下玉米花后的干物质积累量、转移量及对籽粒的贡献率提高1.4%、23.0%、16.0%,玉米穗粒数与单株产量增加1.6%和4.9%;大豆花前的物质积累量、转移量及对籽粒贡献率提高2.1%、37.9%、26.9%,单株粒数与籽粒产量均增加7.3%;RN2下玉米/大豆套作系统的作物氮素吸收量与氮肥利用率比CN提高5.0%、44.4%,玉米的土壤总氮含量提高4.1%,大豆的则降低0.8%.各施肥距离间,以D2处理效果较好;RN2下,D2的玉米花后（大豆花前）干物质积累对籽粒贡献率、玉米穗粒数（大豆单株粒数）分别比D1提高57.2%、9.4%,大豆的则比D4提高335.2%、2.4%;D2的玉米/大豆套作系统氮素吸收量及氮肥利用率分别比D1提高15.1%和112.4%,比D4提高21.4%和66.3%;玉米土壤总氮含量D2比D1提高6.6%,大豆土壤总氮含量D2比D4提高16.0%.合理的减量施氮和施肥距离有利于玉米/大豆套作系统下作物干物质向籽粒转运,提高作物的单株粒数、百粒重和产量,促进作物氮素吸收与氮肥高效利用,达到节肥增产的目的.
Chen P, Du Q, Zhou L, Yang H, Dong Q, Song C, Yang W Y, Yong T W . Effects of N application reduction and fertilizing distance on saving fertilizer and improving yield in maize/soybean intercropping system
Chin J Appl Ecol, 2016,27:3247-3256 (in Chinese with English abstract)
DOI:10.13287/j.1001-9332.201610.031URL [本文引用: 1]
通过田间试验研究了3种施氮水平（RN1：210 kg N·hm-2;RN2：270 kg N·hm-2;CN：330 kg N·hm-2）与4个施肥距离（与窄行玉米距离,D1：0 cm、D2：15 cm、D3：30 cm、D4：45 cm）对玉米/大豆套作系统增产节肥的影响.结果表明：与CN相比,RN2下玉米花后的干物质积累量、转移量及对籽粒的贡献率提高1.4%、23.0%、16.0%,玉米穗粒数与单株产量增加1.6%和4.9%;大豆花前的物质积累量、转移量及对籽粒贡献率提高2.1%、37.9%、26.9%,单株粒数与籽粒产量均增加7.3%;RN2下玉米/大豆套作系统的作物氮素吸收量与氮肥利用率比CN提高5.0%、44.4%,玉米的土壤总氮含量提高4.1%,大豆的则降低0.8%.各施肥距离间,以D2处理效果较好;RN2下,D2的玉米花后（大豆花前）干物质积累对籽粒贡献率、玉米穗粒数（大豆单株粒数）分别比D1提高57.2%、9.4%,大豆的则比D4提高335.2%、2.4%;D2的玉米/大豆套作系统氮素吸收量及氮肥利用率分别比D1提高15.1%和112.4%,比D4提高21.4%和66.3%;玉米土壤总氮含量D2比D1提高6.6%,大豆土壤总氮含量D2比D4提高16.0%.合理的减量施氮和施肥距离有利于玉米/大豆套作系统下作物干物质向籽粒转运,提高作物的单株粒数、百粒重和产量,促进作物氮素吸收与氮肥高效利用,达到节肥增产的目的.

[6] 温日宇, 郭耀东, 郑联寿, 姜庆国, 樊丽生 . 马铃薯套种玉米模式下种植密度和氮肥施用量对马铃薯产量的影响
山西农业科学, 2016,44:981-983
DOI:10.3969/j.issn.1002-2481.2016.07.21URL [本文引用: 1]
以马铃薯品种费乌瑞它Ⅱ为试验材料,研究了在马铃薯套种玉米种植模式下,马铃薯种植密度和氮肥施用量对马铃薯产量的影响。结果表明,在一定范围内,随着种植密度和氮肥施用量的增加,马铃薯产量逐步增加。当密度为6万株/hm~2、氮肥施用量为300 kg/hm~2时,马铃薯产量达到最高。
Wen R Y, Guo Y D, Zheng L S, Jiang Q G, Fan L S . Effect of planting density and nitrogen application rate on yield of potato in potato/maize intercropping mode
J Shanxi Agric Sci, 2016,44:981-983 (in Chinese with English abstract)
DOI:10.3969/j.issn.1002-2481.2016.07.21URL [本文引用: 1]
以马铃薯品种费乌瑞它Ⅱ为试验材料,研究了在马铃薯套种玉米种植模式下,马铃薯种植密度和氮肥施用量对马铃薯产量的影响。结果表明,在一定范围内,随着种植密度和氮肥施用量的增加,马铃薯产量逐步增加。当密度为6万株/hm~2、氮肥施用量为300 kg/hm~2时,马铃薯产量达到最高。

