딸기는 근연교배가 다른 작물에 비해 상대적으로 약한 타 식성 작물이다. 딸기의 대다수 품종 육성방법은 품종간 교잡으로 부터 우수한 개체를 선발하는 선발육종을 기본으로 하여 왔다. 그러나 계통 육성방법도 우수한 유전자를 집적하기 위한 방법으로 많이 이용되어 왔었다. 따라서 딸기의 육종효율을 증진시키기 위해 자식 또는 근계교배를 통하여 조합능력이 높은 유전자형을 가진 근교계를 만들고자 형질이 우수한 품종을 대상으로 자식을 실시하였다. 이 자식계통 중 초세,
전국 15개 지역에서 수집된 227 클론으로 조성된 클론보존원에서 선발을 통해 육성된 새로운 대립 다수확성 복분자 딸기 품종 '두륜'은 평균 개체와 비교하여 줄기의 가시가 적고, 잎의 상면 광택이 강하며 크기가 큰 검은색의 과실 특성을 갖는다. 1998년부터 개화 결실 특성 조사를 실시하여 2001년 17개 클론이 2차 선발되었으며 이들 17개 클론에 대한 지역적응성 및 안정성 검정을 통해 최종 육성된 신품종 '두륜'은 결실지당 개화 수에서 17.2개,
A clone bank that contained highly productive and superior genotypes of R. coreanus Miq. was assembled in 1998. The clone bank was composed of a collection of 227 clones from 15 regions in Korea. From the clone bank, 198 clones that regularly completed flowering and fruiting were used as official materials for superior tree breeding. To evaluate the flowering and fruiting, the length of the fruiting lateral (LF), the number of flowers per fruiting lateral (NFL) and the number of fruit per fruiting lateral (NFFL) were investigated. Fruits were harvested when they fully ripen and the fruit length (FL), fruit width (FW), the weight of fruit (WF) and soluble solids were measured. In 2001, 17 of the original 227 clones were identified as being the most superior, and these selected genotypes were tested for regional adaptability in four different regions in 2002. Finally, these advanced selections including "Jung-Keum 5" were evaluated for flowering, fruiting and fruit production characteristics from 2002 to 2005. The new cultivar, "Jung-Keum 5" has black fruit color and larger fruit size than the contrast clone that was shown mean value for the most characteristics. Selection effect of the new cultivar were shown 148.8% (NFL), 151.2% (NFFL), 125.2% (WF) and 160.4% (yield/individual; YI) superior in comparison with the contrast clone, respectively.
Hardy Kiwifruit (A. arguta (Sieb. & Zucc.) Planch. ex Miq.) is one of the valuable species due to their edible fruits, high content of nutritious substances, especially abundant of vitamin C, and distinctive flavor and medicinal usage. Therefore, we have developed a new cultivar of A. arguta with large fruits and high yielding. For this, 168 candidate plants were collected from wild populations in 12 locations from 4 provinces (Chungbuk, Gangwon, Gyeongnam, and Jeonbuk) from 1985 to 1987. A clone bank that contained highly productive, superior genotypes of A. arguta was assembled in 1988, and 32 excellent clones were selected in 1996 through the clone tests for growth and fruiting. From these clones, we have been regularly investigated yield trials for the fruiting characteristics to evaluation of major agronomic traits, which are the average of Fruit Length (FL), Fruit Width (FW), Weight of Fruit (WF) and Individual Yield (IY), during consecutive 6 years (1997~2002). Finally, we have selected the new A. arguta cultivar, “Dae-Sung” with large fruits and high yielding and registered as a new variety denomination and certificated for variety production and merchandising in 2006 (Table 1). This cultivar is characterized by a diploid plant and oblong type in the fruit shape, and is particularly characterized by large fruit size (Fig. 1, Table 3). The major agronomic traits of this cultivar showed the large selection effect with an average of 41.6 mm (FL), 29.9 mm (FW), 18.9 g (WF), and 25.9 kg (IY), which are 28.8%, -0.7%, 16.7%, and 232.0% compared to the mean of 29 sample trees, respectively (Table 2).
The Hardy Kiwifruit (A. arguta (Sieb. & Zucc.) Planch. ex Miq.) is one of the valuable species due to their edible fruit, high content of nutritious substances, especially abundant of vitamin C, and distinctive flavor and medicinal usage. In order to develop a new A. arguta cultivar with larger fruit and high yielding, 168 candidate plants were collected from wild population in 12 locations distributed 4 provinces (Chungbuk, Gangwon, Gyeongnam, Jeonbuk) from 1985 to 1987. A clone bank that contained highly productive, superior genotypes of A. arguta was assembled in 1988, and 32 excellent clones were selected in 1996 through the clonal test for the growth and fruiting. Evaluation on these clones was done for the fruiting characteristics, yield trial, and major agronomic traits, such as Average Fruit Length (FL) and Width (FW), and Weight of Fruit (WF) and Individual Yields (IY), during 6 years (1997~2002). After the final selection, a new A. arguta cultivar, “Sae-Han” with larger fruit and high yielding was registered as a new variety denomination and certificated variety production and merchandising in 2006 (Table 1). “Sae-Han” is a tetraploid plant and has ellipsoid fruit shape, and has particularly large fruit size (Fig. 1, Table 3). The major agronomic traits of “Sae-Han” showed the large values and selection effect with an average of 43.6 mm (FL), 36.1 mm (FW), 29.4 g (WF), and 17.5 kg (IY), which are 35.0%, 19.9%, 81.5%, and 124.4% compared to the mean of 29 sample trees, respectively (Table 2).
Hardy Kiwifruit (A. arguta (Sieb. & Zucc.) Planch. ex Miq.) is one of the valuable species due to their edible fruits, high content of nutritious substances, especially abundant of vitamin C, and distinctive flavor and medicinal usage. Therefore, we have developed a new cultivar of A. arguta with large fruits and high yielding. For this, 168 candidate plants were collected from wild population in 12 locations from 4 provinces (Chungbuk, Gangwon, Gyeongnam, and Jeonbuk) from 1985 to 1987. A clone bank that contained highly productive, superior genotypes of A. arguta was assembled in 1988, and 32 excellent clones were selected in 1996 through clone tests for growth and fruiting. From these clones, we have regularly investigated yield trials for the fruiting characteristics for evaluation of major agronomic traits, which are the average of Fruit Length (FL), Fruit Width (FW), Weight of Fruit (WF) and Individual Yield (IY), during consecutive 6 years (1997~2002). Finally, we have selected the new A.arguta cultivar, “Chil-Bo” with large fruits and high yielding and registered as a new variety denomination and certificated for variety production and merchandising in 2006 (Table 1). This cultivar is characterized by a tetraploid plant and spheroid type in the fruit shape, and is particularly characterized by large fruit size (Fig. 1). The major agronomic traits of this cultivar showed the large selection effect with an average of 28.4 mm (FL), 36.9 mm (FW), 18.2 g (WF), and 24.2 kg (IY), which are -12.1%, 22.6%, 12.4%, and 210.3% compared to the mean of 29 sample trees, respectively (Table 2).