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基于BP神經(jīng)網(wǎng)絡(luò)算法的溫室番茄CO2增施策略優(yōu)化
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國(guó)家自然科學(xué)基金資助項(xiàng)目(31271619)和高等學(xué)校博士學(xué)科點(diǎn)專項(xiàng)科研基金資助項(xiàng)目(20110008130006)


Optimization of CO2 Enrichment Strategy Based on BPNN for Tomato Plants in Greenhouse
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    摘要:

    CO2濃度是植物光合作用的主要原料之一,,確定植株生長(zhǎng)階段的最適CO2濃度需求量,對(duì)日光溫室內(nèi)CO2濃度調(diào)控具有重要意義。以開花期番茄植株為研究對(duì)象,將定植后的番茄分為4個(gè)CO2濃度梯度處理組,其中,,C1、C2、C3處理組CO2增施摩爾比分別為(700±50),、(1 000±50)、(1 300±50) μmol/mol,, CK處理組為溫室內(nèi)自然狀態(tài)下CO2摩爾比(約450 μmol/mol),。實(shí)驗(yàn)利用無線傳感器網(wǎng)絡(luò)節(jié)點(diǎn)實(shí)時(shí)監(jiān)測(cè)溫室環(huán)境因子,包括空氣溫濕度,、光照強(qiáng)度和CO2濃度,;利用LI-6400XT型便攜式光合速率儀進(jìn)行光合日動(dòng)態(tài)和環(huán)境因子交互影響實(shí)驗(yàn)測(cè)定,。光合日動(dòng)態(tài)組間差異性研究表明,對(duì)開花期番茄增施1 000~1 300 μmol/mol的CO2時(shí),,可使番茄單葉凈光合速率提高約37.13%~40.42%,。以環(huán)境因子為輸入?yún)?shù),建立基于BP神經(jīng)網(wǎng)絡(luò)的光合速率預(yù)測(cè)模型,,用于不同CO2濃度梯度下的光合日動(dòng)態(tài)預(yù)測(cè),。結(jié)果表明,模型訓(xùn)練集和測(cè)試集的相關(guān)系數(shù)分別為0.98和0.93,,預(yù)測(cè)精度較高,;C1、C2,、C3和CK處理組的日動(dòng)態(tài)預(yù)測(cè)相關(guān)系數(shù)分別為0.96,、0.94、0.78和0.96,,與實(shí)測(cè)結(jié)果吻合度較高且相對(duì)誤差較小,,因此該模型可以為可變環(huán)境下的番茄光合日變化動(dòng)態(tài)預(yù)測(cè)提供依據(jù)。

    Abstract:

    Carbon dioxide (CO2) as the important raw materials of plant growth in greenhouse, it is also one of the main factors that affects the plant photosynthesis. Adding CO2 gas fertilizer has been one of the important techniques for increasing production of tomatoes in greenhouse. In order to determine the proper amount of CO2 based on the plant demands, the impact of different CO2 concentrations on net photosynthesis rate (Pn) of tomato plants was studied. Tomatoes after planting were treated under four different CO2 concentration levels, including elevated CO2 concentrations of (700±50) μmol/mol (C1), (1 000±50) μmol/mol (C2), (1 300±50) μmol/mol (C3),, and ambient CO2 concentration in greenhouse (about 450 μmol/mol, CK). The above-mentioned CO2 enrichment was taken in the sunny daytime (09:00—12:00). During the experiment, firstly, the sensor nodes based on WSN were used to monitor greenhouse environmental parameters, including air temperature, air humidity, light intensity and CO2 concentration. Secondly, the diurnal dynamics of photosynthesis rate of tomato plants were achieved by LI-6400XT portable photosynthesis analyzer at the flowering stage. The parameters were measured by hourly from 08:00 to 18:00. In the environmental factors nested test of photosynthesis, the CO2 concentration gradients were set to 400, 600, 800, 1 000, 1 300 and 1 500 μmol/mol, respectively, the PAR gradients were set to 300, 600, 900 and 1 200 μmol/(m2·s), respectively, and the temperature gradients were set to 28℃ and 35℃, respectively. The air humidity came from the ambient environment (23.16%~46.07%). Then, in order to better understand the characteristics of tomato growth and achieve the purpose of the regulation of CO2 concentration in greenhouse, BP neural network was used to create photosynthesis prediction model according to the environmental factors nested test of photosynthesis. The diurnal dynamics of photosynthesis rate from different groups were simulated based on established model in the natural environment (except CO2 concentration), from which the CO2 concentration saturation point was obtained. The results indicated that CO2 enrichment raised Pn of tomato significantly, and the value was 37.13% and 40.42% higher in C2 and C3 than that in CK, respectively. Furthermore, the photosynthesis prediction model created by training group was accurate with average relative error of 3.91%, mean absolute error of 0.51 μmol/(m2·s), root mean square error of 0.79 μmol/(m2·s) and correlation coefficient of 0.98. The corresponding values of testing group were 10.08%, 1.36 μmol/(m2·s), 1.80 μmol/(m2·s) and 0.93, respectively. The prediction effect of diurnal dynamics of photosynthesis revealed that the correlation coefficient between the measured and calculated values was 0.96 when CO2 concentration was set to 700 μmol/mol, 0.94 when CO2 concentration was set to 1 000 μmol/mol, 0.78 when CO2 concentration was set to 1 300 μmol/mol, 0.96 in the 450 μmol/mol treatment. Therefore, the prediction model had high accuracy and certain universality, which could provide a theoretical basis for optimal regulation of photosynthetic rate dynamically and precise control of CO2 gas fertilizer in greenhouse.

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張漫,李婷,季宇寒,沙莎,蔣毅瓊,李民贊.基于BP神經(jīng)網(wǎng)絡(luò)算法的溫室番茄CO2增施策略優(yōu)化[J].農(nóng)業(yè)機(jī)械學(xué)報(bào),2015,46(8):239-245. Zhang Man, Li Ting, Ji Yuhan, Sha Sha, Jiang Yiqiong, Li Minzan. Optimization of CO2 Enrichment Strategy Based on BPNN for Tomato Plants in Greenhouse[J]. Transactions of the Chinese Society for Agricultural Machinery,2015,46(8):239-245.

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  • 收稿日期:2015-03-24
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  • 在線發(fā)布日期: 2015-08-10
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