[7] Li S X, Wang Z H, Hu T T, Gao Y J, Stewart B A . Nitrogen in dryland soils of China and its management
Adv Agron, 2009: 123-181
DOI:10.1016/S0065-2113(08)00803-1URL [本文引用: 1]
For sustainable agriculture and eliminating N fertilizer pollution of the environment, different strategies have been proposed. Roughly, two ways are noted: agricultural and industrial. The former is improvement of crop growing conditions for efficient use of the N fertilizer whereas the latter improvement of N fertilizer characteristics. Of these, agricultural strategies are fundamental and basic. Applying adequate rates of N fertilizer, rotating legumes in cropping sequences, using organic materials in combination with chemical fertilizers, and improving crop health for better use of nutrients are some important aspects for consideration in the future.

[8] McDonald G K . Effects of nitrogenous fertilizer on the growth, grain yield and grain protein concentration of wheat
Crop Pasture Sci, 1992,43:949-967
DOI:10.1071/ar9920949URL [本文引用: 1]
The responses of wheat to applications of nitrogenous fertilizer were examined between 1988 and 1990 at 10 sites in South Australia which were considered to be marginally deficient in N. Nitrogen rates ranged from 0 kg N/ha to 150 kg N/ha and the experiments were sown after a range of crops and pastures. Nitrogen often increased early crop vigour and subsequent vegetative growth but significant increases in grain yield occurred at three of the 10 sites only; at the remaining sites there was no significant response or there was a reduction in yield at the highest rates of N. Kernel weights fell and grain protein concentration increased at most sites as the rate of N increased. The total amount of N per kernel was relatively constant across the N treatments at each site and across the 10 sites it varied less than the starch content per kernel. Grain protein concentration therefore was affected more by the amount of starch deposited in the grain than by the total amount of nitrogen. The amount of dry matter remobilized post-anthesis, calculated from changes in dry weight, was high and at the majority of sites was increased with applications of nitrogenous fertilizer. Despite the generally large amount of dry matter remobilized, this appeared to be used inefficiently during grain filling and there was little evidence that it greatly contributed to grain growth and grain protein concentration. The relationship between starch content per kernel and N content per kernel varied between sites: in some cases starch and N were negatively correlated, while in other instances there was a positive correlation or no correlation. The data suggest that high grain protein concentration at high levels of N are not a direct consequence of increased mobilization of dry matter and greater translocation of N to the grain. Dry matter production at anthesis was correlated with the amount of growth after 10 weeks but generally this increased dry matter production was of no benefit to yield. It is concluded that in the medium rainfall areas of the state, there is no advantage to be gained from improved early vigour, except perhaps where poor early growth is due to inadequate management.

[9] 苏伟, 鲁剑巍, 李云春, 李小坤, 马常宝, 高祥照 . 氮肥运筹方式对油菜产量、氮肥利用率及氮素淋失的影响
中国油料作物学报, 2010,32:558-562
URL [本文引用: 1]
通过盆栽模拟试验研究了不同氮肥运筹方式对油菜产量、氮肥利用率、氮素淋失及氮素平衡的影 响。试验设5个处理：不施氮肥（CK）,氮肥全部基施（TJ）,氮肥60%基施、40%做越冬肥追施（TJD）,氮肥60%基施、40%做薹肥追施 （TJT）,氮肥60%基施、20%做越冬肥、20%做薹肥追施（TJDT）。研究结果表明,氮肥分期施用可明显增加油菜产量,提高氮肥利用率,其中以 TJDT处理效果最佳,与TJ处理相比,TJDT处理的产量、氮肥农学利用率及表观利用率分别提高了17.6%、2.1kg·kg^-1氮和4.9%。同 时,TJDT处理的氮素淋失量也最小。氮素平衡计算结果表明,不同时期追施氮肥对氮素平衡影响不大,但是均比氮肥集中做基肥施用（TJ）的表观损失明显减 小。尽管油菜收获后,各施氮处理土壤氮素均有盈余,但分期施肥盈余量明显高于TJ。研究表明在油菜生产中,氮肥分期施用既能提高油菜籽的产量和氮肥的利用 效率,又可获得较好的环境效应。
Su W, Lu J W, Li Y C, Li X K, Ma C B, Gao X Z . Effect of nitrogen management mode on yield, nitrogen using efficiency and nitrogen leaching of rapeseed
Chin J Oil Crop Sci, 2010,32:558-562 (in Chinese with English abstract)
URL [本文引用: 1]
通过盆栽模拟试验研究了不同氮肥运筹方式对油菜产量、氮肥利用率、氮素淋失及氮素平衡的影 响。试验设5个处理：不施氮肥（CK）,氮肥全部基施（TJ）,氮肥60%基施、40%做越冬肥追施（TJD）,氮肥60%基施、40%做薹肥追施 （TJT）,氮肥60%基施、20%做越冬肥、20%做薹肥追施（TJDT）。研究结果表明,氮肥分期施用可明显增加油菜产量,提高氮肥利用率,其中以 TJDT处理效果最佳,与TJ处理相比,TJDT处理的产量、氮肥农学利用率及表观利用率分别提高了17.6%、2.1kg·kg^-1氮和4.9%。同 时,TJDT处理的氮素淋失量也最小。氮素平衡计算结果表明,不同时期追施氮肥对氮素平衡影响不大,但是均比氮肥集中做基肥施用（TJ）的表观损失明显减 小。尽管油菜收获后,各施氮处理土壤氮素均有盈余,但分期施肥盈余量明显高于TJ。研究表明在油菜生产中,氮肥分期施用既能提高油菜籽的产量和氮肥的利用 效率,又可获得较好的环境效应。

