不同种植密度对3个小豆品种植株形态及产量的影响

doi:10.16035/j.issn.1001-7283.2020.06.020

Abstract

Abstract:

Three varieties and six planting densities were used to investigate their effects on the morphological traits and yields of adzuki bean with two factors randomized block design. The results showed that both variety and planting density had significant effects on traits and yields. The bottom pod height and the first internode length increased with the increase of planting density, while the number of nodes per main stem, the number of branches per main stem, the number of pods per plant, the number of seeds per pod and 100-seed weight decreased with the increase of planting density. The total yield increased first and then decreased with the increase of the planting density. However, there were significant differences between varieties and densities, and effects of interaction between varieties and planting densities were observed too. Planting density were positively correlated with plant height, bottom pod height and the first internode length, but negatively correlated with the number of branches per main stem, stem diameter and the number of nodes per main stem. Increasing planting density could effectively increase the adzuki bean plant height, bottom pod height and the first internode length and could effectively reduce the number of branches per stem, all of these traits benefits mechanical harvest. Combination of high yielding varieties with moderate increase of planting density can make adzuki bean plant morphological characteristics suitable for mechanical harvest. The present study will provide information for further study on breeding and mechanics for production of adzuki bean.

Key words: Adzuki bean, Planting density, Morphological characteristic, Yield, Correlation

Liu Zhenxing, Zhou Guimei, Ya Xiuxiu, Chen Jian, Meng Qingxiang, He Guoqing. Effects of Different Sowing Densities on the Morphological Traits and Yields of Three Adzuki Bean Varieties[J].Crops, 2020, 36(6): 137-142.

Figures/Tables 6

Table 1

Table 2

Table 3

Fig.1

Fig.2

Table 4

References 24

[1]	林汝法, 柴岩, 廖琴, 等. 中国小杂粮. 北京: 中国农业科学技术出版社, 2002: 192-209.
[2]	王丽侠, 程须珍, 王素华. 小豆种质资源研究与利用概述. 植物遗传资源学报, 2013,14(3):440-447.
[3]	郑卓杰. 中国食用豆类学. 北京: 中国农业出版社, 1997: 173-196.
[4]	李思平, 丁效东, 向丹, 等. 氮肥水平与栽植密度互作对不同生育期水稻生长及产量的影响. 华北农学报, 2019,34(4):174-182.
[5]	李虎, 陈传华, 刘广林, 等. 种植密度和施氮量对桂育9号农艺性状及产量的影响. 作物杂志, 2019(6):99-103.
[6]	李峰, 闫秋艳, 鲁晋秀, 等. 种植密度对不同玉米品种茎秆性状及产量的影响. 中国农业大学学报, 2019,24(11):8-15.
[7]	邓妍, 王创云, 赵丽, 等. 群体密度对玉米茎秆性状、土壤水分的影响及其与产量、倒伏率的关系. 华北农学报, 2017,32(5):216-223.
[8]	孙鹏, 张金山, 贾永红, 等. 立体匀播和种植密度对冬小麦农艺性状及光合特性的影响. 麦类作物学报, 2019,39(7):844-850.
[9]	邵庆勤, 周琴, 王笑, 等. 种植密度对小麦品种茎秆形态特征、化学成分及抗倒性能的影响. 南京农业大学学报, 2018,41(5):808-816.
[10]	田艺心, 高凤菊, 徐冉. 种植密度对高蛋白大豆经济性状和产量的影响. 中国油料作物学报, 2017,39(4):476-482.
[11]	王程, 刘兵, 金剑, 等. 密度对大豆农艺性状及产量构成因素空间分布特征的影响. 大豆科学, 2008,27(6):936-941.
[12]	程须珍, 王素华, 王丽侠. 小豆种质资源描述规范和数据标准. 北京: 中国农业出版社, 2006.
[13]	徐宁, 王明海, 王桂芳, 等. 小豆(Vigna angularis)不同种植密度效应研究. 作物杂志, 2009(4):63-67.
[14]	郭建华, 于崧, 于立河, 等. 种植方式和密度对小豆产量及干物质积累的影响. 作物杂志, 2017(1):113-118.
[15]	历春艳, 张磊, 张西亮, 等. 播种密度与多效唑组合对小豆农艺性状及产量的影响. 江苏农业科学, 2019,47(9):134-138.
[16]	王彦, 范保杰, 曹志敏, 等. 种植密度对小豆开花结荚规律的影响. 河北农业科学, 2018,22(2):17-22.
[17]	张翼飞, 于崧, 杨克军, 等. 不同氮钾肥对玉米茎秆形态力学特性及籽粒产量的影响. 生态学杂志, 2019,38(6):1741-1750.
[18]	吴海兵, 刘道红, 钟鸣, 等. 水分管理和钾肥施用对水稻产量和抗倒伏性的影响. 作物杂志, 2019(1):127-133.
[19]	李英骏, 张均, 贺德先. 磷钾肥配施对小麦茎秆力学特性的影响. 农业工程学报, 2010,26(4):147-150.
[20]	聂萌恩, 柳青山, 白文斌, 等. 喷施多效唑对谷子农艺性状及抗倒伏力的影响. 中国农学通报, 2019,25(33):35-41.
[21]	禤维言, 张涛, 黄永禄, 等. 喷施多效唑对甜高粱生长及生理特性的影响. 作物杂志, 2011(5):73-76.
[22]	陈晓光, 石玉华, 王成雨, 等. 氮肥和多效唑对小麦茎秆木质素合成的影响及其与抗倒伏性的关系. 中国农业科学, 2011,44(17):3529-3536. doi: 10.3864/j.issn.0578-1752.2011.17.005
[23]	马瑞琦, 亓振, 常旭虹, 等. 化控剂对冬小麦植株性状及产量品质的调节效应. 作物杂志, 2018(1):133-140.
[24]	丰光, 黄长玲, 邢锦丰. 玉米抗倒伏的研究进展. 作物杂志, 2008(4):12-14.

