皖中不同类型再生稻品种产量与温光资源利用特征分析

doi:10.3969/j.issn.1004-1524.20230554

浙江农业学报 ›› 2024, Vol. 36 ›› Issue (7): 1492-1501.DOI: 10.3969/j.issn.1004-1524.20230554

皖中不同类型再生稻品种产量与温光资源利用特征分析

潘志军¹(), 吴小文¹, 吴晨阳¹, 程驭¹, 陈龙¹, 张晓红¹, 张进山¹, 周兵¹, 江波¹, 张文静², 车钊², 宋贺²

1.庐江县农业技术推广中心,安徽庐江 231500
2.安徽农业大学农学院,安徽合肥 230031

收稿日期:2023-04-26 出版日期:2024-07-25 发布日期:2024-08-05
作者简介:潘志军(1990—),男,安徽铜陵人,学士,农艺师,主要从事作物栽培和土壤肥料研究。E-mail: jun396@163.com
基金资助:
国家重点研发计划(2022YFD2301404);安徽省现代农业产业技术体系建设专项资金

Analysis of yield and utilization of temperature and light resources of different types of ratoon rice varieties in central Anhui, China

PAN Zhijun¹(), WU Xiaowen¹, WU Chenyang¹, CHENG Yu¹, CHEN Long¹, ZHANG Xiaohong¹, ZHANG Jinshan¹, ZHOU Bing¹, JIANG Bo¹, ZHANG Wenjing², CHE Zhao², SONG He²

1. Agricultural Technique Extension Center of Lujiang County, Lujiang 231500, Anhui, China
2. School of Agronomy, Anhui Agricultural University, Hefei 230031, China

Received:2023-04-26 Online:2024-07-25 Published:2024-08-05

摘要/Abstract

摘要：

为探究皖中地区不同类型再生稻的生长发育与温光资源利用特征,为再生稻品种选择和周年稻作模式搭配提供参考,本研究以早熟籼型常规稻、早熟籼型杂交稻、中熟籼型杂交稻和籼粳杂交稻4个类型的8个代表品种为供试材料,监测不同类型再生稻的产量和全生育期气象要素情况。结果显示,中熟籼型杂交稻品种作再生稻时产量[(12.47±0.24)t·hm^-2]、光能生产效率[(0.40±0.01)g·MJ^-1]和有效积温(≥10 ℃)生产效率[(4.35±0.10)kg·hm^-2·℃^-1·d^-1]最高,可通过较高的日产量和适度较长的生育期促进高产形成。早熟籼型常规稻和早熟籼型杂交稻较中熟籼型杂交稻和籼粳杂交稻的再生季成熟期提前24~47 d,可用于后茬作物的温光资源更充裕。综上,选择中熟籼型杂交稻品种做再生稻时,温光资源利用效率和产量最高;选择早熟籼型常规稻和早熟籼型杂交稻作再生稻时,可搭配的轮作模式最多。

关键词: 再生稻, 品种, 产量, 温光资源利用, 轮作模式

Abstract:

To explore the growth and development characteristics and utilization of temperature and light resources among different types of ratoon rice varieties in central Anhui, China, and provide references for the selection of suitable ratoon rice varieties and annual rice cultivation patterns, 8 representative ratoon rice varieties from 4 types (early indica rice, early indica hybrid rice, middle-season indica hybrid rice, indica-japonica hybrid rice) were selected as the test materials. The rice yield and meteorological factors were measured during the whole growth period. The results showed that the middle-season indica hybrid rice had the highest yield [(12.47±0.24)t·hm^-2], solar radiation production efficiency [(0.40±0.01)g·MJ^-1] and effective accumulated temperature (≥10 ℃) production efficiency [(4.35±0.10)kg·hm^-2·℃^-1·d^-1]. It realized high yield by maitaining the high daily yield and prolonged growth period. Early indica rice and early indica hybrid rice matured 24-47 days earlier than the midle-season indica hybrid rice and indica-japonica hybrid rice, which provided more abundant temperature and light resources for the successive crop planting. In summary, when the middle-season indica hybrid rice was used as ratoon rice, it could improve the utilization efficiency of temperature and light resources and crop yield. However, the rotation patterns could be more abundant when the early indica rice and early indica hybrid rice were used as ratoon rice.

