黄承建, 赵思毅, 王季春, 王龙昌, 赵勇, 蔡叶茂, 滕艳, 高旭. 马铃薯/玉米不同行数比套作对马铃薯光合特性和产量的影响[J]. 中国生态农业学报(中英文), 2012, 20(11): 1443-1450. DOI: 10.3724/SP.J.1011.2012.01443
引用本文: 黄承建, 赵思毅, 王季春, 王龙昌, 赵勇, 蔡叶茂, 滕艳, 高旭. 马铃薯/玉米不同行数比套作对马铃薯光合特性和产量的影响[J]. 中国生态农业学报(中英文), 2012, 20(11): 1443-1450. DOI: 10.3724/SP.J.1011.2012.01443
HUANG Cheng-Jian, ZHAO Si-Yi, WANG Ji-Chun, WANG Long-Chang, ZHAO Yong, CAI Ye-Mao, TENG Yan, GAO Xu. Photosynthetic characteristics and yield of potato in potato/maize intercropping systems with different row number ratios[J]. Chinese Journal of Eco-Agriculture, 2012, 20(11): 1443-1450. DOI: 10.3724/SP.J.1011.2012.01443
Citation: HUANG Cheng-Jian, ZHAO Si-Yi, WANG Ji-Chun, WANG Long-Chang, ZHAO Yong, CAI Ye-Mao, TENG Yan, GAO Xu. Photosynthetic characteristics and yield of potato in potato/maize intercropping systems with different row number ratios[J]. Chinese Journal of Eco-Agriculture, 2012, 20(11): 1443-1450. DOI: 10.3724/SP.J.1011.2012.01443

马铃薯/玉米不同行数比套作对马铃薯光合特性和产量的影响

Photosynthetic characteristics and yield of potato in potato/maize intercropping systems with different row number ratios

  • 摘要: 以单作马铃薯为对照, 设置2︰2和3︰2两种马铃薯/玉米套作的行数比, 研究大田套作条件下马铃薯光合特性的动态变化及其对产量的影响。结果表明: 套作显著降低了马铃薯整个生育期叶面积指数(LAI)、比叶重(SLW)和叶绿素a/b值(Chla/b), 提高了马铃薯叶绿素a(Chla)、叶绿素b(Chlb)、叶绿素总(Chla+Chlb)含量。整个生育期套作3︰2行数比LAI显著高于套作2︰2行数比, SLW块茎形成期显著低于套作2︰2行数比, 苗期、淀粉积累期高于套作2︰2行数比; Chla、Chlb、Chla+Chlb块茎增长期显著高于套作2︰2行数比, 淀粉积累期低于套作2︰2行数比; Chla/b值块茎增长期和淀粉积累期显著高于套作2︰2行数比; 套作降低了3︰2行数比Chla和Chla+Chlb随生育期递减的速率。套作显著降低了马铃薯净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、气孔限制值(Ls), 提高了胞间CO2浓度(Ci)和水分利用率(WUE), 非气孔因素是套作马铃薯净光合速率降低的主要因素; 套作3︰2行数比的Pn、Gs、Tr、Ci显著高于套作2︰2行数比, WUE显著低于套作2︰2行数比。与单作相比, 套作显著降低了两种行数比的大薯数量和大薯鲜重; 套作2︰2行数比小薯数量和小薯鲜重显著降低, 但套作3︰2行数比小薯数量显著增加, 小薯鲜重差异不显著; 套作3︰2行数比小薯数量和小薯鲜重显著高于套作2︰2行数比。总之, 套作改变了马铃薯的光合特性, 并显著降低了马铃薯块茎产量; 2︰2行数比无套作优势(LER为0.88), 3︰2行数比具有较强的套作优势(LER为1.24), 在生产中宜采用套作3︰2行数比模式。

     

    Abstract: Intercropping of potato with maize has been a traditional cropping system in China widely practiced in mountain regions. However, yields of potato/maize systems have been limited by inappropriate potato-maize row ratios. A potato/maize intercropping field experiment with two different potato-maize row ratios was carried out to determine dynamic changes in a range of potato features. The elements analyzed included leaf area index (LAI), special leaf weight (SLW), chlorophyll a (Chla), chlorophyll b (Chlb), total chlorophyll (Chla+Chlb) and chlorophyll a/b ratio in potato at different developmental stages. Also gas exchanges at potato tuber development and yield stages were studied using monocropped potato as the control. The ratio 2︰2 meant two rows of potato to two rows of maize and that 3︰2 meant three rows of potato to two rows of maize. The results showed that while intercropping significantly reduced LAI, SLW and Chla/b, it increased Chla, Chlb and Chla+Chlb of potato at all growth stages. Compared with the 2︰2 intercropping system, the 3︰2 intercropping system had significantly higher LAI at all developmental stages; lower SLW at tuber initiation stage; higher SLW at vegetative growth and starch accumulation stages; higher Chla, Chlb and Chla+Chlb at tuber development stage; lower Chla, Chlb and Chla+Chlb at starch accumulation stage; and higher Chla/b at both tuber development and starch accumulation stages. Also Chla and Chla+Chlb declined much slowly in the 3︰2 than in the 2︰2 potato/maize system. Furthermore, intercropped potato induced declines in net photosynthetic rate (Pn), stomatal conductance (Gs), transpiration rate (Tr) and stomatal limitation (Ls). It, however, increased intercellular CO2 concentration (Ci) and water use efficiency (WUE). Variations in Pn, Gs and Ci suggested that intercropping limited photosynthetic activity in potato due to non-stomatal processes. Significantly higher Pn, Gs, Tr and Ci and lower WUE were noted in the 3︰2 than in the 2︰2 intercropping system. Also in comparison with monocropping, both the number and weight of big tubers (fresh tuber weight >50 g) per plant markedly dropped under intercropping. The number and weight of small tubers (fresh tuber weight ≤50 g) per plant also dropped in the 2︰2 cropping system. However, while the number of small tubers per plant improved, the weight of the small tubers largely remained unchanged in the 3︰2 cropping system. Both the number and weight of small tubers per plant were higher in the 3︰2 than in the 2︰2 intercropping system. No significant difference was noted in the number and weight of big tubers per plant between the 3︰2 and 2︰2 intercropping systems. This suggested that increasing potato rows more or less affected small tubers and not big tubers in potato/maize systems. In conclusion, intercropping substantially decreased tuber yield at harvest due to changes in photosynthetic characteristics of potato in potato/maize systems. The land equivalent ratios were 0.88 and 1.24 in the 2︰2 and 3︰2 intercropping systems, respectively. This suggested that the 3︰2 row ratio performed better than the 2︰2 row ratio in potato/maize intercropping systems.

     

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