[10] 陈源, 王永慧, 杨朝华, 肖健, 栾娜, 张祥, 陈德华 . 氮肥运筹对高品质棉棉铃形成及纤维品质的影响
作物学报, 2009,35:2266-2272
DOI:10.3724/SP.J.1006.2009.02266URL [本文引用: 1]
The objective of this study was to investigate the extent of the yield increase and fiber quality improvement with nitrogen fertilizer application at different developing periods for high fiber quality cotton. Two cultivars of high quality cotton, hybrid Kemian 1, and conventional Kemian 4, were used to study the effect of nitrogen application on boll weight, boll volume and fiber quality. The five experiments were conducted on the farm of Jiangsu Provincial Key Laboratory of Crops Genetics and Physiology of Yangzhou University from 2003 to 2005, the first experiment was the ratio of nitrogen fertilizer at transplanting, flowering and boll setting, peak boll setting period of 10:60:30, 25:65:10 for nitrogen fertilizer applied at 17,19,21 leaf age on main stem, and the fifth was
Chen Y, Wang Y H, Yang C H, Xiao J, Luan N, Zhang X, Chen D H . Effect of nitrogen fertilizer application on development of boll and fiber quality in high fiber quality cotton
Acta Agron Sin, 2009,35:2266-2272 (in Chinese with English abstract)
DOI:10.3724/SP.J.1006.2009.02266URL [本文引用: 1]
The objective of this study was to investigate the extent of the yield increase and fiber quality improvement with nitrogen fertilizer application at different developing periods for high fiber quality cotton. Two cultivars of high quality cotton, hybrid Kemian 1, and conventional Kemian 4, were used to study the effect of nitrogen application on boll weight, boll volume and fiber quality. The five experiments were conducted on the farm of Jiangsu Provincial Key Laboratory of Crops Genetics and Physiology of Yangzhou University from 2003 to 2005, the first experiment was the ratio of nitrogen fertilizer at transplanting, flowering and boll setting, peak boll setting period of 10:60:30, 25:65:10 for nitrogen fertilizer applied at 17,19,21 leaf age on main stem, and the fifth was

[11] 刘向梅, 孙磊, 李功义, 石立航, 王弘, 徐姗姗 . 氮磷钾肥施用量及施用时期对马铃薯养分转运分配的影响
中国土壤与肥料, 2013, ( 4):59-65
[本文引用: 1]

Liu X M, Sun L, Li G Y, Shi L H, Wang H, Xu S S . Effects of N, P, K fertilizers application rate and time on translocation and distribution of nutrients in potato plant
China Soils Fert, 2013, ( 4):59-65 (in Chinese with English abstract)
[本文引用: 1]

[12] 王小晶, 蔡国学, 王洋, 吕慧峰, 陈怡, 王正银 . 氮磷钾分期施用对甘薯产量和品质的影响
中国农学通报, 2011,27(7):188-192
[本文引用: 2]

Wang X J, Cai G X, Wang Y, Lyu H F, Chen Y, Wang Z Y . Effects of nitrogen, phosphorus and potassium application by stages on yield and quality of sweet potato
Chin Agric Sci Bull, 2011,27(7):188-192 (in Chinese with English abstract)
[本文引用: 2]

[13] 董月, 王会方, 汪吉东, 宁运旺, 张永春 . 氮肥运筹对甘薯干物质累积及氮素吸收的影响
江苏师范大学学报(自然科学版), 2017,35(2):23-26
URL [本文引用: 3]

Dong Y, Wang H F, Wang J D, Ning Y W, Zhang Y C . Effects of nitrogen application on dry matter accumulation and nitrogen uptake of sweet potato
J Jiangsu Nor Univ( Nat Sci Edn), 2017,35(2):23-26 (in Chinese with English abstract)
URL [本文引用: 3]

