中国耕作制度近50年演变规律及未来20年发展趋势研究
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摘要
本研究采用历史资料分析、典型调查、专家走访和GIS信息技术等方法,建立和完善了1985—2000年全国分县统计资料数据库,涉及3000多个县共500多万条数据,并实现了基于GIS的耕作制度历史变化趋势和未来布局区划;在此基础上,从作物布局、复种指数、间混套作、轮作连作、土壤耕作方式、物质投入等方面对近半个世纪以来尤其是1985—2001年中国耕作制度的演变进行了分析;本研究还根据FAO数据库,对我国1961-2001年食物需求和供给量趋势进行了全面分析和国际比较,预测了2020年我国主要粮食作物的需求;在总结耕作制度演变规律和食物需求预测的前提下,以全面提高粮食综合生产能力为基础,预测了以粮食作物基本生产田、高产和超高产田布局为核心的2020年耕作制度发展趋势。
1.耕作制度近半个世纪演变主要趋势。(1)耕地面积不断减少,粮食增产的压力越来越大。(2)作物结构不断优化,作物布局区域化、科学化程度不断提高。全国稻谷、小麦和玉米为主的粮食生产格局已经形成。三大粮食作物产量占全国粮食总产比例从1950年的63.18%上升到2001年的85.24%,其中水稻的产量比例略有下降,小麦的产量增加了一倍,玉米的产量比例增加了一倍半;大豆、薯类的产量比例分别下降了50%,其他作物的比例下降了近4/5。各分区和县级GIS分析表明,水稻主要分布在长江中下游区、东南区和华南区,分别占各区总播种面积的60~70%;小麦以黄淮海区为主,占总播种面积的50%;玉米的主要分布在东北区和黄淮海区,分别占总播种面积的40%;大豆以东北区为主,占总播种面积的30%。(3)作物复种方式不断优化,复种指数呈波动式增长。(4)作物种植模式由高产为主向高产高效的方向发展。(5)轮作面积逐渐缩小,呈现单一化趋势。(6)土壤耕作由多耕多种向少耕精种方向发展。
2.耕作制度近半个世纪演变基本规律。精耕细作仍将是耕作制度发展的主要方向;社会需求是耕作制度发展的基本动力;促进粮食增产、环境改善是耕作制度发展与改革的核心任务;可持续发展是耕作制度发展的根本原则;农业科技进步与合理的生产要素投入是耕作制度发展的前提和保证。
3.中国食物及粮食安全趋势及预测。(1)我国食物需求已经进入植物性产品需求基本稳定、动物性产品持续增长的阶段。(2)我国食物安全的现状是:热量基本达标、蛋白质不足、植物脂肪偏低。(3)2020年我国食物及主要粮食作物需求量预测。高谷物方案的粮食需求总量为61857万t,水稻18904万t、小麦11450万t、玉米14137万t、大豆2193万t;低谷物方案的粮食需求总量为64319万t,水稻16953万t、小麦8966万t、玉米14154万t、大豆2193万t。
4.未来20年耕作制度发展的主要趋势。(1)精耕细作仍将是耕作制度未来发展的主导方向。(2)确保粮食产量、增加农民收入和吸引劳动力就业是耕作制度的根本任务。(3)不断提高土地利用率、增加单位面积产量和产值是耕作制度的主要目标。根据县级GIS分析的结果,实现2020粮食总产目标,需要现有低产田提升为中低产田、中低产田提升为中产田、中产田提升为中高产田、中高产田提升为高产田、高产水平再提升40%。(4)区域化、专业化是作物布局的主要趋势和方向。基于粮食生产的基本农田分析,按高谷物需求的三个方案,到2020年分别需粮食作物播种面积9469.7万hm~2、7959.0万hm~2和6872.2万hm~2;按低谷物需求方案分别需9846.6万hm~2、8275.8万hm~2和7145.7万hm~2。(5)复种方式应不断优化、复种指数需进一步恢复和提高。按复种指数恢复和提高方案,2020年所需粮食作物耕地面积高、中、低三个水平为5557.4万hm~2、4676.4万hm~2和4042.0万hm~2,分别占2001年的89.3%、75.1%和64.9%。(6)间混套作方式和内容不断丰富和提高,土地生产率进一步提高。(7)土壤耕作次数减少,耕作质量提高,少免耕进一步得到推广与应用。(8)技术集约和生产要素投入减少是未来高效耕作制度的发展方向。
According to statistics data, typical investigation, experts advices, applying GIS techniques, county level database including 3000 counties and total 5 million pieces data are established, and according above research, historical involving regulations in 1949-2001 and future trends in 2020 on farming system are analyzed, such as crop zoning, multiple cropping, inter-planting, mixed-planting, crop rotation, soil tillage, etc. In this paper, food consumption including calories, protein, fat and cereals per capita in 1961-2001 are analyzed, through compared with USA and Japan and different countries in world, food demand in China in 2020 are forecasted. Based on the involving regulation and food demand trends, strategies and techniques focus on narrowing yield gaps and gaining higher-yield on farming system in 2020 are put forward.
1. Gradual progress on farming system in recent half century. (1) Aral land tends to decrease, task of increasing on crop production became harder. (2) Crop zoning tends to stabilize, and scientific and localized crop production areas come into being. Rice, wheat and maize production have become great proportions in total crop production in China, ratio is from 63.18% in 1950 to 85.24% in 2001. Rice production drop slightly, wheat and maize production increased one times and one and a half times in 50 years, respectively. Soybean and potatoes production decreased 50%, respectively, and the other crops production decreased 4/5 in 50 years. It showed through analysis in regional and county level, rice planting areas are mainly in Middle and lower areas of Changjiang River, Southeast of China and South of China, sowing areas and ratio of total sowing areas in those areas are still in 60-70%; Wheat planting areas are mainly in Huanghuaihai areas and its sowing areas ratio of total sowing areas are around 50%; Ma
ize planting areas are mainly in Northeast of China and Huanghuaihai areas, and their sowing areas ratio of total sowing areas are both around 40%; Soybean planting areas are mainly in Northeast of China, sowing areas ratio of total sowing areas are in 30%. (3) Multi-cropping optimized and cropping density increased in wave. (3) Cropping patterns are change from high-yield to combination of high-yield and efficiency. (4) Crop rotation tends to area-demise and simplify. (5) Soil tillage is from extensive to intensive and labor-saving.
2. Involving regularities of farming system in recent 50 years. Intensive cultivation is still major direction of farming system. Social demands are fundamental motive force to development of farming system. Improving to yield and environment is key task of farming system. Sustainable development is basic rule of farming system. Agricultural technical innovation and reasonable input are premise and guarantee.
3. Trends of food and cereals consumption and its future forecasts in China. (1) China has entered stages of stable vegetable food and gradual increasing of animal food in food consumption.
(2) Food demand situations are calories reaching standards, protein shortage and vegetable oils lower. (3 ) Food and cereals demand in 2020 in China. Lower grain demand (D1) is 618.57 million ton; rice, wheat, maize and soybean demand are 189.04 million ton, 114.50 million ton, 141.37 million ton, 21.93 million ton, respectively. Higher grain demand (D2) is 643.19 million ton; rice, wheat, maize and soybean demand are 169.53 million ton, 89.66 million ton, 141.54 million ton,
21.93 million ton, respectively.
4. Future trends of fanning system in 2020. (1) Intensive cultivation is still major direction of fanning system. (2) Ensuring grain production, improving farmer's income and absorption of agricultural labors are main directions of fanning system. (3) Improving land utilization and yield and value per units are main proposals of forming system. In this paper, yield is divided into five grades based on 2001 levels, F3 is the average yield field, F2 is 20% lower man F3, F, is 20% lower than F2; F4 is 20% higher than F3, F5 is 20% higher than F4.
1.耕作制度近半个世纪演变主要趋势。(1)耕地面积不断减少,粮食增产的压力越来越大。(2)作物结构不断优化,作物布局区域化、科学化程度不断提高。全国稻谷、小麦和玉米为主的粮食生产格局已经形成。三大粮食作物产量占全国粮食总产比例从1950年的63.18%上升到2001年的85.24%,其中水稻的产量比例略有下降,小麦的产量增加了一倍,玉米的产量比例增加了一倍半;大豆、薯类的产量比例分别下降了50%,其他作物的比例下降了近4/5。各分区和县级GIS分析表明,水稻主要分布在长江中下游区、东南区和华南区,分别占各区总播种面积的60~70%;小麦以黄淮海区为主,占总播种面积的50%;玉米的主要分布在东北区和黄淮海区,分别占总播种面积的40%;大豆以东北区为主,占总播种面积的30%。(3)作物复种方式不断优化,复种指数呈波动式增长。(4)作物种植模式由高产为主向高产高效的方向发展。(5)轮作面积逐渐缩小,呈现单一化趋势。(6)土壤耕作由多耕多种向少耕精种方向发展。
2.耕作制度近半个世纪演变基本规律。精耕细作仍将是耕作制度发展的主要方向;社会需求是耕作制度发展的基本动力;促进粮食增产、环境改善是耕作制度发展与改革的核心任务;可持续发展是耕作制度发展的根本原则;农业科技进步与合理的生产要素投入是耕作制度发展的前提和保证。
3.中国食物及粮食安全趋势及预测。(1)我国食物需求已经进入植物性产品需求基本稳定、动物性产品持续增长的阶段。(2)我国食物安全的现状是:热量基本达标、蛋白质不足、植物脂肪偏低。(3)2020年我国食物及主要粮食作物需求量预测。高谷物方案的粮食需求总量为61857万t,水稻18904万t、小麦11450万t、玉米14137万t、大豆2193万t;低谷物方案的粮食需求总量为64319万t,水稻16953万t、小麦8966万t、玉米14154万t、大豆2193万t。
4.未来20年耕作制度发展的主要趋势。(1)精耕细作仍将是耕作制度未来发展的主导方向。(2)确保粮食产量、增加农民收入和吸引劳动力就业是耕作制度的根本任务。(3)不断提高土地利用率、增加单位面积产量和产值是耕作制度的主要目标。根据县级GIS分析的结果,实现2020粮食总产目标,需要现有低产田提升为中低产田、中低产田提升为中产田、中产田提升为中高产田、中高产田提升为高产田、高产水平再提升40%。(4)区域化、专业化是作物布局的主要趋势和方向。基于粮食生产的基本农田分析,按高谷物需求的三个方案,到2020年分别需粮食作物播种面积9469.7万hm~2、7959.0万hm~2和6872.2万hm~2;按低谷物需求方案分别需9846.6万hm~2、8275.8万hm~2和7145.7万hm~2。(5)复种方式应不断优化、复种指数需进一步恢复和提高。按复种指数恢复和提高方案,2020年所需粮食作物耕地面积高、中、低三个水平为5557.4万hm~2、4676.4万hm~2和4042.0万hm~2,分别占2001年的89.3%、75.1%和64.9%。(6)间混套作方式和内容不断丰富和提高,土地生产率进一步提高。(7)土壤耕作次数减少,耕作质量提高,少免耕进一步得到推广与应用。(8)技术集约和生产要素投入减少是未来高效耕作制度的发展方向。
According to statistics data, typical investigation, experts advices, applying GIS techniques, county level database including 3000 counties and total 5 million pieces data are established, and according above research, historical involving regulations in 1949-2001 and future trends in 2020 on farming system are analyzed, such as crop zoning, multiple cropping, inter-planting, mixed-planting, crop rotation, soil tillage, etc. In this paper, food consumption including calories, protein, fat and cereals per capita in 1961-2001 are analyzed, through compared with USA and Japan and different countries in world, food demand in China in 2020 are forecasted. Based on the involving regulation and food demand trends, strategies and techniques focus on narrowing yield gaps and gaining higher-yield on farming system in 2020 are put forward.
