CN110235685B - Mixed planting method for interplanting nandina domestica under thin evodia - Google Patents

Abstract

The invention discloses a mixed planting method for interplanting baphicacanthus cusia bremek under thin trifurcate, which comprises the following steps: s1, preparing high-quality seedlings; s2, practical culture; s3, preparing for planting; s4, planting the thin evodia seedlings; s5, planting south isatis seedling: planting the south isatis blue seedlings within a range of 2.3 meters around the thin evodia seedlings, wherein the number of the south isatis blue seedlings planted around each thin evodia seedling cannot exceed 10, a proper amount of nutrient solution is dripped into irrigation water after planting, the irrigation amount is controlled to be 30-40ml per thin evodia seedling, and a shading net is laid above the south isatis blue seedlings for shading after planting; s6, digging a watering ditch; s7, weeding and deinsectization are maintained; s8, harvesting and supplementing; through planting space demand according to different plants and according to corresponding planting regulation, can realize that chinese-medicinal material plants the combination of income cycle short crop and cycle length crop, with the idle land rational utilization in the forest, reach the purpose of increasing income.

Description

Mixed planting method for interplanting nandina domestica under thin evodia

Technical Field

The invention relates to the technical field of Chinese herbal medicine planting, in particular to a mixed planting method for interplanting baphicacanthus cusia under thin evodia.

Background

South isatis root, name of traditional Chinese medicine. Is prepared from dried root and rhizome of herba Kalimeridis of Acanthaceae by removing impurities, cleaning, moistening, slicing, and drying. In the Chiense on Sichuan Chinese herbs (Yan Zhi): "clear heat and remove toxicity, avoid epidemic and kill parasites". Enter liver and stomach meridians. It is used to treat typhoid fever, erysipelas, pestilence, suppurative parotitis and fever with swollen head. "

Thin bitter leaves, it is distributed in Fujian, Guangdong, Guangxi, Hainan and Yunnan provinces. A plant of the Rutaceae family. Has medicinal value. The height is 2-8 m, and the whole plant is bitter. The bark is grey white and has long round holes. The leaves are three compound leaves, and are opposite; the leaf stalk is 3-10 cm long, and the base part is slightly expanded; the lobules are round and needle-shaped, 6-12 cm long and 2-6 cm wide, are made of paper, have blunt tips at the tips, are all-edged or irregularly and shallowly wavy, are dark green on the leaves, yellow green below, have glandular spots and are short in lobule petioles. The chamber-shaped cone inflorescence is axillary, the axes and the pedicel are short and soft at the beginning, and the flower falls off gradually after the flower. Small flower, single character, yellow white, slight fragrance; the calyx is deep-split, wide oval and about 0.5mm long; 4, petals which are oval to long round and have 1.5-2 mm long and glandular spots; the male flower has stamens of 4, which are longer than the petals, thready, long and round in the shape of an anther ovum, and short and small in a degenerated ovary; the female flower has thick ovary, hair, degenerated stamen 4, shorter than petal, and sterility of anther. The whole-length fruit of the Gu is usually 2-3, but is diluted 1 or 2, and the epicarp is dark yellow brown to red brown and has deciduous spots; the seeds are black and glossy, and have an egg-shaped spherical shape.

However, the existing planting processes of the trifacial bitter and the south isatis are common individual planting, but the following defects exist in the planting process:

in the individual planting process in the prior art, the long period of the planting of the trifurcate bitter always causes no harvest for four to five years after the planting of the trifurcate bitter, so that the defects of space and time in the planting process are caused, and the requirements of the prior art cannot be met.

Disclosure of Invention

The invention aims to provide a mixed planting method for interplanting baphicacanthus cusia under thin trifurcate to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a mixed planting method for interplanting baphicacanthus cusia under thin evodia comprises the following steps:

s1, preparing high-quality seedlings: selecting high-quality south isatis root seedlings and thin evodia seedlings, and culturing for one week in an optimal growth environment;

s2, utility culture: sampling soil at a position of a planting base to be planted, burying the soil in a flowerpot, cultivating corresponding seedlings in the soil for a week, observing the growth condition of the seedlings, and observing the quality of the corresponding seedlings after the last day, wherein the seedlings with high quality are selected;