Key words: ratoon rice, variety, yield, utilization of temperature and light resources, rotation model

中图分类号:

S511
S31

潘志军, 吴小文, 吴晨阳, 程驭, 陈龙, 张晓红, 张进山, 周兵, 江波, 张文静, 车钊, 宋贺. 皖中不同类型再生稻品种产量与温光资源利用特征分析[J]. 浙江农业学报, 2024, 36(7): 1492-1501.

PAN Zhijun, WU Xiaowen, WU Chenyang, CHENG Yu, CHEN Long, ZHANG Xiaohong, ZHANG Jinshan, ZHOU Bing, JIANG Bo, ZHANG Wenjing, CHE Zhao, SONG He. Analysis of yield and utilization of temperature and light resources of different types of ratoon rice varieties in central Anhui, China[J]. Acta Agriculturae Zhejiangensis, 2024, 36(7): 1492-1501.

图/表 8

图1 庐江县再生稻生产季的主要气象要素变化

Fig.1 Changes of main meteorological elements in the planting season of ratooning rice in Lujiang County

表1 不同类型再生稻的产量

Table 1 The yield of different types of ratoon rice varieties

类型 Type	实际产量Actual yield/(t·hm^-2)			日产量Daily yield/(kg·hm^-2·d^-1)
类型 Type	头季 Main crop rice	再生季 Ratoon rice	合计 Total	头季 Main crop rice	再生季 Ratoon rice	平均值 Mean
EIR	7.54±0.64 bc	3.08±0.28 b	10.62±0.58 b	65.87±3.36 a	45.71±3.97 bc	58.36±2.31 a
EHR	7.40±0.32 c	3.30±0.31 b	10.70±0.22 b	61.17±2.40 ab	50.40±2.09 b	57.38±1.05 a
MHR	8.24±0.28 a	4.24±0.21 a	12.47±0.24 a	56.83±1.08 ab	62.31±2.57 a	58.58±1.53 a
IJR	8.01±0.21 ab	3.12±0.27 b	11.14±0.26 b	54.11±1.47 b	40.84±1.42 c	49.45±0.95 b

表2 不同类型再生稻品种的关键生育期

Table 2 Key growth stages of different types of ratoon rice varieties

类型 Type	品种 Variety	关键时间节点(月-日)Key time point for rice growth (month-day)
类型 Type	品种 Variety	FTP	FPI	FHD	FHP	RHD	RMA
EIR	ZZ143	04-25	05-25	06-14	07-18	08-17	09-22
	ZZ39	04-25	05-27	06-16	07-19	08-18	09-26
EHR	LLY916	04-25	05-29	06-17	07-23	08-20	09-27
	LLY268	04-25	05-29	06-19	07-27	08-21	09-30
MHR	LLY1307	04-25	06-21	07-16	08-18	09-10	10-26
	HLY898	04-25	06-19	07-16	08-18	09-08	10-24
IJR	YY6720	04-25	06-21	07-19	08-20	09-15	11-04
	YY4918	04-25	06-23	07-21	08-23	09-18	11-08

图2 不同类型再生稻品种各生育阶段的有效积温(EAT) EIR,早熟籼型常规稻;EHR,早熟籼型杂交稻;MHR,中熟籼型杂交稻;IJR,籼粳杂交稻。FTP,头季移栽的日期;FPI,头季穗分化的日期;FHD,头季抽穗的日期;FHP,头季收获的日期;RHD,再生季抽穗的日期;RMA,再生季成熟的日期。TFP-FPI,头季稻从移栽到穗分化的阶段。其他生育阶段依此类推。同一生育时期内柱上无相同字母的表示差异显著(P<0.05)。下同。