1. Gradual progress on farming system in recent half century. (1) Aral land tends to decrease, task of increasing on crop production became harder. (2) Crop zoning tends to stabilize, and scientific and localized crop production areas come into being. Rice, wheat and maize production have become great proportions in total crop production in China, ratio is from 63.18% in 1950 to 85.24% in 2001. Rice production drop slightly, wheat and maize production increased one times and one and a half times in 50 years, respectively. Soybean and potatoes production decreased 50%, respectively, and the other crops production decreased 4/5 in 50 years. It showed through analysis in regional and county level, rice planting areas are mainly in Middle and lower areas of Changjiang River, Southeast of China and South of China, sowing areas and ratio of total sowing areas in those areas are still in 60-70%; Wheat planting areas are mainly in Huanghuaihai areas and its sowing areas ratio of total sowing areas are around 50%; Ma
ize planting areas are mainly in Northeast of China and Huanghuaihai areas, and their sowing areas ratio of total sowing areas are both around 40%; Soybean planting areas are mainly in Northeast of China, sowing areas ratio of total sowing areas are in 30%. (3) Multi-cropping optimized and cropping density increased in wave. (3) Cropping patterns are change from high-yield to combination of high-yield and efficiency. (4) Crop rotation tends to area-demise and simplify. (5) Soil tillage is from extensive to intensive and labor-saving.
2. Involving regularities of farming system in recent 50 years. Intensive cultivation is still major direction of farming system. Social demands are fundamental motive force to development of farming system. Improving to yield and environment is key task of farming system. Sustainable development is basic rule of farming system. Agricultural technical innovation and reasonable input are premise and guarantee.
3. Trends of food and cereals consumption and its future forecasts in China. (1) China has entered stages of stable vegetable food and gradual increasing of animal food in food consumption.
(2) Food demand situations are calories reaching standards, protein shortage and vegetable oils lower. (3 ) Food and cereals demand in 2020 in China. Lower grain demand (D1) is 618.57 million ton; rice, wheat, maize and soybean demand are 189.04 million ton, 114.50 million ton, 141.37 million ton, 21.93 million ton, respectively. Higher grain demand (D2) is 643.19 million ton; rice, wheat, maize and soybean demand are 169.53 million ton, 89.66 million ton, 141.54 million ton,
21.93 million ton, respectively.
4. Future trends of fanning system in 2020. (1) Intensive cultivation is still major direction of fanning system. (2) Ensuring grain production, improving farmer's income and absorption of agricultural labors are main directions of fanning system. (3) Improving land utilization and yield and value per units are main proposals of forming system. In this paper, yield is divided into five grades based on 2001 levels, F3 is the average yield field, F2 is 20% lower man F3, F, is 20% lower than F2; F4 is 20% higher than F3, F5 is 20% higher than F4.
引文
[1] 卞新民,冯金侠.多元多熟种植制度复种指数计算方法探讨,南京农业大学学报,1999,22(1):11-15
[2] 曹晔,冯利民,宋学功.改变耕作制度,促进农业增产增收.农业技术经济,1996,(5):47-50
[3] 陈阜.我国农作物栽培与耕作制度科技新进展.耕作与栽培,2001,(6):1-2
[4] 陈吉元,韩俊.人口大国的农业增长.上海:上海远东出版社,1996:52-56
[5] 陈胜勇.多熟间套、粮经兼顾:麦菜瓜薯多熟耕制探讨与实践.耕作与栽培,1989(5):14~15
[6] 陈印军等,对南方双季稻主产区“玉米替代”的反思.中国农村经济,1999,(2)
[7] 陈雨海.建国以来山东省种植制度演变历史及其规律的研究.山东农业科学,1993,(6)
[8] 陈雨海等.山东省复种历史演变及其发展规律,耕作与栽培,1994,(3):1-6
[9] 程在全,宋令荣,黄兴奇等.高产和超高产水稻产量差异比较及其原因探索.Southwest China Journal of Agricultural Science Vol.10,No.2
[10] 戴小枫等.养活2030年16亿人口需要新的农业科技革命.中国农学通报.1998,14(2):7-9
[11] 党安荣,阎守邕,王世新.GIS在中国粮食单产空间变化研究中的应用.地理科学,1999(6):205-210
[12] 党安荣,阎守邕,周艺.地理信息系统支持下的中国粮食生产潜力研究,遥感学报,1998(8):225-229
[13] 党安荣等.建国以来我国粮食单产的时序变化研究.中国农村观察,1998(3):7-10
[14] 党安荣等.中国粮食生产发展的时序变化研究,地理研究,1998,17(3):242-24
[15] 段红平.我国三熟耕作区湖南省耕作制度演变规律、趋势及对策研究.中国农业大学博士论文,2000
[16] 段佐亮.公元2020年中国农村经济、人口、粮食和耕地问题研究.1993,(3):10-13
[17] 逢焕成.一种集约多熟超高产模式的探讨—河南扶沟县—麦三玉的理论与技术.中国农业大学博士论文,1996
[18] 高立平.试论中国农业的国际化.首都师范大学学报(社会科学版),1998(5):20-27
[19] 高旺盛.耕作制度改革回顾与新世纪展望.耕作与栽培,1999,(1)
[20] 关锐捷.半个世纪的中国农业.南方日报出版社,1999:166-172
[21] 郭书田.中国粮食:多角度研究与思考.北京:农业出版社,1990
[22] 郭向东.区域农业发展专家决策支持系统设计.中国农业大学博士论文,1993
[23] 郭占银,李跃进.论农业现代化过程中常规农业向持续农业的转变.农业现代化研究,1999,20(3):165-168
[24] 韩湘铃,刘巽浩.不同熟制生产力研究.北京农业大学报,1992,(4)
[25] 韩湘铃,刘巽浩.黄淮海地区—熟与两熟制生产力的研究.作物学报,1986,2(2)
[26] 何信生.农田作物布局模型化过程的讨论.耕作与栽培,1984,(3)
[27] 洪丙夏.我国耕作制度的发展方向与对策,耕作与栽培,1995,(2)
[28] 候文正,张树德,张鹏.耕作制度改革与基本农田建设必须同步进行.山西水土保持科
技,1991(1):42~43
[29] 胡鞍钢.中国走向二十一世纪的十大关系.哈尔滨:黑龙江教育出版社,1995:136-169
[30] 胡志全.中国二熟耕作区耕作制度演变规律与食物安全对策研究.中国农业大学博士论文,2001
[31] 黄国勤等著.中国南方耕作制度.北京:中国农业出版社,1997
[32] 黄季琨,斯.罗泽尔.迈向21世纪的中国粮食经济.北京:中国农业出版社,1998
[33] 黄季琨.中国农业政策、发展及食物安全.中外著名专家论农业,中国农业大学出版社,1998:124-148
[34] 黄亚昌,苏连庆等.闽南粮食三熟超高产栽培研究初报,中国农业科技导报,2000,2(3)
[35] 黄耀祥,林青山.水稻超高产特优质株型模式的构想和育种实践,广东农业科学,1994,(4)
[36] 冀崇峰.未来我国粮食供求总量、结构、区域平衡问题研究.农业经济问题,2000(3):15-19
[37] 姜洁等.中国玉米生产区域比较优势的模型分析.农业现代化研究,1998,1
[38] 蒋建平.食物、营养与现代农业发展.中国科学技术出版社.1999:33-44。
[39] 金涛.西藏冬小麦超高产栽培的几个问题初探.西藏科技,1999(5)
[40] 金石桥.我国耕作制度对农业发展做出巨大贡献.中国农技推广,1999,5
[41] 康晓光.中国进口粮食有害吗.国际经济评论,1997(1-2):19-23
[42] 康晓光.中国人怎样养活自己—中国粮食长期发展战略研究.广西教育出版社,1996
[43] 柯炳生.粮食市场与政策.北京:中国农业出版社,1995:98-108
[44] 莱斯特·R·布朗.生态经济——有利于地球的经济构想.东方出版社:161-183
[45] 兰林旺等.小麦节水高产研究.北京农业大学出版社,1995
[46] 雷书彦.河北省耕作制度改革40年的回顾与展望.中国农史,1991(4)
[47] 李伯航等.黄淮海玉米高产理论与技术.学术书刊出版社,1990
[48] 李潮海.国外和我国黄淮地区夏玉米高产栽培技术概述.河南农业科学,1992,(10)
[49] 李春生.粮食生产灰色控制分析.作物研究,1998,(2)
[50] 李大祥.国外耕作制度研究的常用经济评价方法.耕作与栽培,1990(6):8-11
[51] 李大祥.国外耕作制度研究时常用经济评作方法.耕作与栽培,1990,6
[52] 李道亮,傅泽田.农业结构调整时期我国粮食生产能力储备的若干对策.农业经济问题,2001(4):10-16
[53] 李道亮,傅泽田.我国可持续食物安全的实证研究.中国农业大学学报,2000,5(4):11~14