s3, preparing for planting: cleaning roots and stems of the seedlings of the trifoliate bitter and the south isatis blue in the planting process, digging a proper amount of river mud at the river side, preparing mud bags by using soil mixed with the river mud of a planting base, and respectively wrapping the roots and stems of the seedlings of the trifoliate bitter and the south isatis blue with the mud bags for later use;

s4, planting the bitter leaves of the Evodia trifoliata: planting the thin evodia lepta seedlings in a planting base, wherein the planting of each seedling keeps a space of 1.2-1.5 meters with the surrounding seedlings, irrigating the seedlings after planting, and dripping a proper amount of nutrient solution into the water irrigated by each seedling, wherein the irrigation amount is kept at 50-60 ml;

s5, planting south isatis seedling: planting the south isatis blue seedlings within a range of 2.3 meters around the thin evodia seedlings, wherein the number of the south isatis blue seedlings planted around each thin evodia seedling cannot exceed 10, a proper amount of nutrient solution is dripped into irrigation water after planting, the irrigation amount is controlled to be 30-40ml per thin evodia seedling, and a shading net is laid above the south isatis blue seedlings for shading after planting;

s6, digging and irrigating a ditch: then excavating a ditch at a position of 1.2-1.5 meters outside each seedling to form a net-shaped ditch covering surface;

s7, maintaining weeding and deinsectization: carrying out artificial weeding in the first two months in the planting process, spraying pesticides afterwards to carry out artificial deinsectization in the first 1.5 months in the weeding planting process, and spraying a proper amount of pesticides according to seasons and actual conditions;

s8, harvest and supplement: harvesting the evergreen trees and the head of the Baphicacanthus cusia Schott in one year in half a year, harvesting the Baphicacanthus cusia Schott in two years in a period of qualified drug effect, harvesting the Baphicacanthus cusia Schott in five years, wherein the growth height of the Baphicacanthus Cuott in two years is about 2m, removing a shading net above the Baphicacanthus Customia Schott below, and ensuring the shading effect of the Baphicacanthus Customia Schott by the tree shade of the Baphicacanthus Customia Schott, wherein the Baphicacanthus Cunninghamott and the Baphicacanthus Cunninghamiae are planted at the bottom of one month every year, the Baphicacanthus Cunninghamiae Cunninghamatum is harvested for the first time in the middle ten days of the current month, and the second harvesting is harvested at the bottom of the next month.

Preferably, the soil of the planting base in S2 is wetted with river water after sampling, and 1-2 drops of nutrient solution are dropped into the wetted river water.

Preferably, the ratio of the river mud of S3 to the soil of the planting base is 2:1.5, and the seedling roots are wrapped and then wetted with river water.

Preferably, the water containing the nutrient solution is irrigated twice a day in the first week after planting of S4, the water containing the nutrient solution is irrigated once a day in the second week, the normal river water is irrigated once, the normal river water is irrigated twice in the third week, and then proper irrigation is performed according to weather conditions.

Preferably, the water containing the nutrient solution is irrigated twice a day in a first week of S5 according to an irrigation amount once a day and ordinary river water is irrigated once in an intermediate period, the water containing the nutrient solution is irrigated once a day in a second week and ordinary river water is irrigated once a day in a third week, and the ordinary river water is irrigated twice a day in a third week, and then the appropriate irrigation is performed according to weather conditions.

Preferably, the corresponding mesh node in the canal of S6 excavates a pit with a depth of 50 cm.

Compared with the prior art, the invention has the beneficial effects that:

the five-year-round interplanting of the thin leaf evodia fruit can achieve qualified drug effect, benefits begin to be generated in half a year, one year and two years after the thin leaf evodia fruit is interplanted on the open space below the thin leaf evodia fruit, five-year benefits of the thin leaf evodia fruit, short-term benefits, medium-term benefits and long-term benefits are obtained, the thin leaf evodia fruit is interplanted with the thin leaf evodia fruit, the thin leaf evodia fruit and the thin leaf evodia fruit, so that the overall benefits are greatly increased when the thin leaf evodia fruit is used, and the situation that the planting is polluted due to long-term benefits when the thin leaf evodia fruit is used is reduced.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A mixed planting method for interplanting baphicacanthus cusia under thin evodia comprises the following steps:

