典型果园生草模式及果草系统资源调控研究进展

doi:10.11686/cyxb2017140

摘要/Abstract

摘要： 果园生草是一种先进的果园土壤管理方式,能促进果品的优质可持续生产。我国引入果园生草措施已近40年,对生草果园小气候、土壤的物理、化学和生物学特性,以及果实产量和品质的变化等开展了较多研究,但对果园生草模式及其调控果园光热水土资源机制的系统研究还较少。本文综述了我国现有的典型果园生草模式及其运行机制,重点分析了果园生草对果园土壤水分、肥力、光照的调控机制,以及生草对果园害虫与杂草的调节作用。1)根据果园组分、系统水分和养分、草类植物种来源等的不同,果园生草有多种模式。2)适宜的果园生草可增加水分入渗,减小地表蒸发,减少水土流失;提高土壤肥力,增强土壤有益微生物活性;增加系统的光能捕获能力,改善果园光环境;增强系统抵抗杂草、病虫害能力,提高果园生产多样性和品质。3)不适宜的果草搭配和生草措施会导致果树和草类植物的水肥资源竞争,加剧土壤的水肥匮缺,影响系统生产性能。可为我国果园生草技术的深入研究与进一步推广应用提供参考。

Abstract: Including grass species in orchards is an advanced technology to manage soil, thereby promoting sustainable fruit production. It has been 40 years since this technology was introduced into China, and researchers have paid much attention to the changes in microclimate, soil features, and fruit production in orchard-grass systems. However, little attention has been paid to the patterns of orchard-grass systems and how they affect the distribution of resources. This paper summarizes some typical patterns of including grass species in Chinese orchards, and describes how they work under different conditions. The effects of including grasses in the orchard on soil water and fertility, light radiation, and pests and weeds are discussed. There are multiple patterns of orchard-grass systems, with different types and proportions of grass species that affect the moisture content and fertility within the system. Suitable patterns of orchard-grass systems may increase water infiltration into the soil, reduce water evaporation, and reduce soil erosion. They can also help to increase soil fertility and enhance the activity of beneficial soil microorganisms. These patterns can enhance the interception of light radiation and improve the light environment beneath the trees. Additionally, including grass species may help to enhance the resistance of the orchard-grass system to pests and weeds. These advantages have great potential to diversify the outcomes of orchards and to improve their quality. However, unsuitable combinations of orchard and grass species, and/or inappropriate sowing methods can lead to competition for water and nutrients in soils and worsen the deficit of those resources, leading to negative effects on production. The information summarized in this review will help to improve research on orchard-grass systems and the use of appropriate planting patterns in Chinese orchards.

杨梅, 王亚亚, 陆姣云, 刘敏国, 段兵红, 杨惠敏. 典型果园生草模式及果草系统资源调控研究进展[J]. 草业学报, 2017, 26(9): 189-199.

YANG Mei, WANG Ya-Ya, LU Jiao-Yun, LIU Min-Guo, DUAN Bing-Hong, YANG Hui-Min. Advances in typical patterns to include grass species in orchards and mechanisms to regulate resources within the orchard-grass system in China[J]. Acta Prataculturae Sinica, 2017, 26(9): 189-199.

参考文献

[1] Shen G Y, Cong P H, Qiu G S, et al . Building of ecological fruit gardens and exploitation of organic fruits in the model of circulatory economy. China Fruits, 2006, (6): 56-59.
沈贵银, 丛佩华, 仇贵生, 等. 循环经济模式下的生态果园建设与有机果品开发探讨. 中国果树, 2006, (6): 56-59.
[2] Chen X S, Han M Y, Su G L, et al . Discussion on today’s world apple industry trends and the suggestions on sustainable and efficient development of apple industry in China. Journal of Fruit Science, 2010, 27(4): 598-604.
陈学森, 韩明玉, 苏桂林, 等. 当今世界苹果产业发展趋势及我国苹果产业优质高效发展意见. 果树学报, 2010, 27(4): 598-604.
[3] Liu L F. China-asean fruit trade present situation and prospects. Chinese Rural Economy, 2004, (6): 61-66.
刘李峰. 中国-东盟水果贸易现状及展望. 中国农村经济, 2004, (6): 61-66.
