The authors declare no conflict of interest.
Jorge Reyes Reyes: design and general approach to the experiment; structure and writing of the manuscript; Dorian de Jesús Pimienta de la Torre: review and correcctions of the document; Juan Alberto Rodríguez Morales: statistical analysis of the data and review of the document; Mario Alonso Fuentes Pérez: review and correcctions of the document; Emilio Palomeque Figueroa: traicing of the experiment at the nursery and data collection.
La calidad de planta que se produce en vivero es importante para lograr el establecimiento exitoso de plantaciones forestales. El objetivo del estudio que se describe consistió en evaluar el crecimiento y calidad de plantas de
The quality of the plant that is produced in the nursery is important to achieve the successful establishment of forest plantations. The aim of the study here described was to assess the growth and quality of Gmelina arborea plants, a species that has adapted easily to the humid and subhumid tropical regions of Mexico, with different substrate mixtures through the traditional nursery production system. A completely randomized experimental design was applied, with six treatments, five repetitions and 25 plants per experimental unit. The treatments evaluated were: T1 (50 % soil + 50 % coffee husk), T2 (50 % soil + 50 % sawdust (mixture of Mangifera indica, Tabebuia rosea and Tabebuia donnell-smithii), T3 (50 % soil + 50 % cocoa shell), T4 (50 % soil + 50 % sugarcane bagasse), T5 (50 % soil + 50 % livestock manure) and T6 (100 % forest soil). After 75 days of having carried out the sowing, the statistical analysis showed significant differences (P≤0.05) among them, in which the T5 generated the highest values in diameter (8.76 mm), height (66.08 cm), area foliar (1 097.42 cm2), total biomass (11.48 g) and Dickson quality index (1.00). It is concluded that this substrate produces quality plants of the tested species.
In recent years, there has been a need to stimulate reforestation programs and commercial forest plantations with fast-growing species to meet the growing demand for forest products and environmental services (
Gmelina arborea Roxb. Is a tropical forest species native to Southeast Asia, of great economic importance for different purposes (
Forest ground is the most common substrate in the Mexican nurseries that work with the traditional production system in forest and fruit species; however, its frequent use causes an undesirable environmental impact due to extraction of large amounts of soil, mainly from coffee and cacao plantations. NOM-003-RECNAT-1996 (
On the other hand, in some regions of the country there are by-products of the wood industry and other natural materials such as the residues of agricultural crops (sugar cane bagasse, coffee husk, cocoa husk, coconut husk, livestock and sheep manure, among others) that can be used as components to improve substrate mixes and substitute the use of forest soil (
Producing quality nursery plants helps to guarantee a higher percentage of survival in forest plantations and in reforestation programs (
The concept of plant quality is mainly based on morphological and physiological characteristics (
The research work was carried out in the forest nursery of the Facultad de Agricultura of the Universidad Autónoma de Chiapas (School of Agricultural Sciences Campus IV of the Autonomous University of Chiapas). It is located in Huehuetán municipality, Chiapas, at an altitude of 44 m, between the parallels 15°00' and 15°30' N and between the meridians 94°30' and 95°00' W.
The climate that predominates in the study area corresponds to Aw2 (w") ig which refers to the warm humid with summer rains according to the Köppen classification system modified by
The Gmelina arborea seed collection was carried out in a seed stand within the experimental station of the School of Agricultural Sciences. The average DBH of the trees is 38 cm and the average total height is 21 m. The seeds to establish such stand come from the El Chaparral Ranch, located in the Juchique de Ferrer municipality, Veracruz.
A completely at random experimental design was used; six treatments of substrate mixes were tested (
Treatment
Substrate mix
1
50 % forest ground + 50 % coffee husk
2
50 % forest ground + 50% sawdust
3
50 % forest ground + 50 % cocoa husk
4
50 % forest ground + 50 % sugar cane bagasse
5
50 % forest ground + 50 % livestock manure
6
100 % forest ground
Six substrates were used that are available and easy to get in the region, such as coffee husk (Coffea sp.) from a factory one year after being processed; sawdust from Mangifera indica L., Tabebuia rosea (Bertol.) DC. and Tabebuia donnell-smithii Rose, also one year after being processed and dried out in the open; cocoa husk (Theobroma cacao L.) with six months of drying under the shadow of a cacao plantation; cane bagasse (Saccharum officinarum L.) one year after being processed under shade; livestock manure collected fresh and ground from a cacao plantation. The coffee husk, sawdust, cocoa husk and cane bagasse were ground into a mechanical mill, resulting in particles less than 5 mm in size. The amount of substrate was measured to prepare the mix corresponding to each treatment, which were incorporated later and stirred with a shovel until the mix was homogeneous.