s1, preparing high-quality seedlings: selecting high-quality south isatis root seedlings and thin evodia seedlings, and culturing for one week in an optimal growth environment;

s2, utility culture: sampling soil at a position needing to be planted in a base, burying the soil in a flowerpot, cultivating corresponding seedlings in the soil for a week, observing the growth condition of the seedlings, observing the quality of the corresponding seedlings in the last day, wherein the seedlings with high quality are selected, wetting the soil of the planting base with river water after sampling, and dripping 1-2 drops of nutrient solution into the wetted river water;

s3, preparing for planting: cleaning roots and stems of the seedlings of the trifoliate bitter and the south isatis blue in the planting process, digging a proper amount of river mud at the river side, preparing mud bags by using soil mixed with the river mud of a planting base, respectively wrapping the roots and stems of the seedlings of the trifoliate bitter and the south isatis blue with the mud bags for later use, wherein the ratio of the river mud to the soil of the planting base is 2:1.5, and wetting by using river water after wrapping the roots and stems of the seedlings;

s4, planting the bitter leaves of the Evodia trifoliata: planting the thin evodia lepta seedlings in a planting base, wherein the planting of each seedling keeps a space of 1.2-1.5 meters with the surrounding seedlings, irrigating after planting the seedlings, a proper amount of nutrient solution is dripped into water irrigated by each seedling, the irrigation amount is kept at 50-60ml, water containing the nutrient solution is irrigated twice every day in the first week after planting, water containing the nutrient solution is irrigated once every day in the second week, ordinary river water is irrigated once, ordinary river water is irrigated twice in the third week, and then proper amount of irrigation is carried out according to weather conditions;

s5, planting south isatis seedling: planting the south isatis blue seedlings around the trifoliate bitter seedlings, wherein the number of the south isatis blue seedlings planted around each trifoliate bitter seedling cannot exceed 10, a proper amount of nutrient solution is dripped into irrigation water after planting, the irrigation amount is controlled to be 30-40ml for each plant, a shading net is laid above the south isatis blue seedlings to shade after planting is completed, the irrigation amount which is once installed every day in the first week is used for irrigating water containing the nutrient solution twice, common river water is irrigated once in the middle period, water containing the nutrient solution is irrigated once every day in the second week and is irrigated once, the common river water is irrigated twice every day in the third week, and then the proper amount of irrigation is carried out according to weather conditions;

s6, digging and irrigating a ditch: then excavating a ditch at a position of 1.2-1.5 meters outside each seedling to form a net-shaped ditch covering surface, and excavating pits with the depth of 50 centimeters at corresponding net-shaped nodes in the ditch;

s7, maintaining weeding and deinsectization: carrying out artificial weeding in the first two months in the planting process, spraying pesticides afterwards to carry out artificial deinsectization in the first 1.5 months in the weeding planting process, and spraying a proper amount of pesticides according to seasons and actual conditions;

s8, harvest and supplement: harvesting the evergreen trees and the head of the Baphicacanthus cusia Schott in one year in half a year, harvesting the Baphicacanthus cusia Schott in two years in a period of qualified drug effect, harvesting the Baphicacanthus cusia Schott in five years, wherein the growth height of the Baphicacanthus Cuott in two years is about 2m, removing a shading net above the Baphicacanthus Customia Schott below, and ensuring the shading effect of the Baphicacanthus Customia Schott by the tree shade of the Baphicacanthus Customia Schott, wherein the Baphicacanthus Cunninghamott and the Baphicacanthus Cunninghamiae are planted at the bottom of one month every year, the Baphicacanthus Cunninghamiae Cunninghamatum is harvested for the first time in the middle ten days of the current month, and the second harvesting is harvested at the bottom of the next month.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The mixed planting method for interplanting baphicacanthus cusia under thin evodia is characterized by comprising the following steps of:

s1, preparing high-quality seedlings: selecting high-quality south isatis root seedlings and thin evodia seedlings, and culturing for one week in an optimal growth environment;

s2, utility culture: sampling soil at a position of a planting base to be planted, burying the soil in a flowerpot, cultivating corresponding seedlings in the soil for a week, observing the growth condition of the seedlings, and observing the quality of the corresponding seedlings after the last day, wherein the seedlings with high quality are selected;