[4] Drinkwater L E, Wagoner P, Sarrantonio M. Legume-based cropping systems have reduced carbon and nitrogen losses. Nature, 1998, 396: 262-265.
[5] Butler J D. Grass interplanting in horticulture cropping systems. HortScience, 1986, 21(3): 394-397.
[6] Skroch W A, Shribbs J M. Orchard floor management: an overview. HortScience, 1986, 21(3): 390-394.
[7] Faust M. Evolution of fruit nutrition during the 20th century. HortScience, 1979, 14(3): 321-325.
[8] Deng F C. Ecological effect and application prospect of growing grass in orchard. Northern Horticulture, 2009, (1): 133-136.
邓丰产. 果园生草的生态效应及在果树上的应用. 北方园艺, 2009, (1): 133-136.
[9] Li H K, Zhao Z Y, Zhang G J. The theory and practice of grass interplanting in orchards. Pratacultural Science, 2005, 22(8): 32-37.
李会科, 赵政阳, 张广军. 果园生草的理论与实践——以黄土高原南部苹果园生草实践为例. 草业科学, 2005, 22(8): 32-37.
[10] Hui Z M, Zhang Z W, Li H. The research advances on vineyard sward system. Shaanxi Journal of Agricultural Sciences, 2003, (1): 22-25.
惠竹梅, 张振文, 李华. 葡萄园生草制的研究进展. 陕西农业科学, 2003, (1): 22-25.
[11] Kubota T. Weed control in the deciduous orchards of Japan. Japan Pesticide Information, 1975, (22): 23-25.
[12] Li F L, Zheng Y R, Zheng T, et al . Research advances on soil and water conservation effect of pasture-planting in orchard. Chinese Agricultural Science Bulletin, 2013, 29(34): 34-39.
李发林, 郑域茹, 郑涛, 等. 果园生草栽培水土保持效应研究进展. 中国农学通报, 2013, 29(34): 34-39.
[13] He Q. To promote nationwide green food orchard grass planting technology. Food and Nutrition in China, 1998, (6): 40.
何庆. 推广全国绿色食品果园生草技术. 中国食物与营养, 1998, (6): 40.
[14] Liu Y J, Guo J L, Chang J T, et al . Analysis of western loess hilly-gully region ecological environment condition and research on ecological orchard compound model. Northern Horticulture, 2015, (2): 197-200.
刘艳杰, 郭金岭, 常介田, 等. 豫西黄土丘陵区生态环境条件分析与生态果园复合模式研究. 北方园艺, 2015, (2): 197-200.
[15] Lv D G, Qin S J, Du G D, et al . The research on eco-physiological effects and application of orchard sod culture. Journal of Shenyang Agricultural University, 2012, 43(2): 131-136.
吕德国, 秦嗣军, 杜国栋, 等. 果园生草的生理生态效应研究与应用. 沈阳农业大学学报, 2012, 43(2): 131-136.
[16] Liu X C, Yang C H, Chen B J, et al . A preliminary report on the study of apple orchard soil and fertilizer comprehensive management mode under different ecological environment. Northern Fruits, 1998, (3): 5-7.
刘秀春, 杨成桓, 陈宝江, 等. 不同生态环境下苹果园土肥综合管理模式研究初报. 北方果树, 1998, (3): 5-7.
[17] Qin W L, Liu Z K, Cao W D, et al . Reflection on the development of sod cultivation in orchard in Hebei province. Journal of Hebei Agricultural Sciences, 2011, 15(8): 69-71.
秦文利, 刘忠宽, 曹卫东, 等. 对河北省发展果园生草的思考. 河北农业科学, 2011, 15(8): 69-71.
[18] Gu L R. The utility and cultivation key points of the orchard grass. Hebei Agricultural Science and Technology, 2006, (4): 26.
顾立荣. 果园生草的效用及栽培要点. 河北农业科技, 2006, (4): 26.
[19] Fan J S, Li B, Zhang C L, et al . Discussion on growing grass management farming system model of blueberries garden. Horticulture & Seed, 2012, (9): 30-32.
樊基胜, 李彬, 张春龙, 等. 蓝莓园生草管理农作制度模式探讨. 园艺与种苗, 2012, (9): 30-32.
[20] Liu Z L, Liu T X, Zhu Z J, et al . Explore on innovation management of grass farming system model in blueberry park. Journal of Anhui Agriculture Science, 2011, 39(16): 9553-9554.