[14] 卜容燕, 任涛, 鲁剑巍, 李小坤, 李云春, 汪洋, 鲁君明 . 水稻-油菜轮作条件下氮肥效应及其后效
中国农业科学, 2012,45:5049-5056
[本文引用: 2]

Bu R Y, Ren T, Lu J W, Li X K, Li Y C, Wang Y, Lu J M . Study on N fertilizer efficiency and the residual effect under rice-oilseed rape rotation system
Sci Agric Sin, 2012,45:5049-5056 (in Chinese with English abstract)
[本文引用: 2]

[15] 王文质, 以凡, 杜述荣, 魏秀玲, 许莉萍, 曹化林 . 甘薯淀粉含量换算公式及换算表
作物学报, 1989,15:94-96
[本文引用: 1]

Wang W Z, Yi F, Du S R, Wei X L, Xu L P, Cao H L . Conversion table of the starch content in sweet potato
Acta Agron Sin, 1989,15:94-96 (in Chinese with English abstract)
[本文引用: 1]

[16] 任昊, 程乙, 刘鹏, 董树亭, 赵杰, 张吉旺, 赵斌 . 不同栽培模式对夏玉米根系性能及产量和氮素利用的影响
中国农业科学, 2017,50:2270-2281
DOI:10.3864/j.issn.0578-1752.2017.12.008URL [本文引用: 2]
【目的】研究不同栽培模式对夏玉米根系性能、籽粒产量形成以及氮素吸收利用的影响,探明不同栽培模式下玉米根系形态特征与产量形成、氮素吸收能力的关系,为促进玉米根系生长发育、增强根系吸收性能、优化施肥量,促进玉米高产高效生产提供理论依据。【方法】在定位试验条件下,选用郑单958为试验材料,在两种地力条件下,以不施氮肥处理为对照（CK）,设置超高产玉米栽培模式（SH）、高产高效栽培管理模式（HH）、农民习惯栽培管理（FP）3种栽培模式,比较分析不同栽培模式夏玉米根系特性对产量形成和氮素吸收利用的调控效应。【结果】不同栽培模式间夏玉米产量存在显著差异,与HH、FP和CK模式相比较,高地力和低地力田块SH模式的两年平均产量分别提高3.54%、17.50%、30.12%和3.16%、18.45%、27.72%,统计分析表明地力和栽培模式均对夏玉米产量有极显著影响,两种因素综合影响因年份变化有所差异。两种地力条件下,夏玉米各时期群体生物量均表现为SH〉HH〉FP〉CK。在抽雄期（VT）和完熟期（R6）,SH处理的植株氮素积累总量显著高于其他处理,氮肥利用效率和氮肥农学利用效率均高于FP模式,HH模式的氮肥农学利用效率、氮肥利用效率和氮收获指数均最高,氮肥偏生产力低于FP模式,但仍高于SH模式。在不同地力基础上夏玉米不同栽培模式的根系指标变化趋势基本一致,在大喇叭口期（V12）、抽雄期（VT）、乳熟期（R3）的根系干重密度、根长密度和根表面积密度均为SH〉HH〉FP〉CK,从V12到VT期,SH和HH模式的根长密度、根干重密度和根表面积密度增幅均显著高于FP模式,从VT到R3期,降幅均显著低于FP模式,SH和HH模式VT期根系活跃吸收面积比例显著高于FP模式。不同栽培模式各时期根长密度、根表面积密度和根干重密度与产量和氮肥利用效率均呈显著正相关
Ren H, Cheng Y, Liu P, Dong S T, Zhao J, Zhang J W, Zhao B . Effects of different cultivation patterns on root characteristics, yield formation and nitrogen utilization of summer maize
Sci Agric Sin, 2017,50:2270-2281 (in Chinese with English abstract)
DOI:10.3864/j.issn.0578-1752.2017.12.008URL [本文引用: 2]
【目的】研究不同栽培模式对夏玉米根系性能、籽粒产量形成以及氮素吸收利用的影响,探明不同栽培模式下玉米根系形态特征与产量形成、氮素吸收能力的关系,为促进玉米根系生长发育、增强根系吸收性能、优化施肥量,促进玉米高产高效生产提供理论依据。【方法】在定位试验条件下,选用郑单958为试验材料,在两种地力条件下,以不施氮肥处理为对照（CK）,设置超高产玉米栽培模式（SH）、高产高效栽培管理模式（HH）、农民习惯栽培管理（FP）3种栽培模式,比较分析不同栽培模式夏玉米根系特性对产量形成和氮素吸收利用的调控效应。【结果】不同栽培模式间夏玉米产量存在显著差异,与HH、FP和CK模式相比较,高地力和低地力田块SH模式的两年平均产量分别提高3.54%、17.50%、30.12%和3.16%、18.45%、27.72%,统计分析表明地力和栽培模式均对夏玉米产量有极显著影响,两种因素综合影响因年份变化有所差异。两种地力条件下,夏玉米各时期群体生物量均表现为SH〉HH〉FP〉CK。在抽雄期（VT）和完熟期（R6）,SH处理的植株氮素积累总量显著高于其他处理,氮肥利用效率和氮肥农学利用效率均高于FP模式,HH模式的氮肥农学利用效率、氮肥利用效率和氮收获指数均最高,氮肥偏生产力低于FP模式,但仍高于SH模式。在不同地力基础上夏玉米不同栽培模式的根系指标变化趋势基本一致,在大喇叭口期（V12）、抽雄期（VT）、乳熟期（R3）的根系干重密度、根长密度和根表面积密度均为SH〉HH〉FP〉CK,从V12到VT期,SH和HH模式的根长密度、根干重密度和根表面积密度增幅均显著高于FP模式,从VT到R3期,降幅均显著低于FP模式,SH和HH模式VT期根系活跃吸收面积比例显著高于FP模式。不同栽培模式各时期根长密度、根表面积密度和根干重密度与产量和氮肥利用效率均呈显著正相关