Fig.2 The effective accumulated temperature (EAT) of different growth periods for different types of ratoon rice varieties EIR, Early indica rice; EHR, Early indica hybrid rice; MHR, Middle-season indica hybrid rice; IJR, Indica-japonica hybrid rice. FTP, The date of transplanting for the main crop rice; FPI, The date of panicle initiation for the main crop rice; FHD, The date of heading for the main crop rice; FHP, The date of harvest for the main crop rice; RHD, The date of heading for the ratoon rice; RMA, The date of mature for the ratoon rice. TFP-FPI, The grwoth period from transplanting to panicle initiation for the main crop rice. The rest may be deduced by analogy. Bars marked without the same letters in the same growth period indicate significant differnce at P<0.05. The same as below.

图3 不同类型再生稻品种各生育阶段的日照时数

Fig.3 The sunshine hours of different growth periods for different types of ratoon rice varieties

图4 不同类型再生稻品种关键生育期的平均气温 RPI,再生季穗分化的日期。图5同。

Fig.4 The average temperature in key growth period of different types of ratoon rice varieties RPI, The date of panicle initiation for the ratoon rice. The same as in Fig. 5.

图5 不同类型再生稻品种头季关键生育期的最高气温与再生季关键生育期的最低气温

Fig.5 The maximum temperature in key growth period of main crop rice and the minimum temperature in key growth period of ratoon rice for different types of ratoon rice varieties

表3 不同类型再生稻品种的温光资源利用效率

Table 3 Utilization efficiency of temperature and light resources of different types of ratoon rice varieties

类型 Type	光能生产效率 Solar radiation production efficiency/(g·MJ^-1)			有效积温生产效率 EAT production efficiency/(kg·hm^-2·℃^-1·d^-1)			年有效积温利用率 Use efficiency of annual EAT/%
类型 Type	头季 Main crop rice	再生季 Ratoon rice	平均值 Mean	头季 Main crop rice	再生季 Ratoon rice	平均值 Mean	年有效积温利用率 Use efficiency of annual EAT/%
EIR	0.45±0.04 a	0.31±0.03 bc	0.40±0.01 a	5.21±0.48 a	2.66±0.24 c	4.10±0.14 ab	83.75±1.63 b
EHR	0.43±0.01 ab	0.33±0.01 b	0.40±0.01 a	4.73±0.22 ab	2.97±0.15 bc	4.02±0.05 bc	86.10±0.99 b
MHR	0.41±0.02 ab	0.41±0.02 a	0.40±0.01 a	4.16±0.08 bc	4.69±0.13 a	4.35±0.10 a	92.75±0.21 a
IJR	0.37±0.01 b	0.27±0.01 c	0.33±0.01 b	3.92±0.01 c	3.40±0.25 b	3.78±0.08 c	95.35±0.35 a