刘兆玲, 刘婷霞, 朱祝军, 等. 蓝莓园生草管理农作制度模式创新的探索. 安徽农业科学, 2011, 39(16): 9553-9554.
[21] Kuang S Z, Tian S Y, Duan D Y, et al . Effects of grass cultivation on soil property and micro-ecological environment in pitaya orchard. Chinese Journal of Tropical Agriculture, 2015, 35(5): 1-4.
匡石滋, 田世尧, 段冬洋, 等. 生草栽培对火龙果果园土壤特性及微生态环境的影响. 热带农业科学, 2015, 35(5): 1-4.
[22] Zhang L X, Zhao Z L. Research on water management pattern in Fuji apple orchard under different annual precipitations on Weibei rainfed highland. Agricultural Research in the Arid Areas, 2001, 19(1): 26-32.
张立新, 赵志励. 渭北旱原红富士苹果园不同降水年型水分管理模式研究. 干旱地区农业研究, 2001, 19(1): 26-32.
[23] Wang C X. Dry farming orchard grass planting new model-canola, soy alternate. Shanxi Fruits, 2009, (6): 53.
王长新. 旱作果园生草新模式——油菜, 豆类轮作法. 山西果树, 2009, (6): 53.
[24] Zou Y J, Qiu L, Nie J F. The discussion on livestock-biogas-fruit-grass ecological orchard model and key technology. Shaanxi Journal of Agricultural Sciences, 2003, (2): 29-30.
邹养军, 邱凌, 聂俊峰. 牧沼果草生态果园模式及关键技术探讨. 陕西农业科学, 2003, (2): 29-30.
[25] Wang Q Y, Liang C, Zhao F R, et al . Preliminary report of the research of ecological pattern of fruits, grass, animal husbandry unite in the loess hilly country of west Henan. Ecology of Domestic Animal, 2002, 23(2): 69-72.
王清义, 梁臣, 赵芙蓉, 等. 豫西黄土丘陵区果, 草, 牧生态模式研究初报. 家畜生态, 2002, 23(2): 69-72.
[26] Jiao R L, Xue Y T. Five supporting ecological orchard mode. Farmers Science and Technology Training, 2004, (5): 11.
焦瑞莲, 薛彦棠. 五配套生态果园模式. 农民科技培训, 2004, (5): 11.
[27] Wu Y S, Zhang Y M, Ji X H, et al . Effects of natural grass on soil nutrient, enzyme activity and fruit quality of pear orchard in Yellow River delta. Scientia Agricultura Sinica, 2012, 46(1): 99-108.
吴玉森, 张艳敏, 冀晓昊, 等. 自然生草对黄河三角洲梨园土壤养分, 酶活性及果实品质的影响. 中国农业科学, 2012, 46(1): 99-108.
[28] Wang Y X, Wang F, Weng B Q, et al . Study on soil carbon sequestration potential of sod cultivated orchard-Taking Fujian Province as a case. Subtropical Agriculture Research, 2010, 6(3): 189-192.
王义祥, 王峰, 翁伯琦, 等. 果园生草模式土壤固碳潜力——以福建省为例. 亚热带农业研究, 2010, 6(3): 189-192.
[29] Chen X H, Liu X D, Lin Q T, et al . Orchard grass technology of Yimeng mountain region. China Fruit and Vegetable, 2015, 35(2): 53-57.
陈修会, 刘相东, 林庆团, 等. 沂蒙山区果园生草技术. 中国果菜, 2015, 35(2): 53-57.
[30] Pang A Q. A study on model agricultural resources development in red earth dominated hilly area. Resources Science, 1997, 19(4): 15-20.
庞爱权. 红壤丘陵区农业资源开发模式研究. 资源科学, 1997, 19(4): 15-20.
[31] Yang Y S. Study on restoration of biodiversity in eroded quaternary red clay region. Research of Soil and Water Conservation, 1998, 5(2): 82-86.
杨艳生. 第四纪红粘土侵蚀区生物多样性恢复重建研究:(II) 恢复重建关键技术与可持续发展. 水土保持研究, 1998, 5(2): 82-86.
[32] Zhang H M, Wang Z Y, Yang J, et al . Study on soil and water conservation effect under different inter-cropping for orchards on red soil slopeland. Research of Soil and Water Conservation, 2010, 17(3): 140-143.