[17] 宁运旺, 张永春, 朱绿丹, 陈丹艳, 蔡枫, 汪吉东, 许仙菊, 胡永红 . 甘薯的氮磷钾养分吸收及分配特性
江苏农业学报, 2011,27:71-74
DOI:10.3969/j.issn.1000-4440.2011.01.013URL [本文引用: 1]
探明宁紫1号甘薯的氮磷钾养分吸收和分配特性,为合理施肥提供依据。该研究在田间进行,设5个处理3次重复,从甘薯栽插成活到成熟收获期间,每隔15 d取1次植株样,茎叶和根分别称重、烘干,分析氮磷钾养分含量。结果表明：每生产1 000 kg鲜薯需要吸收的氮磷钾总量为11.24 kg,氮磷钾比例为1.00:0.69:2.32;不同生长阶段甘薯的氮磷钾养分累积特征明显不同,氮的吸收主要集中在甘薯生长中前期（移栽后60 d内）,生长后期由于落叶使累积量反而下降,磷钾的吸收90%以上发生在甘薯生长的中后期（移栽后30 d至成熟）;累积在甘薯茎叶和块根中氮磷钾总量相近,但累积在茎叶中的氮和块根中的磷钾偏多,累积在茎叶中氮磷钾的比例为1.00:0.60:2.03,块根中为1.00:0.82:2.69;移栽后60～75 d是宁紫1号甘薯＂源-库＂关系的过渡期。
Ning Y W, Zhang Y C, Zhu L D, Chen D Y, Cai F, Wang J D, Xu X J, Hu Y H . Uptake and distribution of nitrogen, phosphorus and potassium in sweet potato
Jiangsu J Agric Sci, 2011,27:71-74 (in Chinese with English abstract)
DOI:10.3969/j.issn.1000-4440.2011.01.013URL [本文引用: 1]
探明宁紫1号甘薯的氮磷钾养分吸收和分配特性,为合理施肥提供依据。该研究在田间进行,设5个处理3次重复,从甘薯栽插成活到成熟收获期间,每隔15 d取1次植株样,茎叶和根分别称重、烘干,分析氮磷钾养分含量。结果表明：每生产1 000 kg鲜薯需要吸收的氮磷钾总量为11.24 kg,氮磷钾比例为1.00:0.69:2.32;不同生长阶段甘薯的氮磷钾养分累积特征明显不同,氮的吸收主要集中在甘薯生长中前期（移栽后60 d内）,生长后期由于落叶使累积量反而下降,磷钾的吸收90%以上发生在甘薯生长的中后期（移栽后30 d至成熟）;累积在甘薯茎叶和块根中氮磷钾总量相近,但累积在茎叶中的氮和块根中的磷钾偏多,累积在茎叶中氮磷钾的比例为1.00:0.60:2.03,块根中为1.00:0.82:2.69;移栽后60～75 d是宁紫1号甘薯＂源-库＂关系的过渡期。

