Fruit yield, yield components, fruit mineral content, total phenolic content, antioxidant activity and irrigation water use efifciency (IWUE) of summer squash responses to different irrigation quantities were evalua...Fruit yield, yield components, fruit mineral content, total phenolic content, antioxidant activity and irrigation water use efifciency (IWUE) of summer squash responses to different irrigation quantities were evaluated with a ifeld study. Irrigations were done when the total evaporated water from a Class A pan was about 30 mm. Different irrigation quantities were adjusted using three different plant-pan coefifcients (Kcp, 100% (Kcp1), 85% (Kcp2) and 70% (Kcp3)). Results indicated that lower irrigation quantities provided statistically lower yield and yield components. The highest seasonal fruit yield (80.0 t ha-1) was determined in the Kcp1 treatment, which applied the highest volume of irrigation water (452.9 mm). The highest early fruit yield, average fruit weight and fruit diameter, length and number per plant were also determined in the Kcp1 treatment, with values of 7.25 t ha-1, 264.1 g, 5.49 cm, 19.95 cm and 10.92, respectively. Although the IWUE value was the highest in the Kcp1 treatment (176.6 kg ha-1 mm-1), it was statistically similar to the value for Kcp3 treatment (157.1 kg ha-1 mm-1). Total phenolic content and antioxidant activity of fruits was higher in the Kcp1 (44.27 μg gallic acid equivalents (GAE) mg-1 fresh sample) and in the Kcp2 (84.75%) treatments, respectively. Major (Na, N, P, K, Ca, Mg and S) and trace (Fe, Cu, Mn, Zn and B) mineral contents of squash fruits were the highest in the Kcp2 treatment, with the exception of P, Ca and Cu. Mineral contents and total phenolic content were signiifcantly affected by irrigation quantities, but antioxidant activity was not affected. It can be concluded that the Kcp1 treatment was the most suitable for achieving higher yield and IWUE. However, the Kcp2 treatment will be the most suitable due to the high fruit quality and relatively high yield in water shortage conditions.展开更多
Greenhouse summer squash is a major type of greenhouse vegetable in Shandong Province.In summer,there is a three-month idle period of greenhouse summer squash.Volvariella volvacea is a high temperature resistant high-...Greenhouse summer squash is a major type of greenhouse vegetable in Shandong Province.In summer,there is a three-month idle period of greenhouse summer squash.Volvariella volvacea is a high temperature resistant high-quality edible fungus.In practice,it is able to use the spent mushroom substrate of Flammulina velutipes to cultivate V.volvacea.In the idle period of greenhouse summer squash,cultivating V.volvacea using the spent mushroom substrate of F.velutipes has high economic and environmental benefits.The cultivation techniques mainly include the preparation of cultivation materials,preliminary preparation for the greenhouse,planting management of V.volvacea,and returning the spent mushroom substrate to the field.By comparison with the conventional summer squash planting,this technique has higher economic benefits and its application prospects will be broad.展开更多
文摘Fruit yield, yield components, fruit mineral content, total phenolic content, antioxidant activity and irrigation water use efifciency (IWUE) of summer squash responses to different irrigation quantities were evaluated with a ifeld study. Irrigations were done when the total evaporated water from a Class A pan was about 30 mm. Different irrigation quantities were adjusted using three different plant-pan coefifcients (Kcp, 100% (Kcp1), 85% (Kcp2) and 70% (Kcp3)). Results indicated that lower irrigation quantities provided statistically lower yield and yield components. The highest seasonal fruit yield (80.0 t ha-1) was determined in the Kcp1 treatment, which applied the highest volume of irrigation water (452.9 mm). The highest early fruit yield, average fruit weight and fruit diameter, length and number per plant were also determined in the Kcp1 treatment, with values of 7.25 t ha-1, 264.1 g, 5.49 cm, 19.95 cm and 10.92, respectively. Although the IWUE value was the highest in the Kcp1 treatment (176.6 kg ha-1 mm-1), it was statistically similar to the value for Kcp3 treatment (157.1 kg ha-1 mm-1). Total phenolic content and antioxidant activity of fruits was higher in the Kcp1 (44.27 μg gallic acid equivalents (GAE) mg-1 fresh sample) and in the Kcp2 (84.75%) treatments, respectively. Major (Na, N, P, K, Ca, Mg and S) and trace (Fe, Cu, Mn, Zn and B) mineral contents of squash fruits were the highest in the Kcp2 treatment, with the exception of P, Ca and Cu. Mineral contents and total phenolic content were signiifcantly affected by irrigation quantities, but antioxidant activity was not affected. It can be concluded that the Kcp1 treatment was the most suitable for achieving higher yield and IWUE. However, the Kcp2 treatment will be the most suitable due to the high fruit quality and relatively high yield in water shortage conditions.
基金Sub-topics of National Key R&D program(2016YFD201306-03)Science and Technology Innovation Project of Shandong Academy of Agricultural Sciences(CXGC2016B09).
文摘Greenhouse summer squash is a major type of greenhouse vegetable in Shandong Province.In summer,there is a three-month idle period of greenhouse summer squash.Volvariella volvacea is a high temperature resistant high-quality edible fungus.In practice,it is able to use the spent mushroom substrate of Flammulina velutipes to cultivate V.volvacea.In the idle period of greenhouse summer squash,cultivating V.volvacea using the spent mushroom substrate of F.velutipes has high economic and environmental benefits.The cultivation techniques mainly include the preparation of cultivation materials,preliminary preparation for the greenhouse,planting management of V.volvacea,and returning the spent mushroom substrate to the field.By comparison with the conventional summer squash planting,this technique has higher economic benefits and its application prospects will be broad.