张华明, 王昭艳, 杨洁, 等. 红壤坡地不同果园套种模式水土保持效果研究. 水土保持研究, 2010, 17(3): 140-143.
[33] Wang Z Y, Zuo C Q, Cao W H, et al . Characteristics of runoff and sediment production from orchard plots under different mixed and relay plantations in hilly area with red soils. Journal of Soil and Water Conservation, 2011, 25(4): 74-78.
王昭艳, 左长清, 曹文洪, 等. 红壤丘陵区次降雨条件下果园不同间套种模式径流与泥沙输移特征. 水土保持学报, 2011, 25(4): 74-78.
[34] Weng B Q, Luo T. The growth characteristics and nitrogen content determination of Cassia rotundifolia intercropped in red soil mountain orchards. Chinese Journal of Soil Science, 1994, 25(3): 130-132.
翁伯琦, 罗涛. 园叶决明 ( Cassia rotundifolia ) 在红壤山地果园套种的生长特性及其固氮量测定. 土壤通报, 1994, 25(3): 130-132.
[35] Ying Z Y, Huang Y B, Zhang M H, et al . The introduction and selection of Cassia rotundifolia new strain[C]//Annual Report of the 1999 Young Chinese Agricultural Academy of Sciences, Beijing: China Agriculture Press, 1999: 49-56.
应朝阳, 黄毅斌, 张明辉, 等. 圆叶决明新品系引种筛选试验研究[C]//1999 年中国青年农业科学学术年报. 北京: 中国农出版社, 1999: 49-56.
[36] Luo T, Weng B Q, Lin J J, et al . Introduction and selection of forage in red soil region of northern FujianⅡ.Tropical species. Fujian Journal of Agricultural Sciences, 1999, 14(1): 6-11.
罗涛, 翁伯琦, 林娇建, 等. 闽北红壤区牧草引种与筛选研究: Ⅱ. 热带种. 福建农业学报, 1999, 14(1): 6-11.
[37] Huang Y B, Lu X M, Ying Z Y, et al . Technical patterns and effects of the red mountain ecological orchard. Fujian Fruits, 2001, (1): 1-6.
黄毅斌, 陆修闽, 应朝阳, 等. 红壤山地生态果园的技术模式与实施效果. 福建果树, 2001, (1): 1-6.
[38] Weng B Q, Bai X F, Ying Z Y, et al . Integrated land use research on red soil hills in North Fujian[C]//Proceedings of the Nanchang Red Soil International Conference. Nanchang, 1995:56-60.
[39] Weng B Q, Zheng Z D, Ying Z Y, et al . Developmental mechanism and technical evaluation on ecological orchard in the hilly land of Fujian province. Fujian Journal of Agricultural Sciences, 1998, 13(Sup.): 20-26.
翁伯琦, 郑仲登, 应朝阳, 等. 福建丘陵山地生态果园开发原理与技术评价. 福建农业学报, 1998, 13(增刊): 20-26.
[40] Huang Y B, Ying Z Y, Zheng Z D, et al . Developmental mechanism and technical evaluation on ecological orchard in the hilly land of Fujian Province. Fujian Journal of Agricultural Sciences, 2000, 15(Sup.): 182-184.
黄毅斌, 应朝阳, 郑仲登, 等. 红壤丘陵区生态果园建设的模式、技术与效应. 福建农业学报, 2000, 15(增刊): 182-184.
[41] Chen H L, Peng H H, Guang B F, et al . The discussion on cultivation mode of mulberry field grass. Jiangsu Sericulture, 2001, 23(2): 52-54.
陈华玲, 彭火辉, 管帮富, 等. 桑园生草栽培模式探讨. 江苏蚕业, 2001, 23(2): 52-54.
[42] Lv W Z, He X Y, Xie J Q, et al . Labor saving and ecological management models and evaluation for hillside fruit orchard. Journal of Zhejiang for Science and Technology, 2006, 26(2): 73-76.
吕伟仲, 何小勇, 谢建秋, 等. 山地果园 3 种省力化耕作生态复合经营模式与评价. 浙江林业科技, 2006, 26(2): 73-76.