The germination of Gmelina arborea seeds of consisted of immersing them in water for 48 h and 24 h after leaving them in the open air under shade so that they would lose moisture; subsequently, two seeds were sown in the center of each container (black 15 × 20 cm polyethylene bags, 400 μm) at a depth twice their size and covered with the same substrate mix corresponding to the treatment. The material was deposited manually into each container.
After the emergence of the seeds, Captan® 500 was applied in a dose of 2 g L-1 of water each week for a period of 30 days, in order to prevent damping-off or seedling disease. Three applications of the Bayfolan® foliar fertilizer were carried out in doses of 2 g L-1 of water; the first application was made 30 days after the emergency and the other two, every 8 days. A single removal was carried out 10 days after the emergence, when it was left to the plants that had favorable characteristics for their growth and development.
The plants of Gmelina arborea were assessed 75 days after sowing in all the variables except for the time of emergence that was quantified when the plant was visible in each bag; the height was measured with a ruler graduated in centimeters, from the base of the stem to the apical bud; the diameter was measured in millimeters at the base of the stem, with a digital vernier (Traceable® 3416 model), the total number of leaves of each evaluated plant was quantified and the leaf area was determined with the help of the leaf area integrator LI-COR® LI-3000ª model, in cm2.
To evaluate biomass, 12 plants were extracted at random from each experimental unit, to which the adhering substrate was eliminated by washing in running water. The samples were placed in paper bags with their respective identifications and dried in an oven (VWR Sheldon Manufacturing 1390FM model) at 70 ° C up to their constant weight. After that period, the aerial and radical part was weighed separately on an analytical balance with precision to milligrams (Denver Instrument 310 model).
The aerial part / root ratio was obtained by dividing the aerial dry weight (g) between the radical dry weight (g) and the slenderness index, by dividing the height between the diameter of the stem (
The data of each plant corresponding to the evaluated variables were analyzed using the SAS version 9.0 (
The results of the analysis of variance showed significant differences (p <0.05) for the variables days to emergence, number of leaves and foliar area; and significant (p <0.01) for the following variables: stem diameter, plant height, total biomass, aerial part / root ratio, lignification index and Dickson quality index. There were no significant differences for the slenderness index variable (
DMER = Days of emergence; DIAM = Diameter; ALTU = Height; NHOJ = Number of leaves; AFOL = Foliar area; *Significant with p≤0.05; ** Significant with p≤0.01; C.V. = Coefficient of variation (relation between the size of the mean and the variability of the variable); D.F. = Degrees of freedom.
Source of variation
Mean square and significance
Mix
5
16.50
95.94
483.48
950.52
1719255.29
Error
354
4.82
0.90
95.08
78.99
32083.25
17.93
12.90
17.50
24.40
19.54
r2
0.04
0.59
0.41
0.14
0.43
BIOT = Total biomass; RPAR = Aerial part /root ratio; IESB = Slenderness index; ILIG = Lignification index; ICD = Dickson’s quality index; *Significant with p≤0.05; ** Significant with p≤0.01; C.V. = Coefficient of variation (relation between the size of the mean and the variability of the variable); D.F. =degrees of freedom.
Variation sources
Mean square and significance
Mix
5
427.08
0.56
2.40ns
210.02
3.17
Error
354
4.63
0.97
1.67
17.07
0.04
26.81
0.97
17.00
17.52
30.21
r2
0.56
0.07
0.01
0.14
0.48
Tukey's mean comparison test (p≤0.05) revealed that the seeds of Gmelina arborea sown in 100% cacao ground emerged on average at 11.7 days, in contrast to the treatment of the 50 % mix of forest ground + 50 % coffee husk took longer to emerge, on average 13.1 days. This species requires that the substrate is of medium porosity, moisture retention, without mechanical resistance to the emergence, in addition to the depth of the sowing must be twice the thickness of the seed.
T1 = 50 % forest ground+ 50 % coffee husk; T2 = 50 % forest ground + 50 % sawdust; T3 = 50 % forest ground + 50 % cacao husk; T4 = 50 % forest ground + 50 % sugarcane bagasse; T5 = 50 % forest ground + 50 % livestock manure; T6 = 100 % cocoa ground. ŧ = Average values in the same column followed by the same letter are not statistically different from each other (p<0.05); DMER = Days of emergence; DIAM = Diameter; ALTU = Height; NHOJ = Number of leaves; AFOL = Foliar area.