参考文献 30

[1]	PENG S B, ZHENG C, YU X. Progress and challenges of rice ratooning technology in China[J]. Crop and Environment, 2023, 2(1): 5-11.
[2]	赵正洪, 戴力, 黄见良, 等. 长江中游稻区水稻产业发展现状、问题与建议[J]. 中国水稻科学, 2019, 33(6): 553-564.
	ZHAO Z H, DAI L, HUANG J L, et al. Status, problems and solutions in rice industry development in the middle reaches of the Yangtze River[J]. Chinese Journal of Rice Science, 2019, 33(6): 553-564.(in Chinese with English abstract)
[3]	张洪程, 胡雅杰, 杨建昌, 等. 中国特色水稻栽培学发展与展望[J]. 中国农业科学, 2021, 54(7): 1301-1321.
	ZHANG H C, HU Y J, YANG J C, et al. Development and prospect of rice cultivation in China[J]. Scientia Agricultura Sinica, 2021, 54(7): 1301-1321.(in Chinese with English abstract)
[4]	龚金龙, 邢志鹏, 胡雅杰, 等. 江淮下游地区籼粳超级稻生育期与温光资源利用特征的差异研究[J]. 中国水稻科学, 2014, 28(3): 267-276.
	GONG J L, XING Z P, HU Y J, et al. Difference in growth duration and utilization of temperature and solar radiation between indica and japonica super rice in the lower Yangtze and Huaihe River Valley[J]. Chinese Journal of Rice Science, 2014, 28(3): 267-276.(in Chinese with English abstract)
[5]	周曙东, 周文魁, 林光华, 等. 未来气候变化对我国粮食安全的影响[J]. 南京农业大学学报(社会科学版), 2013, 13(1): 56-65.
	ZHOU S D, ZHOU W K, LIN G H, et al. The impact of future climate change on China’s food security[J]. Journal of Nanjing Agricultural University (Social Sciences Edition), 2013, 13(1): 56-65.(in Chinese with English abstract)
[6]	徐富贤, 熊洪, 张林, 等. 再生稻产量形成特点与关键调控技术研究进展[J]. 中国农业科学, 2015, 48(9): 1702-1717.
	XU F X, XIONG H, ZHANG L, et al. Progress in research of yield formation of ratooning rice and its high-yielding key regulation technologies[J]. Scientia Agricultura Sinica, 2015, 48(9): 1702-1717.(in Chinese with English abstract)
[7]	易镇邪, 周文新, 屠乃美. 留桩高度对再生稻源库性状与物质运转的影响[J]. 中国水稻科学, 2009, 23(5): 509-516.
	YI Z X, ZHOU W X, TU N M. Effects of stubble height of the main crop on source-sink characteristics and assimilates transportation in ratooning rice[J]. Chinese Journal of Rice Science, 2009, 23(5): 509-516.(in Chinese with English abstract)
[8]	朱永川, 熊洪, 徐富贤, 等. 再生稻栽培技术的研究进展[J]. 中国农学通报, 2013, 29(36): 1-8.
	ZHU Y C, XIONG H, XU F X, et al. Progress on research of ratoon rice cultivation technology[J]. Chinese Agricultural Science Bulletin, 2013, 29(36): 1-8.(in Chinese with English abstract)
[9]	陈鸿飞, 张志兴, 林文雄. 促芽肥对水稻再生芽萌发生长过程蛋白质表达的影响[J]. 中国生态农业学报, 2014, 22(12): 1405-1413.
	CHEN H F, ZHANG Z X, LIN W X. Effects of nitrogen application for bud development on protein expression of ratooning buds of rice[J]. Chinese Journal of Eco-Agriculture, 2014, 22(12): 1405-1413.(in Chinese with English abstract)
[10]	王月超. 氮肥管理对再生稻产量形成的影响及其机理研究[D]. 武汉: 华中农业大学, 2019.
	WANG Y C. Effects of nitrogen management on yield formation of ratoon rice and the related mechanism[D]. Wuhan: Huazhong Agricultural University, 2019.(in Chinese with English abstract)
[11]	林文雄, 陈鸿飞, 张志兴, 等. 再生稻产量形成的生理生态特性与关键栽培技术的研究与展望[J]. 中国生态农业学报, 2015, 23(4): 392-401.