[54] 李道亮,傅泽田.中国可持续食物安全的综合评判.农业技术经济,2000(3):1-6
[55] 李福祥,王少丽.中国主要产粮区洪涝灾害与粮食增产潜力.中国减灾,2000(5):22-24
[56] 李培林,朱庆芳.中国小康社会.社会科学文献出版社,2003:89-103
[57] 李萍萍.试论三高农业与耕作学学科体系建设.耕作与栽培,1994,(1):1-3
[58] 李荣生.论资源节约型农业结构.资源科学,1999,21(2):18-23
[59] 李少昆,刘景德等.新疆玉米高产栽培的实践与探索。石河子大学学报(自然科学版),1999-12
[60] 李少昆,吕新.新疆春玉米超高产栽培实践与探索.中国农业科技导报,2000,2(3):43
[61] 李万明,曹其芳.我国农业可持续发展的战略思考.农业经济问题,2001(4):50-53
[62] 李一平等.中、高产田上升为吨粮田的潜力、效益及途径.耕作与栽培,1995;(5):6-16
[63] 李远铸.耕作技术进步拓宽了农业资源利用途径.农业技术经济,1991(2):32~35
[64] 厉为民,黎淑英等.世界粮食安全概论.北京:中国人民大学出版社,1988:5-6
[65] 梁文举.专家系统及其在农业自然资源管理中的应用.农村生态环境,1996,12(3)
[66] 林毅夫.我国主要粮食作物单产潜力与增产前景.中国农业资源与区划,1995,(3):4-7
[67] 林忠辉等.中国不同区域化肥资源利用特征与合理配置.资源科学,1998(9):26-31
[68] 刘更另.保护耕地、培肥土壤、增产粮食.中国科学报1996年10月28日第4版
[69] 刘景辉,王树安,王志敏.中国粮食单产增长规律及预测.耕作与栽培,2001,(5):1-4
[70] 刘顺卿.一年三种三收优质高效通用型种植模式的实践.河南农业科学,1993,(6)
[71] 刘巽浩,高旺盛,陈阜,论21世纪中国多熟种植潜力与方向.面向21世纪的中国农作制(论文集),石家庄:河北科学技术出版社,1998:15-16
[72] 刘巽浩,韩湘铃.中国的多熟种植.农业出版社,1980
[73] 刘巽浩,牟正国等.中国耕作制度.农业出版社,1993
[74] 刘巽浩.耕作制度.农业出版社,1982
[75] 刘巽浩.论21世纪中国农业可持续发展.耕作与栽培,1995,(1):1-8
[76] 刘巽浩.我国耕作制度发展展望.作物杂志,1992(2):5-8
[77] 刘灶长,钟树福.耕作制度的层次分析和模糊综合评价.江西农业大学学报,1990,12(1):65-72
[78] 刘志澄.21世纪是我国农业迈向现代化的世纪.农业经济问题,2001(1):20-24
[79] 刘志澄.对我国未来的粮食发展问题浅议.中国农业资源与区划,1995,(3):8-11
[80] 卢良恕.21世纪农业科学技术的发展趋势.世界经济,1999(1):43-47
[81] 鲁奇.中国耕地资源开发、保护与粮食安全保障问题.资源科学,1999(11):5-8
[82] 陆建飞,刘锋,陈波.江苏省五大作物超高产栽培的技术经济分析,农业技术经济,2002-6
[83] 陆建飞等.市场经济下种植制度改革与发展的探讨.耕作与栽培,1997,(3):1-4
[84] 罗赓彤,刘胜利,孔新等.春大豆中早熟种黑农40单产4899Kg/hm~2的试验研究,新疆农业科学,2001,38(3):123~125
[85] 罗赓彤,刘胜利,孔新等.实现达到超高产的品种与栽培技术.新疆农业科学,2003,40(1):28-30
[86] 罗赓彤,占勇,刘胜利等.新大豆1号和石大豆1号高产记录的创造.大豆科学,2001,20(4)
[87] 罗兴录.不同复种方式生产力及生态经济效益研究.耕作与栽培,1995,(3):7-9
[88] 马国辉,张玉烛,何英豪等.三熟制双季稻超高产栽培理论与技术研究——早稻高产栽培技术及效益分析.作物研究,1998,1
[89] 马国辉.三熟制双季稻超高产栽培理论与技术研究.中国农业科技导报,2001,3(4):20
[90] 马景勇,凌风楼,禹航等.我国水稻超高产育种的理论与实践.吉林农业大学学报,1994,12(16)
[91] 马新民,陆建飞.论种植制度的改革与发展.干旱地区农业研究,1995,13(2):1~6
[92] 牟桂华等.六种六收主体栽培试验报告.河北农业科技,1993,(8)
[93] 牟正国,我国农作制度的新进展.耕作与栽培,1993,(3)
[94] 慕美财,单玉珊,韩守良等.有关小麦超高产栽培的若干问题.中国农业科技导报,2000,2(3):38
[95] 农业部软科学委员会课题组.中国农业进入新阶段的特征和政策研究.农业经济问题,2001(1):3-8
[96] 彭琳.中国化肥施用与粮食生产的进程、前景与布局.农业现代化研究,2000,(1):14-18
[97] 彭珂珊.5000亿公斤粮食目标与耕地资源保护之探讨.许昌师专学报(社会科学版),1998(1):16-18
[98] 上官周平.农业专家系统及其应用.农业现代化研究,1994,15(5)
[99] 邵达三等.江苏省种植制度的现状与发展.江苏农学院学报,1989 10(2)
[100] 史俊通,刘孟君等.论复种与我国粮食生产的可持续发展.干旱地区农业研究,1998,(3):51-57
[101] 水保泽.中国研制成功先进的绿色抗旱保水剂.山东农业,2002,11:39
[102] 宋秉彝.适度规模经营与种植制度的变革.北京农业科学,1990,(1)
[103] 宋书宏,王文斌等.北方春大豆超高产技术研究.中国油料作物学报,2001,23(4)
[104] 苏惠国,进一步发挥我省粮食生产优势,江西农业大学学报,1992,2
[105] 速水佑次郎,神门善久.农业经济论(新版).中国农业出版社,2001:3-7
[106] 孙东升 吕春生,加入WTO对我国粮食安全的影响与对策,2001(4):13-16
[107] 孙巍等,中国农村种植业生产经济系统的灰色关联辩识与分析,农业系统科学与综合研究,1995.(2)
[108] 谭向勇,辛贤等.中国主要农产品市场分析.中国农业出版社,2001:111-119
[109] 汤起麟,浙江旱三熟量肥的分带轮作方式与效果的研究,耕作与栽培,1984,4。
[110] 唐仁建.从根本上提升我国农业竞争力.农业经济问题,2001(1):25-32
[111] 陶祖庚等.旱地四种四收年产1.7吨粮栽培技术初探.江苏农业科学,1993,3
[112] 佟屏亚.发展多熟种植建设高产农田—关于粮食持续增产的看法和建议.耕作与栽培,1998,(5)1-2
[113] 佟屏亚.试论耕作栽培学科的发展趋势和研究重点.耕作与栽培,1993,(4):1-7
[114] 佟屏亚.我国耕作栽培技术成就和发展趋势.耕作与栽培,1994,(4)
[115] 王光明.四川盆地丘陵旱地多熟制的效益研究及综合评价.耕作与栽培,1990,(3)
[116] 王广谦.中国经济增长波动与政策选择.中国财政经济出版社,1999,(5):30
[117] 王宏广.保持农业持续发展的战略与措施.科技日报,1998.4.11
[118] 王宏广.耕作学发展对策之浅见.耕作与栽培,1992,(1)
[119] 王宏广.我国不同耕作制度区农业资源与生活要素组合模式与特征研究.农业现代化研究
[120] 王宏广.中国农业问题潜力道路效益.农业出版社,1991
[121] 王宏燕,我国—熟耕作区黑龙江省耕作制度演变规律、趋势及对策研究,中国农业大学博士论文.1999
[122] 王家莹.国外耕作制度及其发展趋势.耕作与栽培,1990,(4):60
[123] 王建国,陈洪涛.对提高灰色预测模型精度的探讨.农业系统科学与综合研究,1997,13(1):14~16
[124] 王乃勇.高油大豆品种筛选及350公斤超高产试验设计方案.大豆通报,2003,(3):5
[125] 王璞,鲁来清,王润正等.河北吴桥小麦—玉米一年两作超高产探索.中国农业科技导报,2000,2(3):12
[126] 王树安,费槐林.中国吨粮田建设——全国吨粮田定位建档追踪研究.北京农业大学出版社,1994:11-20
[127] 王银铃.河南省农业增长方式转变的制约因素分析与建议.河南农业科学,1996,(9)
[128] 王应洛.系统工程理论、方法与应用.高等教育出版社,2000:163-170
[291] 王在德.间套复种耕作制度发展中的几问题.耕作与栽培,1983,6
[130] 王志敏,王树安.集约多熟超高产——21世纪我国粮食生产发展的重要途径.农业现代化研究,2000,21(4)
[131] 魏炳传.中国耕地资源与种植业持续发展.农牧情况研究,1993.(6)
[132] 魏蔚.我国二熟耕作区河南省耕作制度演变规律趋势与对策研究.中国农业大学博士论文,1999
[133] 温铁军.我国粮食供求的5次波动.科技导报,1999,1
[134] 文化等.京郊农业持续发展的新构思.农业现代化研究,1993,(9)
[135] 吴方卫.增长的关键与关键的增长——也谈农业增长方式的转变.农业经济问题,1998,(1):42-46
[136] 吴善堂等.旱地分带轮作三熟制种植结构与功能的研究.耕作与栽培,1991,1
[137] 吴永常,王道龙.中国主要粮食作物单产变化趋势及中长期预测.中国农业资源与区划,2002,(1):20-25
[138] 吴永常等.中国16亿人口高峰期粮食安全的技术对策.农业资源利用与区域可持续发展研究,2000:82—94
[139] 吴泽军.湖南省稻田玉米复种制度研究与推广综述.耕作与栽培,1989,(4)
[140] 夏爱林.新疆绿洲生态经济系统的多熟、集约、高效种植分析.耕作与栽培,1989,(2)
[141] 向邦豪等.马铃薯-杂交稻-再生稻复种模式的效益及技术.湖南农业科学,1998,5
[142] 项觉生.春玉米-秋豌豆-荠菜高产高效种植技术.农业科技通讯,1999,2
[143] 肖丽荣等.水稻高产栽培经济效益分析.中国水稻科学,增刊,1998,4
[144] 谢云.中国粮食生产对气候资源波动响应的敏感性分析.资源科学,1999(11):13-17
[145] 谢名洋,黄永春.基于神经网络的甘蔗产量预测系统.中国糖料,2001,(1):14-18
[146] 谢瑞芝,李潮海等.超高产夏玉米生长机制研究.河南农业大学学报,1999(3):33
[147] 邢廷铣.农牧结合种植制度模式及其发展战略.农业现代化研究,1999,1
[148] 熊凡.四川盆地旱地耕作制度必须走多熟多样带状间套复种轮作的道路.耕作与栽培,1987,(4)
[149] 熊凡等.小麦玉米甘薯旱三熟轮作换茬效益的研究.耕作与栽培,1990,2
[150] 徐翔.中国粮食需求与供给预测.南京农业大学学报.1993,(3):91-96
[151] 徐富贤,熊洪.水稻超高产栽培的理论与途径.绵阳经济技术高等专科学校学报,
2000,17(3)
[152] 徐恒永等.小麦玉米亩产吨粮群体光合性能与配套技术的研究,山东农业科学,1996,(1)
[153] 徐明时等.麦、玉米、薯三熟间套种植的密度探讨.浙江农业科学,1992,3
[154] 许轲,张洪程.黄淮地区小麦超高产主要栽培技术的初步研究.江苏农业科学,1998,(4):2
[155] 许月明,梁山.耕地损失的成因及对策研究.经济问题,1997,(11):41~44
[156] 严力蛟.立体农业与农业可持续发展,耕作与栽培,1995,6。
[157] 杨春峰.改革耕作制度的几个问题.耕作与栽培,1986,(5)
[158] 杨洪宾等.大穗型小麦大面积亩产600Kg栽培技术,农业科技通讯,1999,2
[159] 杨怀森.农作物间套种.河南科学技术出版社,1996
[160] 杨守仁.再论水稻超高产育种的理论与方法.沈阳农业大学学报,2003,34(5):321~323
[161] 叶贞琴.我国耕作制度改革的成就和今后改革的建议。农牧情报研究,1992,(6)
[162] 尹枝瑞.一熟制春玉米吉林省产区超高产田的理论基础与技术关键.中国农业科技导报,2000,2(3):33
[163] 于振文,田奇卓,潘庆民等.黄淮麦区冬小麦超高产栽培的理论与实践.作物学报,2002,28(5):577—585
[164] 余锦华等.经济预测方法程序和实例.中山大学出版社,1996
[165] 元生朝.论我国的立体集约农作制度.耕作与栽培,1989,6
[166] 袁雷.中国有望提前实现杂交稻大面积高产目标.山东农业,2002,(11):39
[167] 袁展汽.关于解决早稻压库问题的几点浅见.江西农业科技,1998,5.
[168] 早见雄次郎.Agricultural development: an international perspective. The John Hopkins University Press, Baltimore and London, 1980.
[169] 曾祥溶.万亩旱作一年三熟超吨粮.云南农业科技,1991.5
[170] 张道玺等.冬小麦600Kg配套技术指标的研究.山东农业科学,1996,(6)
[171] 张可飞,陈秀红,张华利.冬小麦连续4年亩产600Kg超高产稳产栽培技术.北京农业科学,1998,(12):16
[172] 张落成,吴楚材.我国21世纪粮食生产地区结构变化.科技导报,1997,(4):7-9
[173] 张瑞祥等.我国水稻杂种优势利用现状与对策.江西农业大学学报,1998,(2).