[18] 陈梦云, 李晓峰, 程金秋, 任红茹, 梁健, 张洪程, 霍中洋 . 秸秆全量还田与氮肥运筹对机插优质食味水稻产量及品质的影响
作物学报, 2017,43:1802-1816
DOI:10.3724/SP.J.1006.2017.01802URL [本文引用: 2]
以江苏优质食味水稻代表性品种南粳5055和南粳46为材料,在总施纯氮量为300kghm–2条件下,设置9:1、8:2、7:3、6:4、5:5、4:6共6种基蘖肥与穗肥比例运筹,探讨秸秆全量还田与不同氮肥运筹比例对机插优质食味水稻产量及稻米品质的影响。结果表明,与秸秆不还田相比,秸秆全量还田具有显著的增产效应,南粳5055、南粳46平均增产5.04%、4.64%;随基蘖氮肥占总施氮量比例下降,秸秆全量还田机插粳稻产量呈先增后减趋势,基蘖氮肥与穗氮肥比例为7:3时,水稻产量最高。秸秆全量还田显著增加了稻米的蛋白质含量,降低了垩白率和垩白度,对改善稻米的外观品质和营养品质有一定作用。秸秆全量还田还有利于蒸煮食味品质的改善,显著提高稻米的崩解值和食味值,显著降低稻米的消减值。提高穗肥占总施氮量的比例可以显著改善稻米的加工和营养品质,提高整精米率,但同时增加了稻米垩白,降低了稻米外观品质,且稻米蒸煮食味品质也有所下降。
Chen M Y, Li X F, Cheng J Q, Ren H R, Liang J, Zhang H C, Huo Z X . Effects of total straw returning and nitrogen application regime on grain yield and quality in mechanical transplanting japonica rice with good taste quality.
Acta Agron Sin, 2017,43:1802-1816 (in Chinese with English abstract)
DOI:10.3724/SP.J.1006.2017.01802URL [本文引用: 2]
以江苏优质食味水稻代表性品种南粳5055和南粳46为材料,在总施纯氮量为300kghm–2条件下,设置9:1、8:2、7:3、6:4、5:5、4:6共6种基蘖肥与穗肥比例运筹,探讨秸秆全量还田与不同氮肥运筹比例对机插优质食味水稻产量及稻米品质的影响。结果表明,与秸秆不还田相比,秸秆全量还田具有显著的增产效应,南粳5055、南粳46平均增产5.04%、4.64%;随基蘖氮肥占总施氮量比例下降,秸秆全量还田机插粳稻产量呈先增后减趋势,基蘖氮肥与穗氮肥比例为7:3时,水稻产量最高。秸秆全量还田显著增加了稻米的蛋白质含量,降低了垩白率和垩白度,对改善稻米的外观品质和营养品质有一定作用。秸秆全量还田还有利于蒸煮食味品质的改善,显著提高稻米的崩解值和食味值,显著降低稻米的消减值。提高穗肥占总施氮量的比例可以显著改善稻米的加工和营养品质,提高整精米率,但同时增加了稻米垩白,降低了稻米外观品质,且稻米蒸煮食味品质也有所下降。

[19] 金文林 . 间(套、混)作试验的几种研究方法
耕作与栽培, 1987, ( 5):36-41
[本文引用: 1]

Jin W L . Some research methods of intercropping and mixed cropping experiment
Tillage Cult, 1987, ( 5):36-41 (in Chinese)
[本文引用: 1]

[20] 王新华, 郭书亚, 尚赏, 谢幸华, 张艳, 卢广远, 杨爱梅 . 1B8型玉米甘薯套作系统优势分析
安徽农业科学, 2013,41:13855-13857
[本文引用: 1]

Wang X H, Guo S Y, Shang S, Xie X H, Zhang Y, Lu G Y, Yang A M . Type 1B8 of sweet potato, corn interplanting system advantage analysis
J Anhui Agric Sci, 2013,41:13855-13857 (in Chinese with English abstract)
[本文引用: 1]

[21] Ossom E M . Influence of sweet potato/maize association on ecological properties and crop yields in Swaziland,
Int J Agric Biol, 2010,12:481-488
DOI:10.1016/j.compag.2010.03.005URL [本文引用: 1]
Sweet potato is a major root storage crop in Swaziland, whereas maize (Zea mays L.) is the staple food crop in Swaziland. In this experiment, sweet potato cv. Kenya was grown in the field and intercropped with maize cv. SC 603 with the objective of determining the effects of crop association on soil temperature, weed infestation and crop yields. Five plant population treatments (T) were investi...

[22] Amede T, Nigatu Y . Interaction of components of sweet potato-maize intercropping under the semi-arid conditions of the Rift-Valley, Ethiopia
Trop Sci, 2001,78:1-7
DOI:10.1117/12.413956 [本文引用: 1]
Seven experiments were conducted to investigate the interaction of components of maize and sweetpotato intercropping under semi-arid conditions. Early (Katumani) and mid-late (A511) maize varieties were interplanted with sweetpotato simultaneously, 15 days, 30 days, and 45 days after emergence (DAE) of maize, using an additive type of intercropping. Grain yield of maize was not affected by simultaneously-interplanted sweetpotato, but later interplanting decreased grain yield particularly in very dry years. Intercropping reduced tuber yield by more than 50% regardless of planting time. Land equivalent ratio (LER) was consistently higher than 1.5 in sweetpotato-Katumani mixtures, because sweetpotato was less affected by Katumani compared to A511. About 80% of the joint LER was contributed by maize. There was no difference in water use between intercrops and sole crops, and water use was much lower than the available soil water, when compared with maize plants grown with suppressed inter-row evaporation. This study indicated that higher LER values, relatively stable yield over seasons, and a high amount of feed from sweetpotato vines would be obtained if early-maturing maize varieties were interplanted with shade-tolerant sweetpotato simultaneously in long-growing seasons.

