顶芽斜插嫁接时砧木插孔角度的确定

    Determination of insertion angle of hole-insertion grafting method by grafting machine

    • 摘要: 在顶芽斜插嫁接机械作业中,砧木插孔角度是保证嫁接苗质量、嫁接苗成活率及嫁接机器人作业稳定性的重要因素。因此该文以瓜类嫁接栽培常用砧木和接穗--南瓜、黄瓜、西瓜等为研究对象,对斜插嫁接机的砧木插孔角度进行了研究分析。该文首先在瓜类蔬菜嫁接常用砧木和接穗在嫁接适宜期间的形态结构参数进行测量基础上,利用图像分析技术对砧木生长点处的内部结构进行研究,构建了砧木苗生长点内部髓腔结构模型,并结合顶芽斜插嫁接工艺要求:砧木打孔作业时插签既要避免损坏子叶也不要避免进入髓腔,经研究确定砧木插孔角度最大为75°。基于上述研究构建了顶芽斜插嫁接试验台,试验台的砧木插孔角度为45°~75°可调,并以黑子南瓜和黄瓜幼苗为嫁接对象,设定砧木插孔角度分别为45°、50°、55°、60°、62°、65°及70°,进行了嫁接作业性能实测。试验结果表明:当砧木插孔角度为60°时,插入砧木髓腔的比率较低,同时机械化嫁接作业稳定性高,嫁接成功率最高,且嫁接苗的成活率可达91%。

       

      Abstract: Abstract: Hole-insertion grafting method is widely used for cucurbit crops. The method establishes a very strong graft union without grafting clips. The key of successful grafting is to make hole at an optimal angle in the removed bud region so that the edge where the tool comes out through hypocotyls was below the opposite cotyledon. So during the hole-insertion grafting, the insertion angle is an important factor for the quality and survival of grafting plants, and mechanical stability. This study aimed to assess common rootstock and scion grafting cultivation in pumpkin, cucumber and watermelon, and investigated the effect of the insertion angle on the grafting mechanize. To achieve the objectives, structure parameters of rootstock and scion were measured, internal structure of hypocotyl growing point was analyzed by image analysis technique. The model was developed. The maximal insertion angle (75°) was determined by the grafting requirement that the insertion should avoid damaging cotyledon and entering hypocotyl cavity.The results showed that the insertion angle of perforate stick was not more than 75° for avoiding the insertion into the hypocotyls cavity. The aim of this study was to develop the semi-automatic grafting mechanism for grafted seedling on the basis of the hole-insertion grafting method and the insertion angle, which the grafting mechanism was adjustable in the range of 45°-75°. The experiment was carried out for researching the insertion angle of pumpkin and cucumber seedling using the grafting mechanism. In this experiment, the insertion angles were respectively set at 45°, 50°, 55°, 60°, 62°, 65°, 70°. In this grafting processing, the rootstock seedling and scion seedling were placed respectively in the rootstock clamping device and scion clamping device by operator, the grafting mechanism automatically completed clamping, punching, cutting and inserting. This report investigated shaping position and matching between the scion and the rootstock base on the structure for grafted seedlings by using image analysis technique. In this grafting method, grafted cuttings will be rooted and inserted in a new tray containing well watered medium, and healed at the same time inside a healing chamber. It is important to keep grafting seedling in a high moisture environment during the formation of the grafting union and healing period. In this experiment, grafted seedlings were placed in 95% humidity, temperature 26-28℃ during day and 19-21℃ during night, and complete darkness for initial 3 days. After 3 days of darkness, light was added. The experiment results showed that the rate of scion inserted into the rootstock cavity was low with the insertion angle of 60°, the successful ratio of grafting mechanism was high, and grafting survival rate was 91%. This method was effective in the view of punching, cutting and grafting process.

       

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