[174] 张维城,王志和,朱明哲等.小麦超高产栽培综合配套技术研究.河南职技师院学报,1998,(3):26
[175] 张训忠.作物间混作研究的方法:试验资料的收集与统计分析.耕作与栽培,1989,(5):53~56
[176] 章熙谷等,江苏几种主要多熟种植制度的经济生态效益及其生产弹性分析,耕作与栽培1989,(3)
[177] 赵金花等.黄淮南部麦区小麦品种主要性状的演变及选择标准分析.河南农业科学 1996,(10)
[178] 赵明等.论作物产量研究的“三合结构”模式.北京农业大学学报.1995,(4)
[179] 赵其国.我国农业发展和结构调整问题.安徽农学通报,2000,6(2):2-6
[180] 赵其国.我国农业可持续发展问题初探.农业现代化研究,1998,(5)
[181] 赵强基,郑建初.90年代江苏耕作制度面临的挑战与对策.耕作与栽培,1995,(1):12-16
[182] 赵强基.江苏十年来粮食生产发展与未来十年展望.江苏农业科学,1990,(5)
[183] 赵振斌.中国粮食生产持续发展的良性机制.陕西师范大学学报(自然科学版),1998,(6):96-99
[184] 郑景生,黄育民.中国稻作超高产的追求与实践.分子植物育种,2003,(5/6):585~596
[185] 郑景云,黄金火.我国近40年的粮食灾损评估.地理学报,1998,(11):501-510
[186] 中国耕作制度研究会编.面向21世纪的中国农作制.石家庄:河北科学技术出版社,1998
[187] 中国科学院国情分析小组.机遇与挑战.北京:科学出版社,1996:116-123
[188] 中国科学院国情分析小组.农业与发展—21世纪中国粮食与农业发展战略研究.沈阳:辽宁人民出版社,1997
[189] 中国科学院国情分析小组.生存与发展.北京:科学出版社,1989:14-29
[190] 中国科学院农业问题专家组.中国农业生产的问题、潜力与对策.中国科学报,1995/3/6
[191] 中国农业科研优先序列研究课题组.中国粮食单产潜力和科研优先序列研究.中国农村观察,1995,(3):1-13
[192] 中国中长期食物发展战略研究组.中国中长期食物发展战略研究.农业出版社,1991:23-30
[193] 周文富.小麦、玉米多元多熟制高产栽培技术.玉米科学,1997,5(1):59~61
[194] 周毓珩,张燕之,邹吉承等.辽宁省水稻小面积超高产栽培技术经验分析.Southwest China Journal of Agricultural Science, vol. 11 suppl. On Rice Cultivation
[195] 朱泽.中国粮食安全状况的实证研究.调研世界,1997(2)
[196] 朱杰,聂振邦,马晓河.21世纪中国粮食问题.中国计划出版社,1999:3-20
[197] 朱丕荣.持续农业是中国农业发展的必然趋势.中国人中资源与环境,1995,(1):52-54
[198] 邹超亚,陈颖.试论21世纪中国耕作学科研究与耕作制度改革的方向.耕作与栽培,1995,(3):9-11
[199] 邹超亚.贵州耕作制度改革的思路与优化模式的选择.耕作与栽培,1997,(2):1-4
[200] 邹应斌,黄见良,李合松等.双季稻超高产栽培技术研究.中国水稻科学,1998,12(增刊):4-8
[201] 邹应斌,周上游,唐起源.中国超级杂交水稻高产栽培研究的现状与展望.湖南农业大学学报(自然科学版),2003,29(1)
[202] 左天觉.中国的人口与粮食.中国科学报,1997/3/17:4
[203] Ahearn, Mary, Jet Yee, Eldon Ball, and Richard Nehring (1998). Agricultural Productivity in the United States. U.S. Department of Agriculture, Economic Research Service, AIB-740, January 1998.
[204] Albert K. A. Acquaye, Julian M. Alston, and Philip G. Pardey. Post-War Productivity Patterns in U.S. Agriculture: Influences of Aggregation Procedures in a State-Level Analysis. Amer.J. Agr. Econ. 85(1)(February 2003): 59-80.
[205] Ashok K. Mishra, Hisham S. EI-Osta, Mitchell J. Morehart, James D. Johnson, and Jeffrey W. Hopkins. Income, Wealth, and the Economic Well-Being of Farm Households. Farm Sector
Performance and Well-Being Branch, Resource Economics Division, Economic Research Service, U.S. Department of Agriculture. Agricultural Economic Report No. 812.
[206] Ball, V.E. Modeling Supply Response in a Muitiproduet Framework. American Journal of Agricultural Economics, 1988, 70(4): 813-825.
[207] Ball, V.E. Output, Input, and Productivity Measurement in U.S. Agriculture, 1948-79. American Journal of Agricultural Economics. 67(1985):475-486.
[208] Ball, V.E., F.M. Gollop, A. Kelly-Hawke, and G.P. Swinand. Patterns of State Productivity Growth in the U.S. Farm Sector: Linking State and Aggregate Models. American Journal of Agricultural Economics. 81(1999): 164-179.
[209] Bhuiyan, S.l. Water management in relation to production:ease study on rice. Outlook on Agriculture, 1992, 21:293-299
[210] Bickel, G., Carlson, S., and Nord, M. Household Food Security in the United States, 1995-1998, Advance Report. Alexandria, VA: Office of Analysis, Nutrition and Evaluation, Food and Nutrition Service, U.S. Department of Agriculture, 1999.
[211] Bickel, G., M. Andrews, and B. Klein. 1996. Measuring Food Security in the United States: A Supplement to the CPS. In Nutrition and Food Security in the Food Stamp Program. Edited by D. Hall and M. Stavrianos. Washington, D.C.: U.S. Department of Agriculture, Food and Consumer Service, Office of Analysis and Evaluation. January.
[212] Bouman.B.A. et al. Crop Growth Modeling in Agro-Ecological Zobation of Rice.Simulation and Systems Analysis for Rice. Production Report.Wageningen, Netherlands, 1994.
[213] Brown, Lester. Who will feed china? Wake up call for a small planet. New York: W.W.Norton and Co. 1995.
[214] Caldwell. R.M. &Hansen.J.W. Simulation of Multiple Cropping Systems with Crop. Sys.In Systems Approaches for Agricultural Development. Klumer Academic Publishers, 1993: 397-411
[215] Campbell C. C. Food insecurity: a nutritional outcome or a predictor variable. Journal of Nutrition. Mar; 121(3): 408-15. 1991.
[216] Carberry, P.S.et al.1989.Testing the CERES-Maize simulation model in a semi-srid tropical environment. Field Crops res., 1989,(20): 297-315.
[217] Carter, C.A., J. Chen, and B. Chu. Agricultural Productivity Growth in China: Farm Level versus National Measurement. Paper presented at the 1999 Trade Policy Research and Analysis Symposium of the IATRC, San Francisco, CA, 1999.
[218] Caswell, M.F. Irrigation technology adoption decisions: empirical evidence. The Economics and Management of Water and Drainage in Agriculture, Massachusetts: Kluwer Acadmic Publishers,1991:295—312.
[219] Chakravarti,A.K.,Vasanta ,B.,:Modified Delphi Methodology for Technology Forecasting:Case Study of Electronics and Information Technology in India. Technology Forecasting and Social Change, 1998,58(1-2): 155-165.
[220] Cheng Fang and John C. Beghin. Urban Demand for Edible Oils and Fats in China: Evidence from Household Survey Data. Working Paper 00-WP 245, August 2000.
[221] Chem, Wen S. Assessment of Demand Factors Affecting Global Food Security. Food Security in Asia: Economics and Policies, W.S. Chern, C.A. Carter, and S.Y. Shei(eds.), Edward Elgar, 2000.
[222] CIMMYT. World Maize Facts and Trends, 1993/1994,(52)
[223] Cohen B., and Burt M. Eliminating hunger: food security policy for the 1990s. Washington, D.C.: The Urban Institute, 1989.
[224] Cohen, B., Lerner, R., and Parry, J. Household Food Security in the United States, 1998 and 1999: Technical Report. Food Assistance and Nutrition Research Report. Washington, DC: Economic Research Service, U.S. Department of Agriculture, 2002.
[225] Colin A. Carter and Bryan Lohmar. Regional Specialization of China's Agricultural Production. Amer.J. Agr. Econ. 84 (3)(August 2002): 749-753.
[226] Crook, EW. How will china's 'rice bag policy 'affect grain roduction, distribution, prices and international trade? workshop on agricultural policies in china OECD Headquarters, 1996,(12): 12-13.
[227] CSSA Special Publication. Genetic contributions to Yield Grains of Five Major Crop Plants, Number 7:15-47;75-86.
[228] Deng.J.B. Potential for Systems Simulation in Farming Systems Research. In Systems Approaches for Agricultural Development. Kluwer Academic Pubishers, 1993:325-329
[229] Donahue, R.H.,R.H.Follett, and R.N.Tulloch. Our Soils and Their management. Danville Illinois, Interstate pub, Inc. 1990.
[230] Ehui, Simeon, Thomas Hertel, Allan Rae, and Alejandro Nin. "China: Will They Buy or Sell?" Choices, Third Quarter, 2000.
[231] ERS\USDA. Long term projections for international agriculture to 2005, ERS staff paper no.9612.Economic research service, united states department of agriculture, Washington, DC., 1996.
[232] F.W.T. Penning de Vries.Simalation and Systens Analysis for Rice Production (SARP)-Selected Papers Presented at Workshop. PUDOC, Wageningen, 1991.
[233] Fan, S. Effects of technological change and institutional reforn on production growth in Chinese agriculture. Amer.J.Agr.Economics, 1991, (73):266-275
[234] Feyerherm.A.M.G.M. Paulsen, and J.L.Sebaugh. Contribution of genetic improvement to recent wheat yield increases in the USA. Agron. J. 1984,76:985-990.
[235] Fox, T.A. Food security: the federal commitment and the role of The American Dietetic Association.Topics-clin-nutr. Frederick, Md: Aspen Publishers Inc. Sept 1998. 13(4):5-14.
[236] Fred Gale. China's Food and Agriculture: Issues for the 21st Century. Market and Trade Economics Division, Economic Research Service, U.S. Deparanent of Agriculture. Agriculture
Information Bulletin No. 775.
[237] Fuglie, Keith, et al. (1996). Agricultural Research and Development: Public and Private Investments Under Alternative Markets and Institutions. AER-735. U.S. Department of Agriculture, Economic Research Service.
[238] Georghiou, L. The UK Technology Foresight. Programme. Futures 1996, (28): 359—377.
[239] Gilbert E. Etc. Farming systems Research Within a Small Research Systems: research for Appropriate Models Agricultural Systems, 1990(33).
[240] Griliehes, Z. Hybrid corn: an exploration in the economics of technological change, Econometrica., 1957, 25(4):501—22
[241] Hargrov, W. L.(Ed.). Cover Crops for Clean Water. Ankeny, IA, Soil and Water Conservation Society, 1991:198
[242] Hayami, Y.and Ruttan, V.M. Agricultural Development: An International Perspective, Johns. Hopkins University Press, Baltimore, 1985.
[243] Hayes, Dermot. China's Role in World Livestock and Feed Grain Markets. Choices, First Quarter 1999, pp.25-28.
[244] Hsin-Hui Hsu and Fred Gale, coordinators. China: Agriculture in Transition. Market and Trade Economics Division, Economic Research Service, U.S.Department of Agriculture, Agriculture and Trade Report. WRS-01-2.
[245] Hunter Colby, Xinshen Diao, and Agapi Somwaru. Cross-Commodity Analysis of China's Grain Sector: Sources of Growth and Supply Response. U.S. Department of Agriculture, Economic Research Service, Market and Trade Economics Division. Technical Bulletin No. 1884.
[246] IRRI. Symposium on Potential Productivity of Field Crops Under Different Environment. Philippines: Los Bannos, 1983.
[247] Jeffery R. Williams etc. Risk Analysis of Tillage Alternatives with Government Programs Amer. J. Agr. Ecom. February, 1990.
[248] John M. Antic and Susan M. Capalbo. Econometric-process Models for Integrated Assessment of Ageicultural Production Systems. Amer.J. Agr. Econ. 83 (2)(May 2001): 389-401.
[249] Johnson, -D.G. The growth of demand will limit output growth for food over the next quarter century.Proc-Natl-Acad-Sci-U-S-A. Washington, D.C.: National Academy of Sciences. 1999, 96 (11): 5915-5920.