[23] 王庆美, 侯夫云, 汪宝卿, 王振林, 董顺旭, 张海燕, 李爱贤, 张立明, 解备涛 . 遮阴处理对紫甘薯块根品质的影响
中国农业科学, 2011,44:192-200
DOI:10.3864/j.issn.0578-1752.2011.01.023URL [本文引用: 2]
【目的】研究不同基因型紫甘薯块根品质对不同遮阴程度的响应。【方法】以济薯18和 hyamuraski为材料，分别于块根膨大高峰期（栽后50-100d），用不同透光度的黑色遮阳网设置遮光40％和遮光70％处理，对照（CK）为自 然光处理，测定不同处理对块根干物质含量，总淀粉、直链及支链淀粉含量，淀粉积累速率，可溶性糖含量，蛋白质含量，全粉黏度仪参数及花青素含量的影响。 【结果】遮阴处理下，紫甘薯块根中的干物质、总淀粉含量和淀粉积累速率比对照显著降低；遮阴处理不仅显著增加了济薯18直链淀粉含量、直／支比值，而且显 著降低了济薯18全粉的高峰黏度、衰减值、回生值和峰值时间，遮阴下hyamuraski块根的淀粉品质与济薯18相反；遮阴处理还显著提高了两个品种块 根中的可溶性糖和可溶性蛋白含量，并随遮阴程度加大而增高；同时，紫甘薯的花青素含量和积累速率显著降低，济薯18的花青素积累对遮阴的反应比 Ayamuraski更敏感。【结论】遮阴处理使紫甘薯的块根干物质、总淀粉含量和淀粉积累速率、花青素含量及不同膨大阶段的花青素积累量明显降低，同时 遮阴处理下紫甘薯块根淀粉品质因品种而异。
Wang Q M, Hou F Y, Wang B Q, Wang Z L, Dong S X, Zhang H Y, Li A X, Zhang L M, Xie B T . Effects of shading stress on qualities of purple sweet potato storage roots
Sci Agric Sin, 2011,44:192-200 (in Chinese with English abstract)
DOI:10.3864/j.issn.0578-1752.2011.01.023URL [本文引用: 2]
【目的】研究不同基因型紫甘薯块根品质对不同遮阴程度的响应。【方法】以济薯18和 hyamuraski为材料，分别于块根膨大高峰期（栽后50-100d），用不同透光度的黑色遮阳网设置遮光40％和遮光70％处理，对照（CK）为自 然光处理，测定不同处理对块根干物质含量，总淀粉、直链及支链淀粉含量，淀粉积累速率，可溶性糖含量，蛋白质含量，全粉黏度仪参数及花青素含量的影响。 【结果】遮阴处理下，紫甘薯块根中的干物质、总淀粉含量和淀粉积累速率比对照显著降低；遮阴处理不仅显著增加了济薯18直链淀粉含量、直／支比值，而且显 著降低了济薯18全粉的高峰黏度、衰减值、回生值和峰值时间，遮阴下hyamuraski块根的淀粉品质与济薯18相反；遮阴处理还显著提高了两个品种块 根中的可溶性糖和可溶性蛋白含量，并随遮阴程度加大而增高；同时，紫甘薯的花青素含量和积累速率显著降低，济薯18的花青素积累对遮阴的反应比 Ayamuraski更敏感。【结论】遮阴处理使紫甘薯的块根干物质、总淀粉含量和淀粉积累速率、花青素含量及不同膨大阶段的花青素积累量明显降低，同时 遮阴处理下紫甘薯块根淀粉品质因品种而异。