[43] Weng B Q, Huang Y B, Ying Z Y, et al . The technology and efficient analysis of ecological orchard in red soil hills. Chinese Agricultural Science Bulletin, 2006, 22(12): 465-470.
翁伯琦, 黄毅斌, 应朝阳, 等. 红壤山地生态果园开发及成效分析. 中国农学通报, 2006, 22(12): 465-470.
[44] Tang Z P, He X H, Meng D J, et al . Model and benefit evaluation of ecological orchard in hilly region. Journal of Guangxi Agriculture and Biology Science, 2005, 24(4): 343-346.
唐志鹏, 何新华, 孟定金, 等. 山区生态果园模式研究与效益分析. 广西农业生物科学, 2005, 24(4): 343-346.
[45] Weng B Q, Luo T, Ying Z Y, et al . Screening of pasture for the red soil regions in Fujian and ecological effect of pasture intercropping in mountainous orchards. Chinese Journal of Tropical Crops, 2004, 25(2): 95-101.
翁伯琦, 罗涛, 应朝阳, 等. 福建红壤区适生牧草种质筛选及其套种于山地果园的生态效应. 热带作物学报, 2004, 25(2): 95-101.
[46] Zhang C J, Chen Y C, Xu F H, et al . Study on the alfalfa cultivation in the young poplar growing Medicago sativa . Grassland and Turf, 2008, (3): 63-65.
张成军, 陈义才, 徐方红, 等. 杨树幼林地种植紫花苜蓿试验研究. 草原与草坪, 2008, (3): 63-65.
[47] Xu X, Zhang J. Effect of sown grass and organism mulching on orchard soil fertility. Journal of Sichuan Agricultural University, 2004, 22(1): 88-91.
徐雄, 张健. 生草和生物覆盖对果园土壤肥力的影响. 四川农业大学学报, 2004, 22(1): 88-91.
[48] Liu C X. Orchard soil management and fertilization II soil management. Northern Fruits, 2005, (2): 43-46.
刘成先. 果园土壤管理与施肥 (二) 土壤管理. 北方果树, 2005, (2): 43-46.
[49] Geng Z C, Zhang L X, Zhang C Y, et al . Advance in study of management patterns of water and fertilizer in apple orchard in dryland. Research of Soil and Water Conservation, 2004, 11(1): 101-105.
耿增超, 张立新, 张朝阳, 等. 旱地果园水肥管理模式研究进展. 水土保持研究, 2004, 11(1): 101-105.
[50] Zhang H M, Wang Z Y, Yu R G, et al . Study on soil physical and chemical properties under different inter-cropping for orchards on hilly region in northern Jiangxi province. Research of Soil and Water Conservation, 2010, 17(4): 258-261.
张华明, 王昭艳, 喻荣岗, 等. 赣北丘陵区果园不同套种模式对退化红壤理化性质的影响. 水土保持研究, 2010, 17(4): 258-261.
[51] Hui Z M, Li H, Zhang Z W, et al . Effect of green coverings on soil water content in vineyards. Agricultural Research in the Arid Areas, 2004, 22(4): 123-126.
惠竹梅, 李华, 张振文, 等. 西北半干旱地区葡萄园生草对土壤水分的影响. 干旱地区农业研究, 2004, 22(4): 123-126.
[52] Wang B, Liu S R, Cui X H, et al . Advances in the research on water and heat balance laws of the global terrestrial ecosystem. World Forestry Research, 2002, 15(1): 19-28.
王兵, 刘世荣, 崔向慧, 等. 全球陆地生态系统水热平衡规律研究进展. 世界林业研究, 2002, 15(1): 19-28.
[53] Zhang Y, Xie Y S. Effects of different patterns of surface mulching on soil hydrology in an apple orchard. Acta Prataculturae Sinica, 2011, 20(2): 85-92.
张义, 谢永生. 不同覆盖措施下苹果园土壤水文差异. 草业学报, 2011, 20(2): 85-92.
[54] Zhao Z Y, Li H K. The effects of interplant different herbage on soil water in apple orchards in the area of Weibei Plateau. Acta Horticulturae Sinica, 2006, 33(3): 481-484.
赵政阳, 李会科. 黄土高原旱地苹果园生草对土壤水分的影响. 园艺学报, 2006, 33(3): 481-484.