[250] Jones. PH. Agricultural applications of expert systems concepts Agricultural systems. 1989,(31)
[251] Kendall,-A.; Olson,-C.M.; Frongillo,-E.A.-Jr. Relationship of hunger and food insecurity to food availability and consumption.J-Am-Diet-Assoc. Chicago, IL: The American Dietetic Association. Oct 1996, 96(10): 1019-1024.
[252] Keulen,-H.-van; Kuyvenhoven,-A.; Ruben,-R.Sustainable land use and food security in developing countries: DLV's approach to policy support.Agric-syst. Oxford: Elsevier Science Ltd. 1998, 58(3): 285-307.
[253] Kral, D. M. (Managing Editor). Organic farming: Current technology and its role in a sustainable agriculture.ASA Special Publication No.46. Madison, WI, American Society of Agronomy, 1984.
[254] Kuo S. Huang. Forecasting Consumer Price Indexes for Food: A Demand Model Approach. Food and Rural Economies Division, Economic Research Service, U.S. Department of Agriculture. Technical Bulletin No.1883.
[255] Kuwahara, T. Technological Forecasting Activities in Japan. Technological Forecasting and Social Change, 1999, (60): 5—14.
[256] Lansigan F.P. and caumpang.R.M. Interactive Meteorological Data Simulation Program (IMSP) User's Guide.SARP Research Proceeding,Wageningen, 1993.
[257] Lester Brown. Who will feed China. world watch, September/October, 1994 9.10-19
[258] Liu, Bai-Yang, and Bong Joon Yoon. China's Economic Reform and Regional Productivity Differentials. Journal of Economic Development, Vol. 25, December 2000, pp. 23-41.
[259] Makhura, -M.T.The development of food security policy for South Africa(SAFSP): a consultative process. Food-policy. Oxford, UK.: Elsevier Science Ltd. 1998,23(6):571-585.
[260] Margriet Caswell, Keith Fuglie, Cassandra Ingrain, Sharon Jans, and Catherine Kascak. Adoption of Agricultural Production Practices: Lessons Learned from the U.S. Department of Agriculture Area Studies Project. Resource Economics Division, Economic Research Service, U.S. Department of Agriculture. Agricultural Economic, Report No.792.
[261] Martin, B.R. Foresight in Science and Technology.Technology Analysis&Strategic Management. 1995,7(2): 139-168.
[262] Martin, B.R. Technology Foresight: Capturing the Benefits from Science-Related Technologies. Research Evaluation, 1996,(6): 158-168.
[263] Mcmillan j j walley and zhu. The impact of china's economic reforms on agricultural productivity growth. Journal of political economy, 1989: 781-807.
[264] Michalski R.S et al. A computer-based advisory system for diagnosing soybean diseases in Illinios. Plant Dideases, 1983, 67: 459-463.
[265] Ohls, J., A. Prakash, L. Radbill, and A. Schirm. 1999. Methodological Findings and Early Conclusions based on the 1995, 1996, and 1997 Food Security Data. Working draft. Mathematica Policy Research, Inc. Princeton, NJ. 5 January.
[266] Penning de Vries, FWT, etal. Simulation of Eeophysiologieal Process of Growth in Several Annual Crops. Wageningen, the Netherlands, 1989.
[267] Pimentel, D. J. Houser, E. Preiss. Water resources: Agriculture, the environment, and society. Bioseience,1997,(47 b): 97-106.
[268] Postel, S. Last Oasis: Facing Water Scarcity. New York, W.W.Norton and Co. 1992.
[269] Postlewait, A., Parker, D. D. and Zilberman, D. The advent of biotechnology and technology transfer in agriculture'. Technological Forecasting and Social Change. 1993, 43(3/4):271-87.
[270] Rae, Allan, N. China's development, food consumption and livestock-feeds policy interaction.
workshop on agricultural policies on China, OECD, Paris,December 1996:12-13
[271] Regmi, Anita (ed.). Changing Structure of Global Food Consumption and Trade. Agriculture and Trade Report WRS-01-1, U.S. Department of Agriculture, Economic Research Service, May 2001.
[272] Riethoven.J.J.M. The SARP-SHELL, A Crop Growth Simulation Envirenment. Research Institute for Agrobiology and Soil Fertility. Wageningen, the Netherlands, 1994.
[273] Roger. Fox etc Expanding depolicy Dimension of Farming System Research. Agricultural Systems, 1990,(33).
[274] Rosegreant, M.W. Global food projections to 2020: Implications for investment. IFPRI: 2020 Vision Discussion Paper, 1995, (5).
[275] Rowe, G., Wright, G, and Bogler, F. Delphi—A Revaluation of Research and Theory Technological Forecasting and Social Change. 1991, (30): 235—251.
[276] Rozelle, scott jikun huang and mark rosegrant, 1996 why china will not starve the world. Choices first quarter: 18-24.
[277] Rozelle, S., and M.W.Rosegrant. China'past, present, and future food economy: can China continue de meet the challenges? Food policy 1997, 22(3): 191-200.
[278] Shin T. Using Delphi for a Long-Range Technology Forecasting and Assessing Directions of Future R&D Activities: The Korean Exercise. Technological Forecasting and Social Change 1998,58(1/2):125—154.
[279] Shin.T.and Kim. H. Research Foresight Activities in Korea and Technological Development S&T Policies in National R&D Program. Technological Forecasting and Social Change, 1994,45(1):31—45.
[280] Smil Vaclav. Is there enough Chinese food? The New York Review, 1996: 32-34.
[281] Smith,-L.C. Can FAO's measure of chronic undernourishment be strengthened.Food-policy. Oxford, UK.: Elsevier Science Ltd. Oct 1998, 23(5): 425-445.
[282] Solow, R. An Almost Practical Step Towards Sustainability, Resources For the Future. An Invited Lecture on the Occasion of the Fortieth Anniversary of Resources For the Future, 1992.
[283] Statistical Considerations for the USDA Food Insecurity Index. Jean D. Opsomer, Helen H. Jensen, Sarah M. Nusser, Dorin Drignei, and Yasuo Amemiya. Working Paper 02-WP 307, June 2002
[284] Stone, Bruce. Developments in agricultural technology. China Quarterly 116. December 1998.
[285] Tang J Y. Hopper-an expert system for forecasting the risk of white-backed. Crop protecnion 1994,13(6).
[286] Tuan, francis C. Food and agriculture issues in china. Tokyo: Paper presented at the international symposium on stable supply of food and supply agriculturaldevelopment in Asia region, Feb1997: 13-14.
[287] Vab keylaen &Wolf J. Modeling of agricultural production: Weather, Soil and Crops. Center for Agricultural Publishing and Documentation, Wageningen, 1986.
[288] Van evert, KEK., Campbell, GS. CropSyst: A Collection of Object-Oriented Simulation Models of Agricultural Systems. Agronomy Journal. 1994, 86.March-April.
[289] Vilaithong, T. Future Key Technologies for Thailand: A Study Project in APEC, NSTDA. Technology Foresight 2 nd ed. NSTDA, Bangkok, 1997: 141-145.
[290] Wu, Yanrui. China's Consumer Revolution: The Emerging Patterns of Wealth and Expenditure. Edward Elgar, 1999.
[291] Yanga, D. M. Technology Foresight Program in the Philippines in. APEC, MSTE, NSTDA, Technology Foresight, 2 nd ed, NSTDA, Bangkok, 1997:131-134.
[292] Zandstra H G. A methodology for on- farm cropping system research. IRRI, 1981:17-18
[2] 曹晔,冯利民,宋学功.改变耕作制度,促进农业增产增收.农业技术经济,1996,(5):47-50
[3] 陈阜.我国农作物栽培与耕作制度科技新进展.耕作与栽培,2001,(6):1-2
[4] 陈吉元,韩俊.人口大国的农业增长.上海:上海远东出版社,1996:52-56
[5] 陈胜勇.多熟间套、粮经兼顾:麦菜瓜薯多熟耕制探讨与实践.耕作与栽培,1989(5):14~15
[6] 陈印军等,对南方双季稻主产区“玉米替代”的反思.中国农村经济,1999,(2)
[7] 陈雨海.建国以来山东省种植制度演变历史及其规律的研究.山东农业科学,1993,(6)
[8] 陈雨海等.山东省复种历史演变及其发展规律,耕作与栽培,1994,(3):1-6
[9] 程在全,宋令荣,黄兴奇等.高产和超高产水稻产量差异比较及其原因探索.Southwest China Journal of Agricultural Science Vol.10,No.2
[10] 戴小枫等.养活2030年16亿人口需要新的农业科技革命.中国农学通报.1998,14(2):7-9
[11] 党安荣,阎守邕,王世新.GIS在中国粮食单产空间变化研究中的应用.地理科学,1999(6):205-210