	LIN W X, CHEN H F, ZHANG Z X, et al. Research and prospect on physio-ecological properties of ratoon rice yield formation and its key cultivation technology[J]. Chinese Journal of Eco-Agriculture, 2015, 23(4): 392-401.(in Chinese with English abstract)
[12]	李博, 杨帆, 秦琴, 等. 播期对再生稻次适宜区杂交籼稻食味品质的影响[J]. 中国农业科学, 2022, 55(1): 36-50.
	LI B, YANG F, QIN Q, et al. Effects of sowing dates on eating quality of different indica hybrid rice in the sub-suitable region of ratoon rice[J]. Scientia Agricultura Sinica, 2022, 55(1): 36-50.(in Chinese with English abstract)
[13]	段门俊, 吴芸紫, 田玉聪, 等. 不同品种再生稻产量及品质比较研究[J]. 作物杂志, 2018(2): 61-67.
	DUAN M J, WU Y Z, TIAN Y C, et al. Comparision of yield and quality among different ratooning rice varieties[J]. Crops, 2018(2): 61-67.(in Chinese with English abstract)
[14]	陈莉. 不同水稻品种的再生特性及留桩高度对产量和质量的影响[D]. 长沙: 湖南农业大学, 2017.
	CHEN L. Regeneration characteristics and effects of stubble height on yield and quality for different rice varieties[D]. Changsha: Hunan Agricultural University, 2017.(in Chinese with English abstract)
[15]	陈天晔, 袁嘉琦, 刘艳阳, 等. 江淮下游不同播期对稻-麦周年作物产量、品质及温光资源利用的影响[J]. 作物学报, 2020, 46(10): 1566-1578.
	CHEN T Y, YUAN J Q, LIU Y Y, et al. Effects of different sowing dates on crop yield, quality, and annual light-temperature resources utilization for rice-wheat double cropping system in the lower reaches of the Yangtze-Huaihe Rivers Valley[J]. Acta Agronomica Sinica, 2020, 46(10): 1566-1578.(in Chinese with English abstract)
[16]	田红. 江淮地区极端气候事件的时空变化特征[J]. 自然灾害学报, 2007, 16(6): 36-41.
	TIAN H. Spatiotemporal change characteristics of extreme climate events in Changjiang-Huaihe Area[J]. Journal of Natural Disasters, 2007, 16(6): 36-41.(in Chinese with English abstract)
[17]	何连华. 基于日产量的中籼杂交稻机插适应性评价及高产特性研究[D]. 雅安: 四川农业大学, 2019.
	HE L H. Adaptability evaluation of medium indica hybrid rice for mechanical transplanting and its high yield characteristics based on daily yield[D]. Ya’an: Sichuan Agricultural University, 2019.(in Chinese with English abstract)
[18]	许轲, 孙圳, 霍中洋, 等. 播期、品种类型对水稻产量、生育期及温光利用的影响[J]. 中国农业科学, 2013, 46(20): 4222-4233.
	XU K, SUN Z, HUO Z Y, et al. Effects of seeding date and variety type on yield, growth stage and utilization of temperature and sunshine in rice[J]. Scientia Agricultura Sinica, 2013, 46(20): 4222-4233.(in Chinese with English abstract)
[19]	李秀芬, 贾燕, 黄元才, 等. 播栽期对水稻产量和产量构成因素及生育期的影响[J]. 生态学杂志, 2004, 23(5): 98-100.
	LI X F, JIA Y, HUANG Y C, et al. Effects of seeding time on grain yield, yield components and growth duration in different rice varieties[J]. Chinese Journal of Ecology, 2004, 23(5): 98-100.(in Chinese with English abstract)
[20]	李杰, 张洪程, 董洋阳, 等. 不同生态区栽培方式对水稻产量、生育期及温光利用的影响[J]. 中国农业科学, 2011, 44(13): 2661-2672.
	LI J, ZHANG H C, DONG Y Y, et al. Effects of cultivation methods on yield, growth stage and utilization of temperature and illumination of rice in different ecological regions[J]. Scientia Agricultura Sinica, 2011, 44(13): 2661-2672.(in Chinese with English abstract)
[21]	杨海生. 江苏水稻安全生育与产量形成的温光生态特性及其应用的研究[D]. 扬州: 扬州大学, 2003.