Related Articles 15

[1]	Wang Chuanqi, Wang Hongmei, Wei Xiaoxing, Ma Xiang, Zhou Qingping. Research Progress of Elymus sibiricus [J]. Crops, 2020, 36(6): 1-7.
[2]	Wang Huiwen, Li Lei, Yu Shaobo, Wang Qiang, Feng Yu, Ren Aixia, Lin Wen, Sun Min, Gao Zhiqiang. Contribution of Deep Ploughing and Furrow Sowing to Yield and Its Formation of Dryland Wheat [J]. Crops, 2020, 36(6): 116-122.
[3]	Qian Aiping, Cao Xiuxia, Zhang Wei, Yan Kuanjiang, Lu Junwu. Effects of Different Slow-Release Fertilizer Mix Proportions on the Growth and Yield of Dryland Flax [J]. Crops, 2020, 36(6): 128-131.
[4]	Xu Lin, Wu Kaichao, Pang Tian, Deng Zhinian, Zhang Ronghua, Huang Chengfeng, Huang Hairong, Li Yijie, Liu Xiaoyan, Qin Wenxian, Wang Weizan. Effects of Root Promoting Agent on the Development and Yield in Single Bud of Sugarcane [J]. Crops, 2020, 36(6): 132-136.
[5]	Lü Weisheng, Xiao Xiaojun, Huang Tianbao, Xiao Guobin, Li Yazhen, Xiao Fuliang, Han Depeng, Zheng Wei. Application Effect of Slow-Released Formulated Fertilizer on Oilseed Rape (Brassica napus L.) under Late Sowing Rice [J]. Crops, 2020, 36(6): 143-150.
[6]	Han Yunfei, Gao Riping, Ren Yongfeng, Zhao Peiyi, Liu Xiaoyue, Gao Yu, Zhang Peng, Liang Guangrong, Gao Jinlong. Effects of Sowing Dates on Growth and Yield of Hairy Vetch [J]. Crops, 2020, 36(6): 151-157.
[7]	Guo Dandan, Liu Zhewen, Chang Xuhong, Wang Demei, Tao Zhiqiang, Wang Yanjie, Yang Yushuang, Zhao Guangcai, Shi Shubing. Effects of Nitrogen Application on Yield and Quality of Wheat with Different Gluten Types [J]. Crops, 2020, 36(6): 158-162.
[8]	Yang Wanjun, Pan Xiangyu, Wang Xiuhua, Wang Lu, Zhao Yan. Genetic Diversity Analysis of Yield and Agronomic Traits of 119 Alfalfa Varieties (Lines) [J]. Crops, 2020, 36(6): 17-22.
[9]	Zhu Tongquan, Song Quanhao, Meng Xiangfeng. Influences of Various Growth Factors on Yield and Grain Quality in Wheat——Taking Zhumadian’s Wheat Production in the Past Ten Years as Example [J]. Crops, 2020, 36(6): 80-88.
[10]	Zhang Gang, Zhang Shijie, Wang Dejian, Yu Yuanchun. Analysis of Yield and Economic Benefit of Straw Incorporation under Rice-Wheat Double Cropping System [J]. Crops, 2020, 36(6): 97-103.
[11]	Cao Xiaochuang, Li Yefeng, Wu Longlong, Zhu Chunquan, Zhu Lianfeng, Zhang Junhua, Jin Qianyu. Effects of Organic Soluble Fertilizer on the Accumulation and Translocation of Dry Matter and Nitrogen of Rice [J]. Crops, 2020, 36(5): 110-118.
[12]	Sun Qi, Geng Yanqiu, Jin Feng, Liu Lixin, Zheng Huantong, Guo Liying, Shao Xiwen. Effects of Sowing Dates on Yield, Dry Matter and Nitrogen Accumulation and Translocationin Organs after Anthesis of Direct Seeding Rice [J]. Crops, 2020, 36(5): 119-126.
[13]	Hao Xiyu, Xiao Huanyu, Liang Jie, Wang Yingjie, Guo Wenyun. Effects and Optimum Rates of Nitrogen, Phosphorus and Potassium Fertilizer for Mung Bean [J]. Crops, 2020, 36(5): 127-132.
[14]	Luo Yuqiong, Yan Bo, Wu Ke, Xie Huimin, Liang He, Jiang Ligeng. Effects of No-Tillage and Straw Returning on Soil Fertility and Rice Yield in Farmland [J]. Crops, 2020, 36(5): 133-139.
[15]	Liu Wenting, Zhang Xinjun, Yang Cai, Bai Jing, Yang Xiaohong, Zhou Haitao. Analysis of Nutritional Quality Differences and Formation Factors of Naked Oat [J]. Crops, 2020, 36(5): 140-147.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