[12] 党安荣,阎守邕,周艺.地理信息系统支持下的中国粮食生产潜力研究,遥感学报,1998(8):225-229
[13] 党安荣等.建国以来我国粮食单产的时序变化研究.中国农村观察,1998(3):7-10
[14] 党安荣等.中国粮食生产发展的时序变化研究,地理研究,1998,17(3):242-24
[15] 段红平.我国三熟耕作区湖南省耕作制度演变规律、趋势及对策研究.中国农业大学博士论文,2000
[16] 段佐亮.公元2020年中国农村经济、人口、粮食和耕地问题研究.1993,(3):10-13
[17] 逢焕成.一种集约多熟超高产模式的探讨—河南扶沟县—麦三玉的理论与技术.中国农业大学博士论文,1996
[18] 高立平.试论中国农业的国际化.首都师范大学学报(社会科学版),1998(5):20-27
[19] 高旺盛.耕作制度改革回顾与新世纪展望.耕作与栽培,1999,(1)
[20] 关锐捷.半个世纪的中国农业.南方日报出版社,1999:166-172
[21] 郭书田.中国粮食:多角度研究与思考.北京:农业出版社,1990
[22] 郭向东.区域农业发展专家决策支持系统设计.中国农业大学博士论文,1993
[23] 郭占银,李跃进.论农业现代化过程中常规农业向持续农业的转变.农业现代化研究,1999,20(3):165-168
[24] 韩湘铃,刘巽浩.不同熟制生产力研究.北京农业大学报,1992,(4)
[25] 韩湘铃,刘巽浩.黄淮海地区—熟与两熟制生产力的研究.作物学报,1986,2(2)
[26] 何信生.农田作物布局模型化过程的讨论.耕作与栽培,1984,(3)
[27] 洪丙夏.我国耕作制度的发展方向与对策,耕作与栽培,1995,(2)
[28] 候文正,张树德,张鹏.耕作制度改革与基本农田建设必须同步进行.山西水土保持科
技,1991(1):42~43
[29] 胡鞍钢.中国走向二十一世纪的十大关系.哈尔滨:黑龙江教育出版社,1995:136-169
[30] 胡志全.中国二熟耕作区耕作制度演变规律与食物安全对策研究.中国农业大学博士论文,2001
[31] 黄国勤等著.中国南方耕作制度.北京:中国农业出版社,1997
[32] 黄季琨,斯.罗泽尔.迈向21世纪的中国粮食经济.北京:中国农业出版社,1998
[33] 黄季琨.中国农业政策、发展及食物安全.中外著名专家论农业,中国农业大学出版社,1998:124-148
[34] 黄亚昌,苏连庆等.闽南粮食三熟超高产栽培研究初报,中国农业科技导报,2000,2(3)
[35] 黄耀祥,林青山.水稻超高产特优质株型模式的构想和育种实践,广东农业科学,1994,(4)
[36] 冀崇峰.未来我国粮食供求总量、结构、区域平衡问题研究.农业经济问题,2000(3):15-19
[37] 姜洁等.中国玉米生产区域比较优势的模型分析.农业现代化研究,1998,1
[38] 蒋建平.食物、营养与现代农业发展.中国科学技术出版社.1999:33-44。
[39] 金涛.西藏冬小麦超高产栽培的几个问题初探.西藏科技,1999(5)
[40] 金石桥.我国耕作制度对农业发展做出巨大贡献.中国农技推广,1999,5
[41] 康晓光.中国进口粮食有害吗.国际经济评论,1997(1-2):19-23
[42] 康晓光.中国人怎样养活自己—中国粮食长期发展战略研究.广西教育出版社,1996
[43] 柯炳生.粮食市场与政策.北京:中国农业出版社,1995:98-108
[44] 莱斯特·R·布朗.生态经济——有利于地球的经济构想.东方出版社:161-183
[45] 兰林旺等.小麦节水高产研究.北京农业大学出版社,1995
[46] 雷书彦.河北省耕作制度改革40年的回顾与展望.中国农史,1991(4)
[47] 李伯航等.黄淮海玉米高产理论与技术.学术书刊出版社,1990
[48] 李潮海.国外和我国黄淮地区夏玉米高产栽培技术概述.河南农业科学,1992,(10)
[49] 李春生.粮食生产灰色控制分析.作物研究,1998,(2)
[50] 李大祥.国外耕作制度研究的常用经济评价方法.耕作与栽培,1990(6):8-11
[51] 李大祥.国外耕作制度研究时常用经济评作方法.耕作与栽培,1990,6
[52] 李道亮,傅泽田.农业结构调整时期我国粮食生产能力储备的若干对策.农业经济问题,2001(4):10-16
[53] 李道亮,傅泽田.我国可持续食物安全的实证研究.中国农业大学学报,2000,5(4):11~14
[54] 李道亮,傅泽田.中国可持续食物安全的综合评判.农业技术经济,2000(3):1-6
[55] 李福祥,王少丽.中国主要产粮区洪涝灾害与粮食增产潜力.中国减灾,2000(5):22-24
[56] 李培林,朱庆芳.中国小康社会.社会科学文献出版社,2003:89-103
[57] 李萍萍.试论三高农业与耕作学学科体系建设.耕作与栽培,1994,(1):1-3
[58] 李荣生.论资源节约型农业结构.资源科学,1999,21(2):18-23
[59] 李少昆,刘景德等.新疆玉米高产栽培的实践与探索。石河子大学学报(自然科学版),1999-12
[60] 李少昆,吕新.新疆春玉米超高产栽培实践与探索.中国农业科技导报,2000,2(3):43
[61] 李万明,曹其芳.我国农业可持续发展的战略思考.农业经济问题,2001(4):50-53
[62] 李一平等.中、高产田上升为吨粮田的潜力、效益及途径.耕作与栽培,1995;(5):6-16
[63] 李远铸.耕作技术进步拓宽了农业资源利用途径.农业技术经济,1991(2):32~35
[64] 厉为民,黎淑英等.世界粮食安全概论.北京:中国人民大学出版社,1988:5-6
[65] 梁文举.专家系统及其在农业自然资源管理中的应用.农村生态环境,1996,12(3)
[66] 林毅夫.我国主要粮食作物单产潜力与增产前景.中国农业资源与区划,1995,(3):4-7
[67] 林忠辉等.中国不同区域化肥资源利用特征与合理配置.资源科学,1998(9):26-31
[68] 刘更另.保护耕地、培肥土壤、增产粮食.中国科学报1996年10月28日第4版
[69] 刘景辉,王树安,王志敏.中国粮食单产增长规律及预测.耕作与栽培,2001,(5):1-4
[70] 刘顺卿.一年三种三收优质高效通用型种植模式的实践.河南农业科学,1993,(6)
[71] 刘巽浩,高旺盛,陈阜,论21世纪中国多熟种植潜力与方向.面向21世纪的中国农作制(论文集),石家庄:河北科学技术出版社,1998:15-16
[72] 刘巽浩,韩湘铃.中国的多熟种植.农业出版社,1980
[73] 刘巽浩,牟正国等.中国耕作制度.农业出版社,1993
[74] 刘巽浩.耕作制度.农业出版社,1982
[75] 刘巽浩.论21世纪中国农业可持续发展.耕作与栽培,1995,(1):1-8
[76] 刘巽浩.我国耕作制度发展展望.作物杂志,1992(2):5-8
[77] 刘灶长,钟树福.耕作制度的层次分析和模糊综合评价.江西农业大学学报,1990,12(1):65-72
[78] 刘志澄.21世纪是我国农业迈向现代化的世纪.农业经济问题,2001(1):20-24
[79] 刘志澄.对我国未来的粮食发展问题浅议.中国农业资源与区划,1995,(3):8-11
[80] 卢良恕.21世纪农业科学技术的发展趋势.世界经济,1999(1):43-47
[81] 鲁奇.中国耕地资源开发、保护与粮食安全保障问题.资源科学,1999(11):5-8
[82] 陆建飞,刘锋,陈波.江苏省五大作物超高产栽培的技术经济分析,农业技术经济,2002-6
[83] 陆建飞等.市场经济下种植制度改革与发展的探讨.耕作与栽培,1997,(3):1-4
[84] 罗赓彤,刘胜利,孔新等.春大豆中早熟种黑农40单产4899Kg/hm~2的试验研究,新疆农业科学,2001,38(3):123~125
[85] 罗赓彤,刘胜利,孔新等.实现达到超高产的品种与栽培技术.新疆农业科学,2003,40(1):28-30
[86] 罗赓彤,占勇,刘胜利等.新大豆1号和石大豆1号高产记录的创造.大豆科学,2001,20(4)
[87] 罗兴录.不同复种方式生产力及生态经济效益研究.耕作与栽培,1995,(3):7-9
[88] 马国辉,张玉烛,何英豪等.三熟制双季稻超高产栽培理论与技术研究——早稻高产栽培技术及效益分析.作物研究,1998,1
[89] 马国辉.三熟制双季稻超高产栽培理论与技术研究.中国农业科技导报,2001,3(4):20
[90] 马景勇,凌风楼,禹航等.我国水稻超高产育种的理论与实践.吉林农业大学学报,1994,12(16)
[91] 马新民,陆建飞.论种植制度的改革与发展.干旱地区农业研究,1995,13(2):1~6
[92] 牟桂华等.六种六收主体栽培试验报告.河北农业科技,1993,(8)
[93] 牟正国,我国农作制度的新进展.耕作与栽培,1993,(3)
[94] 慕美财,单玉珊,韩守良等.有关小麦超高产栽培的若干问题.中国农业科技导报,2000,2(3):38
[95] 农业部软科学委员会课题组.中国农业进入新阶段的特征和政策研究.农业经济问题,2001(1):3-8
[96] 彭琳.中国化肥施用与粮食生产的进程、前景与布局.农业现代化研究,2000,(1):14-18
[97] 彭珂珊.5000亿公斤粮食目标与耕地资源保护之探讨.许昌师专学报(社会科学版),1998(1):16-18
[98] 上官周平.农业专家系统及其应用.农业现代化研究,1994,15(5)
[99] 邵达三等.江苏省种植制度的现状与发展.江苏农学院学报,1989 10(2)
[100] 史俊通,刘孟君等.论复种与我国粮食生产的可持续发展.干旱地区农业研究,1998,(3):51-57
[101] 水保泽.中国研制成功先进的绿色抗旱保水剂.山东农业,2002,11:39
[102] 宋秉彝.适度规模经营与种植制度的变革.北京农业科学,1990,(1)
[103] 宋书宏,王文斌等.北方春大豆超高产技术研究.中国油料作物学报,2001,23(4)
[104] 苏惠国,进一步发挥我省粮食生产优势,江西农业大学学报,1992,2
[105] 速水佑次郎,神门善久.农业经济论(新版).中国农业出版社,2001:3-7
[106] 孙东升 吕春生,加入WTO对我国粮食安全的影响与对策,2001(4):13-16
[107] 孙巍等,中国农村种植业生产经济系统的灰色关联辩识与分析,农业系统科学与综合研究,1995.(2)
[108] 谭向勇,辛贤等.中国主要农产品市场分析.中国农业出版社,2001:111-119
[109] 汤起麟,浙江旱三熟量肥的分带轮作方式与效果的研究,耕作与栽培,1984,4。
[110] 唐仁建.从根本上提升我国农业竞争力.农业经济问题,2001(1):25-32
[111] 陶祖庚等.旱地四种四收年产1.7吨粮栽培技术初探.江苏农业科学,1993,3
[112] 佟屏亚.发展多熟种植建设高产农田—关于粮食持续增产的看法和建议.耕作与栽培,1998,(5)1-2
[113] 佟屏亚.试论耕作栽培学科的发展趋势和研究重点.耕作与栽培,1993,(4):1-7
[114] 佟屏亚.我国耕作栽培技术成就和发展趋势.耕作与栽培,1994,(4)
[115] 王光明.四川盆地丘陵旱地多熟制的效益研究及综合评价.耕作与栽培,1990,(3)
[116] 王广谦.中国经济增长波动与政策选择.中国财政经济出版社,1999,(5):30
[117] 王宏广.保持农业持续发展的战略与措施.科技日报,1998.4.11
[118] 王宏广.耕作学发展对策之浅见.耕作与栽培,1992,(1)
[119] 王宏广.我国不同耕作制度区农业资源与生活要素组合模式与特征研究.农业现代化研究
[120] 王宏广.中国农业问题潜力道路效益.农业出版社,1991
[121] 王宏燕,我国—熟耕作区黑龙江省耕作制度演变规律、趋势及对策研究,中国农业大学博士论文.1999
[122] 王家莹.国外耕作制度及其发展趋势.耕作与栽培,1990,(4):60
[123] 王建国,陈洪涛.对提高灰色预测模型精度的探讨.农业系统科学与综合研究,1997,13(1):14~16
[124] 王乃勇.高油大豆品种筛选及350公斤超高产试验设计方案.大豆通报,2003,(3):5
[125] 王璞,鲁来清,王润正等.河北吴桥小麦—玉米一年两作超高产探索.中国农业科技导报,2000,2(3):12
[126] 王树安,费槐林.中国吨粮田建设——全国吨粮田定位建档追踪研究.北京农业大学出版社,1994:11-20
[127] 王银铃.河南省农业增长方式转变的制约因素分析与建议.河南农业科学,1996,(9)
[128] 王应洛.系统工程理论、方法与应用.高等教育出版社,2000:163-170
[291] 王在德.间套复种耕作制度发展中的几问题.耕作与栽培,1983,6
[130] 王志敏,王树安.集约多熟超高产——21世纪我国粮食生产发展的重要途径.农业现代化研究,2000,21(4)
[131] 魏炳传.中国耕地资源与种植业持续发展.农牧情况研究,1993.(6)
[132] 魏蔚.我国二熟耕作区河南省耕作制度演变规律趋势与对策研究.中国农业大学博士论文,1999
[133] 温铁军.我国粮食供求的5次波动.科技导报,1999,1
[134] 文化等.京郊农业持续发展的新构思.农业现代化研究,1993,(9)
[135] 吴方卫.增长的关键与关键的增长——也谈农业增长方式的转变.农业经济问题,1998,(1):42-46
[136] 吴善堂等.旱地分带轮作三熟制种植结构与功能的研究.耕作与栽培,1991,1
[137] 吴永常,王道龙.中国主要粮食作物单产变化趋势及中长期预测.中国农业资源与区划,2002,(1):20-25
[138] 吴永常等.中国16亿人口高峰期粮食安全的技术对策.农业资源利用与区域可持续发展研究,2000:82—94
[139] 吴泽军.湖南省稻田玉米复种制度研究与推广综述.耕作与栽培,1989,(4)
[140] 夏爱林.新疆绿洲生态经济系统的多熟、集约、高效种植分析.耕作与栽培,1989,(2)
[141] 向邦豪等.马铃薯-杂交稻-再生稻复种模式的效益及技术.湖南农业科学,1998,5
[142] 项觉生.春玉米-秋豌豆-荠菜高产高效种植技术.农业科技通讯,1999,2
[143] 肖丽荣等.水稻高产栽培经济效益分析.中国水稻科学,增刊,1998,4
[144] 谢云.中国粮食生产对气候资源波动响应的敏感性分析.资源科学,1999(11):13-17
[145] 谢名洋,黄永春.基于神经网络的甘蔗产量预测系统.中国糖料,2001,(1):14-18
[146] 谢瑞芝,李潮海等.超高产夏玉米生长机制研究.河南农业大学学报,1999(3):33
[147] 邢廷铣.农牧结合种植制度模式及其发展战略.农业现代化研究,1999,1
[148] 熊凡.四川盆地旱地耕作制度必须走多熟多样带状间套复种轮作的道路.耕作与栽培,1987,(4)
[149] 熊凡等.小麦玉米甘薯旱三熟轮作换茬效益的研究.耕作与栽培,1990,2
[150] 徐翔.中国粮食需求与供给预测.南京农业大学学报.1993,(3):91-96
[151] 徐富贤,熊洪.水稻超高产栽培的理论与途径.绵阳经济技术高等专科学校学报,
2000,17(3)
[152] 徐恒永等.小麦玉米亩产吨粮群体光合性能与配套技术的研究,山东农业科学,1996,(1)
[153] 徐明时等.麦、玉米、薯三熟间套种植的密度探讨.浙江农业科学,1992,3
[154] 许轲,张洪程.黄淮地区小麦超高产主要栽培技术的初步研究.江苏农业科学,1998,(4):2
[155] 许月明,梁山.耕地损失的成因及对策研究.经济问题,1997,(11):41~44
[156] 严力蛟.立体农业与农业可持续发展,耕作与栽培,1995,6。
[157] 杨春峰.改革耕作制度的几个问题.耕作与栽培,1986,(5)
[158] 杨洪宾等.大穗型小麦大面积亩产600Kg栽培技术,农业科技通讯,1999,2
[159] 杨怀森.农作物间套种.河南科学技术出版社,1996
[160] 杨守仁.再论水稻超高产育种的理论与方法.沈阳农业大学学报,2003,34(5):321~323
[161] 叶贞琴.我国耕作制度改革的成就和今后改革的建议。农牧情报研究,1992,(6)
[162] 尹枝瑞.一熟制春玉米吉林省产区超高产田的理论基础与技术关键.中国农业科技导报,2000,2(3):33
[163] 于振文,田奇卓,潘庆民等.黄淮麦区冬小麦超高产栽培的理论与实践.作物学报,2002,28(5):577—585
[164] 余锦华等.经济预测方法程序和实例.中山大学出版社,1996
[165] 元生朝.论我国的立体集约农作制度.耕作与栽培,1989,6
[166] 袁雷.中国有望提前实现杂交稻大面积高产目标.山东农业,2002,(11):39
[167] 袁展汽.关于解决早稻压库问题的几点浅见.江西农业科技,1998,5.