	YANG H S. The temperature-light characteristics of safe growth and yield formation of rice and its application in Jiangsu Province[D]. Yangzhou: Yangzhou University, 2003.(in Chinese with English abstract)
[22]	吕伟生, 曾勇军, 石庆华, 等. 近30年江西双季稻安全生产期及温光资源变化[J]. 中国水稻科学, 2016, 30(3): 323-334.
	LÜ W S, ZENG Y J, SHI Q H, et al. Changes in safe production dates and heat-light resources of double cropping rice in Jiangxi Province in recent 30 years[J]. Chinese Journal of Rice Science, 2016, 30(3): 323-334.(in Chinese with English abstract)
[23]	王孟佳, 殷敏, 褚光, 等. 长江中下游双季晚粳稻产量、生育时期及温光资源配置的生态性差异[J]. 中国水稻科学, 2021, 35(5): 475-486.
	WANG M J, YIN M, CHU G, et al. Ecological differences in yield, growth period and the utilization of temperature and light resources of double-cropping late japonica rice in the middle and lower reaches of the Yangtze River[J]. Chinese Journal of Rice Science, 2021, 35(5): 475-486.(in Chinese with English abstract)
[24]	童平, 杨世民, 马均, 等. 不同水稻品种在不同光照条件下的光合特性及干物质积累[J]. 应用生态学报, 2008, 19(3): 505-511.
	TONG P, YANG S M, MA J, et al. Photosynthetic characteristics and dry matter accumulation of hybrid rice varieties under different light conditions[J]. Chinese Journal of Applied Ecology, 2008, 19(3): 505-511.(in Chinese with English abstract)
[25]	苏李君, 刘云鹤, 王全九. 基于有效积温的中国水稻生长模型的构建[J]. 农业工程学报, 2020, 36(1): 162-174.
	SU L J, LIU Y H, WANG Q J. Rice growth model in China based on growing degree days[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(1): 162-174.(in Chinese with English abstract)
[26]	熊洪, 冉茂林, 徐富贤, 等. 南方稻区再生稻研究进展及发展[J]. 作物学报, 2000, 26(3): 297-304.
	XIONG H, RAN M L, XU F X, et al. Achievements and developments of ratooning rice in south of China[J]. Acta Agronomica Sinica, 2000, 26(3): 297-304.(in Chinese with English abstract)
[27]	胡清宇. 近30年江淮地区气候变化对主要作物生产的影响[D]. 南京: 南京农业大学, 2012.
	HU Q Y. The effect of climate change on main crops production during the last 30 years in Jianghuai Region[D]. Nanjing: Nanjing Agricultural University, 2012.(in Chinese with English abstract)
[28]	阮新民, 陈曦, 岳伟, 等. 气候变化对安徽省两熟制粮食作物物候期及周年气候资源分配与利用的影响[J]. 中国生态农业学报(中英文), 2021, 29(2): 355-365.
	RUAN X M, CHEN X, YUE W, et al. Effects of climate change on phenophases and annual climate resources distribution and utilization of major food crops under a double-cropping system in Anhui Province[J]. Chinese Journal of Eco-Agriculture, 2021, 29(2): 355-365.(in Chinese with English abstract)
[29]	宋蜜蜂, 蒋跃林. 安徽油菜生产的气象条件分析[J]. 安徽农学通报, 2007, 13(21): 44-46.
	SONG M F, JIANG Y L. Analysis on weather conditions of rape production in Anhui Provicne[J]. Anhui Agricultural Science Bulletin, 2007, 13(21): 44-46.(in Chinese with English abstract)
[30]	许莹, 马晓群, 吴文玉. 气候变化对安徽省主要农作物水分供需状况的影响[J]. 气候变化研究进展, 2012, 8(3): 198-204.
	XU Y, MA X Q, WU W Y. Impact of climate changes on water demand and supply of rice and winter wheat in Anhui Province[J]. Climate Change Research, 2012, 8(3): 198-204.(in Chinese with English abstract)