s3, preparing for planting: cleaning roots and stems of the seedlings of the trifoliate bitter and the south isatis blue in the planting process, digging a proper amount of river mud at the river side, preparing mud bags by using soil mixed with the river mud of a planting base, and respectively wrapping the roots and stems of the seedlings of the trifoliate bitter and the south isatis blue with the mud bags for later use;

s4, planting the bitter leaves of the Evodia trifoliata: planting the thin evodia lepta seedlings in a planting base, wherein the planting of each seedling keeps a space of 1.2-1.5 meters with the surrounding seedlings, irrigating the seedlings after planting, and dripping a proper amount of nutrient solution into the water irrigated by each seedling, wherein the irrigation amount is kept at 50-60 ml;

s5, planting south isatis seedling: planting the south isatis blue seedlings within a range of 2.3 meters around the thin evodia seedlings, wherein the number of the south isatis blue seedlings planted around each thin evodia seedling cannot exceed 10, a proper amount of nutrient solution is dripped into irrigation water after planting, the irrigation amount is controlled to be 30-40ml per thin evodia seedling, and a shading net is laid above the south isatis blue seedlings for shading after planting;

s6, digging and irrigating a ditch: then excavating a ditch at a position of 1.2-1.5 meters outside each seedling to form a net-shaped ditch covering surface;

s7, maintaining weeding and deinsectization: carrying out artificial weeding in the first two months in the planting process, spraying pesticides for weeding in the later two months, and carrying out appropriate pesticide spraying according to seasons and actual conditions for deinsectization;

s8, harvest and supplement: harvesting folium Isatidis and rhizoma Et radix Baphicacanthis Cusiae when rhizoma Et radix Baphicacanthis Cusiae grows to half a year and one year, collecting rhizoma Et radix Baphicacanthis Cusiae stem when the effective period of the rhizoma Et radix Baphicacanthis Cusiae stem is two years, and picking rhizoma Et radix Baphicacanthis Cusiae when the rhizoma Et radix Baphicacanthis Cusiae grows to two years; harvesting the evodia rutaecarpa five years later, wherein the growth height of the evodia rutaecarpa two years reaches 2 meters, then removing a shading net above the Baphicacanthus cusia, and the tree shade of the evodia rutaecarpa can ensure the shading effect of the Baphicacanthus cusia, wherein the Baphicacanthus cusia and the Baphicacanthus are planted at the bottom of one month every year, and the Baphicacanthus cusia is harvested for the first time in the middle ten days of the current month and harvested for the second time in the bottom of the next month.

2. The mixed planting method for interplanting baphicacanthus cusia and custard bluegrass according to claim 1, wherein the mixed planting method comprises the following steps: wherein the soil of the planting base in the S2 is wetted by river water after sampling, and 1-2 drops of nutrient solution are dropped into the wetted river water.

3. The mixed planting method for interplanting baphicacanthus cusia and custard bluegrass according to claim 1, wherein the mixed planting method comprises the following steps: wherein the ratio of the river mud of S3 to the soil of the planting base is 2:1.5, and the roots of the seedlings are wrapped and then wetted by river water.

4. The mixed planting method for interplanting baphicacanthus cusia and custard bluegrass according to claim 1, wherein the mixed planting method comprises the following steps: wherein the water containing the nutrient solution is irrigated twice a day in the first week after the planting of the S4, the water containing the nutrient solution is irrigated once a day in the second week, the common river water is irrigated once, the common river water is irrigated twice in the third week, and then the proper amount of irrigation is performed according to the weather conditions.

5. The hybrid planting method for interplanting baphicacanthus cusia and custard blue as claimed in claim 4, wherein: wherein the water containing the nutrient solution is irrigated twice a day in a first week of S5 according to the irrigation amount once a day, and the ordinary river water is irrigated once in the middle period, the water containing the nutrient solution is irrigated once a day in a second week, and the ordinary river water is irrigated once a day in a third week, and the ordinary river water is irrigated twice a day in a third week, and then the appropriate amount of irrigation is performed according to the weather conditions.

6. The mixed planting method for interplanting baphicacanthus cusia and custard bluegrass according to claim 1, wherein the mixed planting method comprises the following steps: wherein a pit with a depth of 50 cm is dug at the corresponding mesh node in the canal of S6.