[168] 早见雄次郎.Agricultural development: an international perspective. The John Hopkins University Press, Baltimore and London, 1980.
[169] 曾祥溶.万亩旱作一年三熟超吨粮.云南农业科技,1991.5
[170] 张道玺等.冬小麦600Kg配套技术指标的研究.山东农业科学,1996,(6)
[171] 张可飞,陈秀红,张华利.冬小麦连续4年亩产600Kg超高产稳产栽培技术.北京农业科学,1998,(12):16
[172] 张落成,吴楚材.我国21世纪粮食生产地区结构变化.科技导报,1997,(4):7-9
[173] 张瑞祥等.我国水稻杂种优势利用现状与对策.江西农业大学学报,1998,(2).
[174] 张维城,王志和,朱明哲等.小麦超高产栽培综合配套技术研究.河南职技师院学报,1998,(3):26
[175] 张训忠.作物间混作研究的方法:试验资料的收集与统计分析.耕作与栽培,1989,(5):53~56
[176] 章熙谷等,江苏几种主要多熟种植制度的经济生态效益及其生产弹性分析,耕作与栽培1989,(3)
[177] 赵金花等.黄淮南部麦区小麦品种主要性状的演变及选择标准分析.河南农业科学 1996,(10)
[178] 赵明等.论作物产量研究的“三合结构”模式.北京农业大学学报.1995,(4)
[179] 赵其国.我国农业发展和结构调整问题.安徽农学通报,2000,6(2):2-6
[180] 赵其国.我国农业可持续发展问题初探.农业现代化研究,1998,(5)
[181] 赵强基,郑建初.90年代江苏耕作制度面临的挑战与对策.耕作与栽培,1995,(1):12-16
[182] 赵强基.江苏十年来粮食生产发展与未来十年展望.江苏农业科学,1990,(5)
[183] 赵振斌.中国粮食生产持续发展的良性机制.陕西师范大学学报(自然科学版),1998,(6):96-99
[184] 郑景生,黄育民.中国稻作超高产的追求与实践.分子植物育种,2003,(5/6):585~596
[185] 郑景云,黄金火.我国近40年的粮食灾损评估.地理学报,1998,(11):501-510
[186] 中国耕作制度研究会编.面向21世纪的中国农作制.石家庄:河北科学技术出版社,1998
[187] 中国科学院国情分析小组.机遇与挑战.北京:科学出版社,1996:116-123
[188] 中国科学院国情分析小组.农业与发展—21世纪中国粮食与农业发展战略研究.沈阳:辽宁人民出版社,1997
[189] 中国科学院国情分析小组.生存与发展.北京:科学出版社,1989:14-29
[190] 中国科学院农业问题专家组.中国农业生产的问题、潜力与对策.中国科学报,1995/3/6
[191] 中国农业科研优先序列研究课题组.中国粮食单产潜力和科研优先序列研究.中国农村观察,1995,(3):1-13
[192] 中国中长期食物发展战略研究组.中国中长期食物发展战略研究.农业出版社,1991:23-30
[193] 周文富.小麦、玉米多元多熟制高产栽培技术.玉米科学,1997,5(1):59~61
[194] 周毓珩,张燕之,邹吉承等.辽宁省水稻小面积超高产栽培技术经验分析.Southwest China Journal of Agricultural Science, vol. 11 suppl. On Rice Cultivation
[195] 朱泽.中国粮食安全状况的实证研究.调研世界,1997(2)
[196] 朱杰,聂振邦,马晓河.21世纪中国粮食问题.中国计划出版社,1999:3-20
[197] 朱丕荣.持续农业是中国农业发展的必然趋势.中国人中资源与环境,1995,(1):52-54
[198] 邹超亚,陈颖.试论21世纪中国耕作学科研究与耕作制度改革的方向.耕作与栽培,1995,(3):9-11
[199] 邹超亚.贵州耕作制度改革的思路与优化模式的选择.耕作与栽培,1997,(2):1-4
[200] 邹应斌,黄见良,李合松等.双季稻超高产栽培技术研究.中国水稻科学,1998,12(增刊):4-8
[201] 邹应斌,周上游,唐起源.中国超级杂交水稻高产栽培研究的现状与展望.湖南农业大学学报(自然科学版),2003,29(1)
[202] 左天觉.中国的人口与粮食.中国科学报,1997/3/17:4
[203] Ahearn, Mary, Jet Yee, Eldon Ball, and Richard Nehring (1998). Agricultural Productivity in the United States. U.S. Department of Agriculture, Economic Research Service, AIB-740, January 1998.
[204] Albert K. A. Acquaye, Julian M. Alston, and Philip G. Pardey. Post-War Productivity Patterns in U.S. Agriculture: Influences of Aggregation Procedures in a State-Level Analysis. Amer.J. Agr. Econ. 85(1)(February 2003): 59-80.
[205] Ashok K. Mishra, Hisham S. EI-Osta, Mitchell J. Morehart, James D. Johnson, and Jeffrey W. Hopkins. Income, Wealth, and the Economic Well-Being of Farm Households. Farm Sector
Performance and Well-Being Branch, Resource Economics Division, Economic Research Service, U.S. Department of Agriculture. Agricultural Economic Report No. 812.
[206] Ball, V.E. Modeling Supply Response in a Muitiproduet Framework. American Journal of Agricultural Economics, 1988, 70(4): 813-825.
[207] Ball, V.E. Output, Input, and Productivity Measurement in U.S. Agriculture, 1948-79. American Journal of Agricultural Economics. 67(1985):475-486.
[208] Ball, V.E., F.M. Gollop, A. Kelly-Hawke, and G.P. Swinand. Patterns of State Productivity Growth in the U.S. Farm Sector: Linking State and Aggregate Models. American Journal of Agricultural Economics. 81(1999): 164-179.
[209] Bhuiyan, S.l. Water management in relation to production:ease study on rice. Outlook on Agriculture, 1992, 21:293-299
[210] Bickel, G., Carlson, S., and Nord, M. Household Food Security in the United States, 1995-1998, Advance Report. Alexandria, VA: Office of Analysis, Nutrition and Evaluation, Food and Nutrition Service, U.S. Department of Agriculture, 1999.
[211] Bickel, G., M. Andrews, and B. Klein. 1996. Measuring Food Security in the United States: A Supplement to the CPS. In Nutrition and Food Security in the Food Stamp Program. Edited by D. Hall and M. Stavrianos. Washington, D.C.: U.S. Department of Agriculture, Food and Consumer Service, Office of Analysis and Evaluation. January.
[212] Bouman.B.A. et al. Crop Growth Modeling in Agro-Ecological Zobation of Rice.Simulation and Systems Analysis for Rice. Production Report.Wageningen, Netherlands, 1994.
[213] Brown, Lester. Who will feed china? Wake up call for a small planet. New York: W.W.Norton and Co. 1995.
[214] Caldwell. R.M. &Hansen.J.W. Simulation of Multiple Cropping Systems with Crop. Sys.In Systems Approaches for Agricultural Development. Klumer Academic Publishers, 1993: 397-411
[215] Campbell C. C. Food insecurity: a nutritional outcome or a predictor variable. Journal of Nutrition. Mar; 121(3): 408-15. 1991.
[216] Carberry, P.S.et al.1989.Testing the CERES-Maize simulation model in a semi-srid tropical environment. Field Crops res., 1989,(20): 297-315.
[217] Carter, C.A., J. Chen, and B. Chu. Agricultural Productivity Growth in China: Farm Level versus National Measurement. Paper presented at the 1999 Trade Policy Research and Analysis Symposium of the IATRC, San Francisco, CA, 1999.
[218] Caswell, M.F. Irrigation technology adoption decisions: empirical evidence. The Economics and Management of Water and Drainage in Agriculture, Massachusetts: Kluwer Acadmic Publishers,1991:295—312.
[219] Chakravarti,A.K.,Vasanta ,B.,:Modified Delphi Methodology for Technology Forecasting:Case Study of Electronics and Information Technology in India. Technology Forecasting and Social Change, 1998,58(1-2): 155-165.
[220] Cheng Fang and John C. Beghin. Urban Demand for Edible Oils and Fats in China: Evidence from Household Survey Data. Working Paper 00-WP 245, August 2000.
[221] Chem, Wen S. Assessment of Demand Factors Affecting Global Food Security. Food Security in Asia: Economics and Policies, W.S. Chern, C.A. Carter, and S.Y. Shei(eds.), Edward Elgar, 2000.
[222] CIMMYT. World Maize Facts and Trends, 1993/1994,(52)
[223] Cohen B., and Burt M. Eliminating hunger: food security policy for the 1990s. Washington, D.C.: The Urban Institute, 1989.
[224] Cohen, B., Lerner, R., and Parry, J. Household Food Security in the United States, 1998 and 1999: Technical Report. Food Assistance and Nutrition Research Report. Washington, DC: Economic Research Service, U.S. Department of Agriculture, 2002.