[55] Li H K, Zhang G J, Zhao Z Y, et al . Effects of interplanting of herbage on soil nutrient of non-irrigated apple orchard in the Loess Plateau. Acta Horticulturae Sinica, 2007, 34(2): 477-480.
李会科, 张广军, 赵政阳, 等. 黄土高原旱地苹果园生草对土壤养分的影响. 园艺学报, 2007, 34(2): 477-480.
[56] Huang J H, Liao Y C, Gao M S, et al . Effects of tillage and mulching on orchard soil moisture content and temperature in Loess Plateau. Chinese Journal of Applied Ecology, 2009, 20(11): 2652-2658.
黄金辉, 廖允成, 高茂盛, 等. 耕作和覆盖对黄土高原果园土壤水分和温度的影响. 应用生态学报, 2009, 20(11): 2652-2658.
[57] Gao M S, Wen X X, Huang J H, et al . Effect of stubble mulch and tillage managements on apple orchard soil moisture reserves and soil enzyme activity in the Weibei Plateau. Journal of China Agricultural University, 2009, (4): 91-97.
高茂盛, 温晓霞, 黄金辉, 等. 耕作方式和秸秆覆盖对渭北苹果园土壤保蓄水性能及酶活性的影响. 中国农业大学学报, 2009, (4): 91-97.
[58] Li G H, Yi H L. Influences of sod culture on the soil water content, effect of soil nutrients, fruit yield and quality in citrus orchard. Chinese Journal of Eco-Agriculture, 2005, 13(2): 161-163.
李国怀, 伊华林. 生草栽培对柑橘园土壤水分与有效养分及果实产量, 品质的影响. 中国生态农业学报, 2005, 13(2): 161-163.
[59] Deng F C. Research on Growing Grass in Apple Orchard in Weibei Upland[D]. Yangling: Northwest Agriculture and Forestry University, 2005.
邓丰产. 渭北旱塬苹果园生草效应研究[D]. 杨凌: 西北农林科技大学, 2005.
[60] Xu X, Zhang J, Liao E H, et al . Effects of different utilizing ways after sod culture in a plum orchard on physical, chemical properties of soil and plum trees. Journal of Sichuan Agricultural University, 2006, 23(4): 420-423.
徐雄, 张健, 廖尔华, 等. 李园生草的不同利用方式对土壤理化性状及李树生长的影响. 四川农业大学学报, 2006, 23(4): 420-423.
[61] Shui J G, Wang Q Z, Liao G Q, et al . Ecological and economic benefits of vegetation management measures in citrus orchards on red soils. Pedosphere, 2008, 18(2): 214-221.
[62] Li H K, Zhang G J, Zhao Z Y, et al . Effects of interplanted herbage on soil properties of non-irrigated apple orchards in the Loess Plateau. Acta Prataculturae Sinica, 2007, 16(2): 32-39.
李会科, 张广军, 赵政阳, 等. 生草对黄土高原旱地苹果园土壤性状的影响. 草业学报, 2007, 16(2): 32-39.
[63] Li H K, Zhang G J, Zhao Z Y, et al . Effects of different herbage on soil quality characteristics of non-irrigated apple orchard in Weibei Loess Plateau. Scientia Agricultura Sinica, 2008, 41(7): 2070-2076.
李会科, 张广军, 赵政阳, 等. 渭北黄土高原旱地果园生草对土壤物理性质的影响. 中国农业科学, 2008, 41(7): 2070-2076.
[64] Cao Q, Shen Y Y, Wang Z K, et al . Effects of living mulch on soil physical and chemical properties in orchards: a review. Acta Prataculturae Sinica, 2016, 25(8): 180-188.
曹铨, 沈禹颖, 王自奎, 等. 生草对果园土壤理化性状的影响研究进展. 草业学报, 2016, 25(8): 180-188.
[65] Chen Y, Wen X, Sun Y, et al . Mulching practices altered soil bacterial community structure and improved orchard productivity and apple quality after five growing seasons. Scientia Horticulturae, 2014, 172: 248-257.
[66] Yue T X, Hui Z M, Sun Y, et al . Soil microbial characteristics of interplanting grass in vineyard. Journal of Northwest Agriculture and Forestry University, 2009, (9): 100-104.
岳泰新, 惠竹梅, 孙莹, 等. 行间生草对葡萄园土壤微生物学特征的影响. 西北农林科技大学学报, 2009, (9): 100-104.