参数 Parameter	株高 Plant height (cm)	底荚高度 Bottom pod height (cm)	第一节间长 First internode length (cm)	茎粗 Stem diameter (mm)	主茎节数 Nodes of main stem	主茎分枝数 Branches of main stem	单株荚数 Pods per plant	荚长 Pod length (cm)	荚宽 Pod width (cm)	单荚粒数 Seed number per pod	百粒重 100-seed weight (g)	产量 Yield (kg/hm²)
最小值Minimum	45.20	15.70	1.40	5.40	18.70	0.70	10.60	7.70	0.60	4.40	10.30	1 911.40
最大值Maximum	77.00	30.70	2.50	8.00	22.90	4.40	27.50	8.40	0.80	6.20	14.00	3 072.40
平均值Average	59.57	21.85	1.89	6.32	20.47	2.01	17.24	7.97	0.67	5.37	11.75	2 428.61
标准差 Standard deviation	8.88	4.81	0.36	0.70	1.21	0.93	4.20	0.28	0.04	0.52	1.07	292.91
变异系数 Coefficient of variation (%)	14.91	21.99	19.04	11.15	5.93	46.41	24.35	3.48	6.02	9.62	9.14	12.06

品种 Variety	种植密度 Planting density (×10⁴/hm²)	株高 Plant height (cm)	底荚高度 Bottom pod height (cm)	第一节间长 First internode length (cm)	茎粗 Stem diameter (mm)	主茎节数 Nodes of main stem	主茎分枝数 Branches of main stem
冀红20 Jihong 20	9	52.47±1.70d	16.63±1.79c	1.89±0.16c	8.05±0.48a	21.40±0.60a	4.40±1.04a
	12	55.83±1.16c	18.37±0.55b	1.93±0.15c	7.27±0.28b	20.60±1.22a	2.67±0.23b
	15	59.97±2.48b	18.57±0.81b	2.20±0.30b	6.99±0.52c	20.53±0.90a	1.93±0.58c
	18	60.43±3.66b	23.23±1.96a	2.30±0.26ab	6.56±0.26d	19.67±0.46b	1.40±0.20d
	21	63.30±2.39a	23.30±16.1a	2.50±0.10a	6.55±0.38d	19.40±1.00b	0.93±0.31e
	24	65.43±2.04a	23.67±3.11a	2.53±0.21a	5.44±0.39e	19.20±0.80b	0.67±0.31e
冀红21 Jihong 21	9	45.17±1.70e	15.67±1.65d	1.40±0.32b	6.46±0.39a	21.93±2.53a	2.47±0.12a
	12	47.77±2.30d	17.80±0.56c	1.43±0.28b	6.20±0.10a	20.53±2.10b	2.40±0.35ab
	15	49.60±1.78d	18.50±0.79c	1.57±0.31ab	5.83±0.21b	19.73±0.23b	2.03±0.06ab
	18	56.13±3.40c	21.83±1.57b	1.60±0.17ab	5.72±0.33bc	19.33±2.60b	1.80±0.40bc
	21	63.57±1.96b	26.50±2.57a	1.75±0.26a	5.53±0.12cd	19.05±1.78c	1.47±0.12cd
	24	68.23±0.65a	26.70±0.87a	1.87±0.29a	5.39±0.15d	18.97±0.61c	1.20±0.40d
唐红201602 Tanghong 201602	9	53.43±2.80d	16.53±0.74c	1.50±0.26e	6.85±0.15a	22.93±1.14a	3.07±0.70a
	12	53.97±2.57d	16.93±1.46c	1.63±0.15de	6.72±0.2a	22.20±1.25ab	2.87±0.90a
	15	63.13±0.76c	21.13±0.67b	1.80±0.10cd	6.43±0.08ab	21.87±0.70ab	2.80±0.20a
	18	68.00±3.38b	28.10±1.21a	2.03±0.06bc	6.26±0.24bc	21.13±0.64b	1.47±0.12b
	21	73.87±3.07a	29.15±0.97a	2.40±0.17ab	6.00±0.23c	20.27±0.92c	1.33±0.23b
	24	77.03±1.90a	30.73±1.46a	2.47±0.12a	5.58±0.36d	19.33±1.14d	1.20±0.10b