[24] 王庆美, 侯夫云, 汪宝卿, 董顺旭, 王振林, 张海燕, 李爱贤, 解备涛, 张立明 . 大田遮荫对紫心甘薯块根中酶活性的影响
核农学报, 2012,26:960-966
URL [本文引用: 1]
Artificial shading treatments were adopted to study the enzymatic mechanism of root qualities decrease under insufficient light in different genotypes of purple-fleshed sweetpotato. Results showed that leaf RUBPCase activity in cv. Jishu18 and Ayamurasaki remarkably decreased under shading treatment. ATPase activity decreased in leaf and root of purple sweetpotato after shading. ADPGase and UDPGase activities in root of two cultivars decreased significantly with the increasing of shading intensity. Effects of shading on soluble starch synthase (SSS) and granule bound starch synthase (GBSS) activity were different in two verities, (SSS) activity in root of JiShu18 significantly decreased, but GBSS activity was inordinately higher than the control. In Ayamurasaki, SSS activity was significantly higher than its control and GBSS activity decreased with the increasing of shading intensity. Phenglalanine Ammonia Lyase (PAL) activity, as key enzyme of anthocyanin biosynthesis, changed little under shading stress. Shading could affect the enzyme related to root quality synthesis in purple-fleshed sweetpotato from source, sink and flow and the decrease of RUBPCase, ATPase, ADPGPPase and UDPGPPase activities, might be the main reason for the decrease of sweetpotato storage quality.
Wang Q M, Hou F Y, Wang B Q, Dong S X, Wang Z L, Zhang H Y, Li A X, Xie B T, Zhang L M . Enzymatic activity of root qualities in purple-fleshed sweet potato under flied shading stress
J Nucl Agric Sci, 2012,26:960-966 (in Chinese with English abstract)
URL [本文引用: 1]
Artificial shading treatments were adopted to study the enzymatic mechanism of root qualities decrease under insufficient light in different genotypes of purple-fleshed sweetpotato. Results showed that leaf RUBPCase activity in cv. Jishu18 and Ayamurasaki remarkably decreased under shading treatment. ATPase activity decreased in leaf and root of purple sweetpotato after shading. ADPGase and UDPGase activities in root of two cultivars decreased significantly with the increasing of shading intensity. Effects of shading on soluble starch synthase (SSS) and granule bound starch synthase (GBSS) activity were different in two verities, (SSS) activity in root of JiShu18 significantly decreased, but GBSS activity was inordinately higher than the control. In Ayamurasaki, SSS activity was significantly higher than its control and GBSS activity decreased with the increasing of shading intensity. Phenglalanine Ammonia Lyase (PAL) activity, as key enzyme of anthocyanin biosynthesis, changed little under shading stress. Shading could affect the enzyme related to root quality synthesis in purple-fleshed sweetpotato from source, sink and flow and the decrease of RUBPCase, ATPase, ADPGPPase and UDPGPPase activities, might be the main reason for the decrease of sweetpotato storage quality.

[25] 林超文, 陈一兵, 黄晶晶 . 中国四川间作地区作物高度、覆盖度和叶面积指数的时间变化
水土保持研究, 2007,14(2):72-75
DOI:10.3969/j.issn.1005-3409.2007.02.024URLMagsci [本文引用: 1]
作物参数在模型模拟中具有非常重要的作用.但很多关于作物参数的研究是很久以前的,一般发表于20世纪中期或更早,并且这些结果都来自于净作作物.为了填补这个空缺,进行了该项研究.结果显示:作物的高度、覆盖度和叶面积指数随时间变化很大.玉米的最大高度是177 cm,间于已有的文献值范围内.玉米的最大覆盖度是花期的86%.玉米的最大叶面积指数是1.96,低于参考文献的2.1～10的范围,这是因为参考文献的研究集中于北美和欧洲,由于品种和耕作制度的不同而造成的.甘薯的最大和最小株高分别为22 cm和12 cm.甘薯的最大覆盖度为薯块膨大期的73%.甘薯的最大叶面积指数是1.79.当甘薯和玉米间作时,其所有的作物参数受玉米影响很大.在玉米-甘薯这个间作系统中,最危险的侵蚀期是玉米收获后至甘薯覆盖度最大期.
Lin C W, Chen Y B, Huang J J . Temporal variation of plant height, plant cover and leaf area index in inter-cropped area of Sichuan,
Res Soil Water Conserv, 2007,14(2):72-75 (in Chinese with English abstract)
DOI:10.3969/j.issn.1005-3409.2007.02.024URLMagsci [本文引用: 1]
作物参数在模型模拟中具有非常重要的作用.但很多关于作物参数的研究是很久以前的,一般发表于20世纪中期或更早,并且这些结果都来自于净作作物.为了填补这个空缺,进行了该项研究.结果显示:作物的高度、覆盖度和叶面积指数随时间变化很大.玉米的最大高度是177 cm,间于已有的文献值范围内.玉米的最大覆盖度是花期的86%.玉米的最大叶面积指数是1.96,低于参考文献的2.1～10的范围,这是因为参考文献的研究集中于北美和欧洲,由于品种和耕作制度的不同而造成的.甘薯的最大和最小株高分别为22 cm和12 cm.甘薯的最大覆盖度为薯块膨大期的73%.甘薯的最大叶面积指数是1.79.当甘薯和玉米间作时,其所有的作物参数受玉米影响很大.在玉米-甘薯这个间作系统中,最危险的侵蚀期是玉米收获后至甘薯覆盖度最大期.