[67] Hui Z M, Li H, Long Y, et al . Variation of soil microbial populations and relationships between microbial factors and soil nutrients in cover cropping system of vineyard. Acta Horticulturae Sinica, 2010, 37(9): 1395-1402.
惠竹梅, 李华, 龙妍, 等. 葡萄园行间生草体系中土壤微生物数量的变化及其与土壤养分的关系. 园艺学报, 2010, 37(9): 1395-1402.
[68] Wardle D A, Yeates G W, Bonner K I, et al . Impacts of ground vegetation management strategies in a kiwifruit orchard on the composition and functioning of the soil biota. Soil Biology and Biochemistry, 2001, 33(7): 893-905.
[69] Li H K, Mei L X, Gao H. Effect of grass planting on the microclimate of apple orchard in the dryland area of Loess Plateau. Acta Agrestia Sinica, 2009, 17(5): 615-620.
李会科, 梅立新, 高华. 黄土高原旱地苹果园生草对果园小气候的影响. 草地学报, 2009, 17(5): 615-620.
[70] Zhang Y, Xie Y S, Hao M D, et al . Effects of different patterns surface mulching on soil properties and fruit trees growth and yield in an apple orchard. Chinese Journal of Applied Ecology, 2010, 21(2): 279-286.
张义, 谢永生, 郝明德, 等. 不同地表覆盖方式对苹果园土壤性状及果树生长和产量的影响. 应用生态学报, 2010, 21(2): 279-286.
[71] Zeng M, Li D G, Xiong B Q, et al . Effects of sod culture management in Citrus orchards on am infection in Citrus roots and fruit quality. Journal of Southwest Agricultural University: Natural Science Edition, 2004, 26(2): 105-107.
曾明, 李道高, 熊丙全, 等. 桔园生草对丛枝菌根形成及果实品质的影响. 西南大学学报: 自然科学版, 2004, 26(2): 105-107.
[72] Chen C, Tang Z H, Shi X H, et al . The ecological niche of main pests and natural enemies in grassing apple orchard. Acta Agriculturae Boreali-occidentalis Sinica, 2002, 11(3): 78-82.
陈川, 唐周怀, 石晓红, 等. 生草苹果园主要害虫和天敌的生态位研究. 西北农业学报, 2002, 11(3): 78-82.
[73] Song B Z, Wang M C, Kong Y, et al . Interaction of the dominant pests and natural enemies in the experimental plots of the intercropping aromatic plants in pear orchard. Scientia Agricultura Sinica, 2010, 43(17): 3590-3601.
宋备舟, 王美超, 孔云, 等. 梨园芳香植物间作区主要害虫及其天敌的相互关系. 中国农业科学, 2010, 43(17): 3590-3601.
[74] Gong Y M, Lu Z H, Yang Y X, et al . The effect of apple orchard-grass on the growth and decline of the plant diseases, insect pests and natural enemies (preliminary study). Deciduous Fruits, 2004, 36(6): 31-32.
宫永铭, 鲁志宏, 杨玉霞, 等. 苹果园生草对病虫害及天敌消长的影响(初报). 落叶果树, 2004, 36(6): 31-32.
[75] Tang Z H, Chen C, Hui W, et al . Community structures of insects in different apple orchards. Journal of Northwest Forestry University, 2002, 17(4): 54-56.
唐周怀, 陈川, 惠伟, 等. 不同苹果园昆虫(螨)群落结构研究. 西北林学院学报, 2002, 17(4): 54-56.
[76] Andersen L, Kühn B F, Bertelsen M, et al . Alternatives to herbicides in an apple orchard, effects on yield, earthworms and plant diversity. Agriculture, Ecosystems & Environment, 2013, 172: 1-5.
[77] Lan Y P, Cao H, Niu J L. Study on the effects of ground cover on the leaf physiological activity of apple tree on dry calcareous soil. Northern Fruits, 2000, (1): 4-6.
兰彦平, 曹慧, 牛俊玲. 石灰岩旱地果园生草对果树叶片生理活性影响的研究. 北方果树, 2000, (1): 4-6.
[78] Li G H, Yi H L. Influences of sod culture on the soil water content, effect of soil nutrients, fruit yield and quality in citrus orchard. Chinese Journal of Eco-Agriculture, 2005, 13(2): 161-163.