[225] Colin A. Carter and Bryan Lohmar. Regional Specialization of China's Agricultural Production. Amer.J. Agr. Econ. 84 (3)(August 2002): 749-753.
[226] Crook, EW. How will china's 'rice bag policy 'affect grain roduction, distribution, prices and international trade? workshop on agricultural policies in china OECD Headquarters, 1996,(12): 12-13.
[227] CSSA Special Publication. Genetic contributions to Yield Grains of Five Major Crop Plants, Number 7:15-47;75-86.
[228] Deng.J.B. Potential for Systems Simulation in Farming Systems Research. In Systems Approaches for Agricultural Development. Kluwer Academic Pubishers, 1993:325-329
[229] Donahue, R.H.,R.H.Follett, and R.N.Tulloch. Our Soils and Their management. Danville Illinois, Interstate pub, Inc. 1990.
[230] Ehui, Simeon, Thomas Hertel, Allan Rae, and Alejandro Nin. "China: Will They Buy or Sell?" Choices, Third Quarter, 2000.
[231] ERS\USDA. Long term projections for international agriculture to 2005, ERS staff paper no.9612.Economic research service, united states department of agriculture, Washington, DC., 1996.
[232] F.W.T. Penning de Vries.Simalation and Systens Analysis for Rice Production (SARP)-Selected Papers Presented at Workshop. PUDOC, Wageningen, 1991.
[233] Fan, S. Effects of technological change and institutional reforn on production growth in Chinese agriculture. Amer.J.Agr.Economics, 1991, (73):266-275
[234] Feyerherm.A.M.G.M. Paulsen, and J.L.Sebaugh. Contribution of genetic improvement to recent wheat yield increases in the USA. Agron. J. 1984,76:985-990.
[235] Fox, T.A. Food security: the federal commitment and the role of The American Dietetic Association.Topics-clin-nutr. Frederick, Md: Aspen Publishers Inc. Sept 1998. 13(4):5-14.
[236] Fred Gale. China's Food and Agriculture: Issues for the 21st Century. Market and Trade Economics Division, Economic Research Service, U.S. Deparanent of Agriculture. Agriculture
Information Bulletin No. 775.
[237] Fuglie, Keith, et al. (1996). Agricultural Research and Development: Public and Private Investments Under Alternative Markets and Institutions. AER-735. U.S. Department of Agriculture, Economic Research Service.
[238] Georghiou, L. The UK Technology Foresight. Programme. Futures 1996, (28): 359—377.
[239] Gilbert E. Etc. Farming systems Research Within a Small Research Systems: research for Appropriate Models Agricultural Systems, 1990(33).
[240] Griliehes, Z. Hybrid corn: an exploration in the economics of technological change, Econometrica., 1957, 25(4):501—22
[241] Hargrov, W. L.(Ed.). Cover Crops for Clean Water. Ankeny, IA, Soil and Water Conservation Society, 1991:198
[242] Hayami, Y.and Ruttan, V.M. Agricultural Development: An International Perspective, Johns. Hopkins University Press, Baltimore, 1985.
[243] Hayes, Dermot. China's Role in World Livestock and Feed Grain Markets. Choices, First Quarter 1999, pp.25-28.
[244] Hsin-Hui Hsu and Fred Gale, coordinators. China: Agriculture in Transition. Market and Trade Economics Division, Economic Research Service, U.S.Department of Agriculture, Agriculture and Trade Report. WRS-01-2.
[245] Hunter Colby, Xinshen Diao, and Agapi Somwaru. Cross-Commodity Analysis of China's Grain Sector: Sources of Growth and Supply Response. U.S. Department of Agriculture, Economic Research Service, Market and Trade Economics Division. Technical Bulletin No. 1884.
[246] IRRI. Symposium on Potential Productivity of Field Crops Under Different Environment. Philippines: Los Bannos, 1983.
[247] Jeffery R. Williams etc. Risk Analysis of Tillage Alternatives with Government Programs Amer. J. Agr. Ecom. February, 1990.
[248] John M. Antic and Susan M. Capalbo. Econometric-process Models for Integrated Assessment of Ageicultural Production Systems. Amer.J. Agr. Econ. 83 (2)(May 2001): 389-401.
[249] Johnson, -D.G. The growth of demand will limit output growth for food over the next quarter century.Proc-Natl-Acad-Sci-U-S-A. Washington, D.C.: National Academy of Sciences. 1999, 96 (11): 5915-5920.
[250] Jones. PH. Agricultural applications of expert systems concepts Agricultural systems. 1989,(31)
[251] Kendall,-A.; Olson,-C.M.; Frongillo,-E.A.-Jr. Relationship of hunger and food insecurity to food availability and consumption.J-Am-Diet-Assoc. Chicago, IL: The American Dietetic Association. Oct 1996, 96(10): 1019-1024.
[252] Keulen,-H.-van; Kuyvenhoven,-A.; Ruben,-R.Sustainable land use and food security in developing countries: DLV's approach to policy support.Agric-syst. Oxford: Elsevier Science Ltd. 1998, 58(3): 285-307.
[253] Kral, D. M. (Managing Editor). Organic farming: Current technology and its role in a sustainable agriculture.ASA Special Publication No.46. Madison, WI, American Society of Agronomy, 1984.
[254] Kuo S. Huang. Forecasting Consumer Price Indexes for Food: A Demand Model Approach. Food and Rural Economies Division, Economic Research Service, U.S. Department of Agriculture. Technical Bulletin No.1883.
[255] Kuwahara, T. Technological Forecasting Activities in Japan. Technological Forecasting and Social Change, 1999, (60): 5—14.
[256] Lansigan F.P. and caumpang.R.M. Interactive Meteorological Data Simulation Program (IMSP) User's Guide.SARP Research Proceeding,Wageningen, 1993.
[257] Lester Brown. Who will feed China. world watch, September/October, 1994 9.10-19
[258] Liu, Bai-Yang, and Bong Joon Yoon. China's Economic Reform and Regional Productivity Differentials. Journal of Economic Development, Vol. 25, December 2000, pp. 23-41.
[259] Makhura, -M.T.The development of food security policy for South Africa(SAFSP): a consultative process. Food-policy. Oxford, UK.: Elsevier Science Ltd. 1998,23(6):571-585.
[260] Margriet Caswell, Keith Fuglie, Cassandra Ingrain, Sharon Jans, and Catherine Kascak. Adoption of Agricultural Production Practices: Lessons Learned from the U.S. Department of Agriculture Area Studies Project. Resource Economics Division, Economic Research Service, U.S. Department of Agriculture. Agricultural Economic, Report No.792.
[261] Martin, B.R. Foresight in Science and Technology.Technology Analysis&Strategic Management. 1995,7(2): 139-168.
[262] Martin, B.R. Technology Foresight: Capturing the Benefits from Science-Related Technologies. Research Evaluation, 1996,(6): 158-168.
[263] Mcmillan j j walley and zhu. The impact of china's economic reforms on agricultural productivity growth. Journal of political economy, 1989: 781-807.
[264] Michalski R.S et al. A computer-based advisory system for diagnosing soybean diseases in Illinios. Plant Dideases, 1983, 67: 459-463.
[265] Ohls, J., A. Prakash, L. Radbill, and A. Schirm. 1999. Methodological Findings and Early Conclusions based on the 1995, 1996, and 1997 Food Security Data. Working draft. Mathematica Policy Research, Inc. Princeton, NJ. 5 January.
[266] Penning de Vries, FWT, etal. Simulation of Eeophysiologieal Process of Growth in Several Annual Crops. Wageningen, the Netherlands, 1989.
[267] Pimentel, D. J. Houser, E. Preiss. Water resources: Agriculture, the environment, and society. Bioseience,1997,(47 b): 97-106.
[268] Postel, S. Last Oasis: Facing Water Scarcity. New York, W.W.Norton and Co. 1992.
[269] Postlewait, A., Parker, D. D. and Zilberman, D. The advent of biotechnology and technology transfer in agriculture'. Technological Forecasting and Social Change. 1993, 43(3/4):271-87.
[270] Rae, Allan, N. China's development, food consumption and livestock-feeds policy interaction.
workshop on agricultural policies on China, OECD, Paris,December 1996:12-13
[271] Regmi, Anita (ed.). Changing Structure of Global Food Consumption and Trade. Agriculture and Trade Report WRS-01-1, U.S. Department of Agriculture, Economic Research Service, May 2001.
[272] Riethoven.J.J.M. The SARP-SHELL, A Crop Growth Simulation Envirenment. Research Institute for Agrobiology and Soil Fertility. Wageningen, the Netherlands, 1994.
[273] Roger. Fox etc Expanding depolicy Dimension of Farming System Research. Agricultural Systems, 1990,(33).
[274] Rosegreant, M.W. Global food projections to 2020: Implications for investment. IFPRI: 2020 Vision Discussion Paper, 1995, (5).
[275] Rowe, G., Wright, G, and Bogler, F. Delphi—A Revaluation of Research and Theory Technological Forecasting and Social Change. 1991, (30): 235—251.
[276] Rozelle, scott jikun huang and mark rosegrant, 1996 why china will not starve the world. Choices first quarter: 18-24.
[277] Rozelle, S., and M.W.Rosegrant. China'past, present, and future food economy: can China continue de meet the challenges? Food policy 1997, 22(3): 191-200.
[278] Shin T. Using Delphi for a Long-Range Technology Forecasting and Assessing Directions of Future R&D Activities: The Korean Exercise. Technological Forecasting and Social Change 1998,58(1/2):125—154.
[279] Shin.T.and Kim. H. Research Foresight Activities in Korea and Technological Development S&T Policies in National R&D Program. Technological Forecasting and Social Change, 1994,45(1):31—45.
[280] Smil Vaclav. Is there enough Chinese food? The New York Review, 1996: 32-34.
[281] Smith,-L.C. Can FAO's measure of chronic undernourishment be strengthened.Food-policy. Oxford, UK.: Elsevier Science Ltd. Oct 1998, 23(5): 425-445.
[282] Solow, R. An Almost Practical Step Towards Sustainability, Resources For the Future. An Invited Lecture on the Occasion of the Fortieth Anniversary of Resources For the Future, 1992.
[283] Statistical Considerations for the USDA Food Insecurity Index. Jean D. Opsomer, Helen H. Jensen, Sarah M. Nusser, Dorin Drignei, and Yasuo Amemiya. Working Paper 02-WP 307, June 2002
[284] Stone, Bruce. Developments in agricultural technology. China Quarterly 116. December 1998.
[285] Tang J Y. Hopper-an expert system for forecasting the risk of white-backed. Crop protecnion 1994,13(6).
[286] Tuan, francis C. Food and agriculture issues in china. Tokyo: Paper presented at the international symposium on stable supply of food and supply agriculturaldevelopment in Asia region, Feb1997: 13-14.
[287] Vab keylaen &Wolf J. Modeling of agricultural production: Weather, Soil and Crops. Center for Agricultural Publishing and Documentation, Wageningen, 1986.
[288] Van evert, KEK., Campbell, GS. CropSyst: A Collection of Object-Oriented Simulation Models of Agricultural Systems. Agronomy Journal. 1994, 86.March-April.
[289] Vilaithong, T. Future Key Technologies for Thailand: A Study Project in APEC, NSTDA. Technology Foresight 2 nd ed. NSTDA, Bangkok, 1997: 141-145.
[290] Wu, Yanrui. China's Consumer Revolution: The Emerging Patterns of Wealth and Expenditure. Edward Elgar, 1999.
[291] Yanga, D. M. Technology Foresight Program in the Philippines in. APEC, MSTE, NSTDA, Technology Foresight, 2 nd ed, NSTDA, Bangkok, 1997:131-134.
[292] Zandstra H G. A methodology for on- farm cropping system research. IRRI, 1981:17-18