A composition for forming a biodegradable horticultural growing foam includes a vegetable oil-based polyol, an aliphatic isocyanate, an alkyl polyglucoside, a foaming agent including an aqueous metal carbonate solution, and a biomass. Based on 100 parts by weight of the vegetable oil-based polyol, the aliphatic isocyanate, alkyl polyglucoside, aqueous metal carbonate solution, and biomass are respectively present in amounts ranging from 20 to 75 parts by weight, ranging from 2 to 27 parts by weight, ranging from 1 to 6 parts by weight, and of at least 20 parts by weight. A biodegradable horticultural growing foam prepared by the composition is also disclosed.

A composition for forming a biodegradable horticultural growing foam includes a vegetable oil-based polyol, an aliphatic isocyanate, an alkyl polyglucoside, a foaming agent including an aqueous metal carbonate solution, and a biomass. Based on 100 parts by weight of the vegetable oil-based polyol, the aliphatic isocyanate, alkyl polyglucoside, aqueous metal carbonate solution, and biomass are respectively present in amounts ranging from 20 to 75 parts by weight, ranging from 2 to 27 parts by weight, ranging from 1 to 6 parts by weight, and of at least 20 parts by weight. A biodegradable horticultural growing foam prepared by the composition is also disclosed.

The present disclosure discloses a method for tomato soilless cultivation with suspended trough, including four aspects: setting of soilless cultivation substrate trough, preparation of soilless cultivation substrate, efficient and economical grafting and plant management. The efficient and economical grafting includes seedling raising, preparation of new scion, grafting and healing culture. The plant management includes planting, pruning and vine raising, flower and fruit management, and plant type maintenance. the present disclosure utilizes a soilless cultivation substrate trough, which can overcome the shortcomings of poor water retention, difficult control of temperature and water and fertilizer application in substrate bag cultivation and give full play to the characteristics of the cultivation substrate. The use of efficient and economical grafting and supporting plant management methods can optimize plants configuration, simplifying the work content of plant management, and improving the utilization rate of cultivation space.

A plant growing assembly comprises a pod with an upper surface and a rigid open-mouthed vessel, these components being matable. The pod is of one piece and carries a growing medium and seeds.

Cellulose filament medium for growing plant seedlings, comprising mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture. Composition of matter suitable for forming a cellulose filament medium for growing plant seedlings, comprising: mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture. Method of forming a medium for growing plant seedlings, comprising: adding a sufficient amount of water to a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture, to lower the consistency to between about 14% to 27%. Method of growing plant seedlings comprising: implanting plant seeds in a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture.

Cellulose filament medium for growing plant seedlings, comprising mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture. Composition of matter suitable for forming a cellulose filament medium for growing plant seedlings, comprising: mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture. Method of forming a medium for growing plant seedlings, comprising: adding a sufficient amount of water to a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture, to lower the consistency to between about 14% to 27%. Method of growing plant seedlings comprising: implanting plant seeds in a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture.

A straw-based pot body blanket seedling growth substrate using straw fibres as a framework, utilising an enhancer, a retention aid and a wet strength agent as additives, and being prepared from composite decomposed livestock manure, perlite and vermiculite, the addition amount of the straw fibres being 60-70 v/v %, the addition amount of the decomposed livestock manure being 5-10 v/v %, the addition amount of the perlite being 5-10 v/v %, the addition amount of the vermiculite being 5-10 v/v %. The pot body blanket seedling growth substrate is suitable for cutting and easily implementing fully automated transplantation, is beneficial for root growth, shortens seeding growth periods, and increases seedling growth bed emergence rates. The pot body blanket seedling growth substrate may be applied to solanaceae seedling growth, and can also provide a block-shaped substrate for landscape flowers and plants in a three-dimensional arrangements.

A straw-based pot body blanket seedling growth substrate using straw fibres as a framework, utilising an enhancer, a retention aid and a wet strength agent as additives, and being prepared from composite decomposed livestock manure, perlite and vermiculite, the addition amount of the straw fibres being 60-70 v/v %, the addition amount of the decomposed livestock manure being 5-10 v/v %, the addition amount of the perlite being 5-10 v/v %, the addition amount of the vermiculite being 5-10 v/v %. The pot body blanket seedling growth substrate is suitable for cutting and easily implementing fully automated transplantation, is beneficial for root growth, shortens seeding growth periods, and increases seedling growth bed emergence rates. The pot body blanket seedling growth substrate may be applied to solanaceae seedling growth, and can also provide a block-shaped substrate for landscape flowers and plants in a three-dimensional arrangements.

The present invention discloses a method for remedying sandy land by using a simulated loam substrate spray-seeding technology. The method includes the following steps: first, carrying out a simple sand-fixing treatment to lay a metal mesh in sandy land, the metal mesh being fixed to the surface of the sandy land by a sand-fixing pile; second, spray-seeding a seed into the sandy land by means of simulated loam substrate spray-seeding; and finally, when the spray-seeding is completed, carrying out maintenance management, including adding a protective plate around the metal mesh, covering with a non-woven fabric, watering, fertilizing, reseeding, and post-monitoring. The method for remedying sandy land by using a simulated loam substrate spray-seeding technology provided by the present invention adopts a two-layer spray-seeding method, and rapidly simulates a simulated loam substrate suitable for plant growth in natural world by bionics; the simulated loam substrate has a good water retention capacity, which is conducive to a higher germination rate of a seed, root development, a microbial activity, nutrient transformation, and plant growth and development; and with less investment and a quick effect, the method is suitable for large-scale sand control.

Cellulose filament medium for growing plant seedlings, comprising mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture. Composition of matter suitable for forming a cellulose filament medium for growing plant seedlings, comprising: mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture. Method of forming a medium for growing plant seedlings, comprising: adding a sufficient amount of water to a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 28% and 35% in the mixture, to lower the consistency to between about 14% to 27%. Method of growing plant seedlings comprising: implanting plant seeds in a mixture of water and cellulose filaments, the cellulose filaments being at a consistency of between about 4% and 50% in the mixture.