李国怀, 伊华林. 生草栽培对柑橘园土壤水分与有效养分及果实产量、品质的影响. 中国生态农业学报, 2005, 13(2): 161-163.
[79] Xu X, Zhang J, Liao E H, et al . Effect of different utilizing ways after sod culture in a plum orchard on physical, chemical properties of soil and plum trees. Journal of Sichuan Agricultural University, 2006, 23(4): 420-423.
徐雄, 张健, 廖尔华, 等. 李园生草的不同利用方式对土壤理化性状及李树生长的影响. 四川农业大学学报, 2006, 23(4): 420-423.
[80] Monteiro A, Lopes C M. Influence of cover crop on water use and performance of vineyard in Mediterranean Portugal. Agriculture, Ecosystems and Environment, 2007, 121(4): 336-342.
[81] Hoagland L, Carpenter-Boggs L, Granatstein D, et al . Orchard floor management effects on nitrogen fertility and soil biological activity in a newly established organic apple orchard. Biology and Fertility of Soils, 2008, 45(1): 11-18.
[82] Teravest D, Smith J L, Carpenter-Boggs L, et al . Influence of orchard floor management and compost application timing on nitrogen partitioning in apple trees. HortScience, 2010, 45(4): 637-642.
[83] Hogue E J, Neilsen G H. Orchard floor vegetation management. Horticultural Reviews, 1987, (9): 377-430.
[84] Li H, Hui Z M, Zhang Z W, et al . Effect of green covering on soil fertility and grape leaf nutrient content of vineyard. Transactions of the CSAE, 2004, 20(s1): 116-119.
李华, 惠竹梅, 张振文, 等. 行间生草对葡萄园土壤肥力和葡萄叶片养分的影响. 农业工程学报, 2004, 20(增刊): 116-119.
[85] Wang Y T, Ji X H, Wu Y S, et al . Research progress of cover crop in Chinese orchard. Chinese Journal of Applied Ecology, 2015, 26(6): 1892-1900.
王艳廷, 冀晓昊, 吴玉森, 等. 我国果园生草的研究进展. 应用生态学报, 2015, 26(6): 1892-1900.
[86] Chen X S, Su G L, Jiang Y M, et al . Management and administration of the sustainable development of orchard-talk about orchard grass planting soil fertility and its supporting technology. Deciduous Fruits, 2013, 45(1): 1-3.
陈学森, 苏桂林, 姜远茂, 等. 可持续发展果园的经营与管理再谈果园生草培肥地力及其配套技术. 落叶果树, 2013, 45(1): 1-3.
[87] Li F D. Study on Moisture and Light Utilization Characteristics and Regulation Mechanism of Sod-culture[D]. Shenyang: Shenyang Agricultural University, 2013.
李芳东. 冷凉地区生草制苹果园水分与光能利用特性及调控机制研究[D]. 沈阳: 沈阳农业大学, 2013.
[88] Morlat R E, Jacquet A. Grapevine root system and soil characteristics in a vineyard maintained long-term with or without interrow sward. American Journal of Enology and Viticulture, 2003, 54(1): 1-7.
[89] Hui Z M, Zhang Z W, Ma X L, et al . Effects of vineyard cover crops on main nitrogen compounds in grape berry and wine from Vitis viniferal L.cv. Cabernet Sauvignon. Scientia Agricultural Sinica, 2010, 43(19): 4045-4052.
惠竹梅, 张振文, 马新丽, 等. 行间生草对赤霞珠葡萄与葡萄酒含氮化合物的影响. 中国农业科学, 2010, 43(19): 4045-4052.
[90] York E T. Agricultural sustainability and its implications to the horticulture profession and the ability to meet global food needs. HortScience, 1991, 26(10): 1252-1256.
[91] Liu Y, Gao M, Wu W, et al . The effects of conservation tillage practices on the soil water-holding capacity of a non-irrigated apple orchard in the Loess Plateau, China. Soil and Tillage Research, 2013, 130: 7-12.
[92] Kou J C, Yang W Q, Han M Y, et al . Research progress on interplanting grass in orchard in China. Pratacultural Science, 2010, 27(7): 154-159.
寇建村, 杨文权, 韩明玉, 等. 我国果园生草研究进展. 草业科学, 2010, 27(7): 154-159.