品种 Variety	种植密度 Planting density (×10⁴/hm²)	单株荚数 Pods per plant	荚长 Pod length (cm)	荚宽 Pod width (cm)	单荚粒数 Seed number per pod	百粒重 100-seed weight (g)	产量 Yield (kg/hm²)
冀红20 Jihong 20	9	20.20±3.86a	8.36±0.53a	0.75±0.17a	6.25±0.06a	14.03±0.12a	2 545.21±125.83cd
	12	16.73±2.50ab	8.35±0.17a	0.74±0.06a	6.03±0.39a	13.87±0.72a	2 611.83±111.90c
	15	16.07±5.97ab	8.35±0.26a	0.73±0.03a	5.97±0.33a	12.63±0.61b	2 716.73±142.06b
	18	13.93±2.00bc	8.33±0.58ab	0.73±0.13a	5.93±0.10a	12.47±1.19b	3 072.37±195.59a
	21	11.40±0.40cd	8.30±0.47ab	0.72±0.17a	5.54±1.72a	12.33±0.49b	2 501.61±31.06d
	24	10.60±0.72d	8.25±0.14b	0.72±0.03a	5.39±0.04b	10.90±0.26c	2 390.94±108.22e
冀红21 Jihong 21	9	22.07±6.71a	7.77±0.08a	0.68±0.00a	5.77±0.51a	12.20±0.10a	1 911.42±30.67c
	12	18.73±2.00ab	7.73±0.14b	0.65±0.05a	5.47±0.43ab	11.77±0.21ab	2 013.84±27.97b
	15	16.07±2.32bc	7.72±0.33b	0.65±0.03a	5.39±0.38ab	11.50±0.35b	2 540.35±50.09a
	18	15.53±3.72bc	7.71±0.14b	0.63±0.03a	5.28±0.35b	11.40±0.46b	2 579.16±21.53a
	21	13.53±2.77cd	7.69±0.16b	0.65±0.00a	5.23±0.04b	11.37±0.60b	2 064.77±119.47b
	24	12.13±2.89d	7.65±0.50b	0.65±0.00a	4.68±0.05c	10.87±0.06c	2 035.70±21.59b
唐红201602 Tanghong 201602	9	27.53±4.23a	8.03±0.26a	0.67±0.03a	5.39±0.24a	12.33±0.15a	2 255.57±92.05d
	12	20.40±6.16b	8.02±0.18a	0.65±0.00a	5.34±0.50ab	11.43±0.21b	2 320.23±19.47cd
	15	20.13±1.03b	7.89±0.37b	0.65±0.03a	5.12±0.22ab	11.27±0.06b	2 623.90±53.11a
	18	19.53±1.72b	7.88±0.46b	0.65±0.03a	4.89±0.21bc	10.47±0.25c	2 682.07±80.57a
	21	18.07±0.81b	7.74±0.09b	0.64±0.03a	4.58±0.51cd	10.37±0.47c	2 456.02±67.71b
	24	17.60±0.92b	7.72±0.32b	0.63±0.03a	4.36±0.38d	10.33±0.25c	2 393.88±142.55bc

品种 Variety	株高 Plant height (cm)	底荚高度 Bottom pod height (cm)	第一节间长 First internode length (cm)	茎粗 Stem diameter (mm)	主茎节数 Nodes of main stem	主茎分枝数 Branches of main stem	单株荚数 Pods per plant	荚长 Pod length (cm)	荚宽 Pod width (cm)	单荚粒数 Seed number per pod	百粒重 100-seed weight (g)
冀红20 Jihong 20	0.88^**	0.93^**	0.64	-0.96^**	-0.96^**	-0.95^**	-0.98^**	-0.69	-0.90^**	0.12	-0.69
冀红21 Jihong 21	0.98^**	0.97^**	0.39	-0.98^**	-0.69	-0.99^**	-0.96^**	-0.68	-0.13	-0.37	-0.64
唐红201602 Tanghong 201602	0.98^**	0.96^**	0.77^*	-0.99^**	-0.99^**	-0.89^**	-0.83^**	-0.97^**	-0.92^**	-0.28	-0.94^**

Effects of Different Sowing Densities on the Morphological Traits and Yields of Three Adzuki Bean Varieties

RichHTML

PDF (PC)