皖中不同类型再生稻品种产量与温光资源利用特征分析

Analysis of yield and utilization of temperature and light resources of different types of ratoon rice varieties in central Anhui, China

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

图/表 8

参考文献 30

相关文章 15

编辑推荐

Metrics

本文评价

[1]	许卫猛, 徐妍, 陈国立. 基于多种分析方法的糯玉米品质综合评价[J]. 浙江农业学报, 2025, 37(9): 1840-1848.
[2]	吴菊, 杨飞, 吴国泉, 傅贤, 徐晨光. 砂培和土壤栽培对黄瓜生长、产量与品质的影响[J]. 浙江农业学报, 2025, 37(9): 1905-1913.
[3]	朱为静, 吴佳, 洪春来, 朱凤香, 洪磊东, 张涛, 张硕, 诸惠芬. 秸秆覆盖对土壤水热肥及蟠桃产量和品质的影响[J]. 浙江农业学报, 2025, 37(9): 1924-1932.
[4]	裴惠民, 巫明明, 翟荣荣, 叶靖, 金月, 朱仪, 侯建军, 朱国富, 叶胜海. 低镉水稻基因功能与新品种培育研究进展[J]. 浙江农业学报, 2025, 37(9): 2012-2020.
[5]	张智颖, 邱琴, 侯立娟, 徐平, 蒋宁, 林金盛, 李辉平, 曲绍轩, 马林, 王伟霞, 李福后. 杀虫剂施用对秀珍菇和毛木耳的安全性评价[J]. 浙江农业学报, 2025, 37(8): 1733-1742.
[6]	严福林, 郎云虎, 简应权, 陈雄飞, 魏巍, 王志威, 安江勇, 任得强, 丁宁, 魏升华. 八爪金龙药材产量与品质对土壤理化性状的响应[J]. 浙江农业学报, 2025, 37(8): 1766-1775.
[7]	张智, 何豪豪, 郁妙, 许剑锋. 化肥减量配施土壤改良剂对土壤酸度、土壤养分和水稻产量的影响[J]. 浙江农业学报, 2025, 37(6): 1301-1308.
[8]	林小兵, 黎江, 成艳红, 王斌强, 何绍浪, 黄尚书, 黄欠如. 不同有机物料对土壤微生物生物量、矿质氮含量与水稻产量的影响[J]. 浙江农业学报, 2025, 37(6): 1309-1318.
[9]	董智超, 岳宁燕, 吕魏, 余晓燚, 郑凯文, 宋海星, 陈海飞. 高、低含油量油菜品种的产量、品质和氮利用效率对施氮量的响应差异[J]. 浙江农业学报, 2025, 37(5): 998-1008.
[10]	李艳翠, 李福强, 周波. 不同生育期亏缺灌溉对蒙古黄芪光合特性、产量与品质的影响[J]. 浙江农业学报, 2025, 37(4): 779-789.
[11]	秦宇坤, 陈俊英, 王玉萍, 张丽娟. 减氮增碳对长江流域棉花生产和氮素吸收利用的影响[J]. 浙江农业学报, 2025, 37(4): 869-879.
[12]	应永飞, 韩东轩, 孟芳, 俞遴, 沈佳栾, 汪开英. 沼液替代化肥对水稻产量、品质和土壤特性的影响[J]. 浙江农业学报, 2025, 37(4): 880-891.
[13]	万绍媛, 刘现波, 才硕, 时红, 程婕. 灌溉方式和种植方式对双季稻产量和稻米品质的影响[J]. 浙江农业学报, 2025, 37(2): 257-268.
[14]	李灿, 杨婷, 孙乙铭, 陈洪梁, 崔琦, 沈晓霞. 华东覆盆子优势种质资源的筛选与评价[J]. 浙江农业学报, 2025, 37(2): 349-364.
[15]	姜郑楚, 郝琪淳, 李懿, 王军新, 廖龙建, 谢前丹, 俞晨良, 喻卫武, 陈荣. 浙江不同品种(系)香榧叶片和种实品质比较[J]. 浙江农业学报, 2025, 37(2): 365-380.