Treatment
1
13.11 a
7.78 bc
59.47 bc
38.36 a
1012.34 a
2
12.53 ab
5.08 e
39.76 e
28.76 b
774.47 b
3
11.75 b
7.48 cd
54.90 cd
35.36 a
801.33 b
4
12.20 ab
8.13 b
60.37 b
39.26 a
1090.07ª
5
12.16 ab
8.75 a
66.08 a
38.20 a
1097.42 a
6
11.71 b
7.08 e
53.56 d
38.53 a
722.10 b
T1 = 50 % forest ground+ 50 % coffee husk; T2 = 50 % forest ground + 50 % sawdust; T3 = 50 % forest ground + 50 % cacao husk; T4 = 50 % forest ground + 50 % sugarcane bagasse; T5 = 50 % forest ground + 50 % livestock manure; T6 = 100 % cocoa ground. ŧ = Average values in the same column followed by the same letter are not statistically different from each other (p<0.05); BIOT = Total biomass; RPAR = Aerial part /root ratio; IESB = Slenderness index; ILIG= Lignification index; ICD = Dickson’s quality index.
Treatment
1
8.59 c
3.96 ab
7.69 a
21.97 bc
0.76 c
2
3.72 e
3.55 bc
7.93 a
20.69 c
0.33 e
3
7.72 cd
3.37 c
7.36 a
25.09 a
0.73 c
4
9.84 b
3.91 ab
7.45 a
23.71 ab
0.88 b
5
11.48 a
4.03 ab
7.58 a
24.64 a
1.00 a
6
6.83 d
4.14 a
7.62 a
25.35 a
0.61 d
After 75 days, the Gmelina arborea plants sown in the substrate mix of 50 % of forest ground + 50 % of livestock manure had the largest diameter to the base (8.76 mm) while the plants of smaller diameter were the produced in the mix of 50 % forest ground + 50 % sawdust, with average of 5.08 mm. This represents 42 % difference in diameter growth of the plants compared to the best substrate mix.
The plants had the highest height (66.08 cm) when they grew in a mix containing 50 % forest soil + 50 % livestock manure. The lowest growth was in seedlings that had as substrate 50 % forest land + 50% sawdust, with a height of 39.76 cm. The best substrate produced 40 % higher seedlings in the 75-day period. It should be mentioned that the height of the plant is used for its qualification, although the initial height does not correlate with survival; that is, by itself it is of limited value, but combined with other variables such as diameter, it has an important influence (
In this context,
The plants that grew in the substrate mix of 50 % forest ground+ 50 % sugarcane bagasse produced the highest number of leaves with an average of 39.27 with respect to the other treatments evaluated. The plants that formed the smallest number of leaves were those of the treatment of 50 % forest ground + 50 % sawdust, with an average of 28.77 leaves. In this regard,
The plants that were produced with the mix of 50 % forest ground +50 % livestock manure had the highest values of leaf area with an average of 1 097.42 cm2, with respect to the other assessed treatments. In the plants with the least foliar area, 100 % forest ground was used as a substrate, with an average of 722.10 cm2. According to
At 75 days after sowing, Gmelina arborea plants that had a mix of 50 % forest land + 50 % livestock manure recorded the highest root and stem dry weight, with an average of 4.14 g, compared to the other treatments evaluated. The plants that had the opposite response come from the substrate composed of 50 % of forest ground + 50 % sawdust, with an average of 3.72 g.
For the variables considered as indicators of plant quality, the lowest average value of the aerial part / root ratio (3.37) comes from the seedlings that grew in the mix made up by 50 % forest ground + 50 % cocoa husk. The highest value of this relation (4.14) was registered in individuals with 100 % forest ground substrate. In this context, the results of the present work indicate that aerial dry weight is greater than root dry weight. In general, it is recommended that, in places with low rainfall, the quotient should not be greater than 2.5 (
For the slenderness index, the lowest value appeared in the 50 % forest ground + 50 % cocoa husk mix (7.36). In this variable, the reduced values are important since the opposite indicates imbalance in the growth of the seedlings (
Regarding the index of lignification, which is a parameter that in recent years is essential to assess the plant before it goes out to the field, the plants in which 100 % forest ground were cultivated had the highest values compared to the other treatments evaluated, with an average of 25.36 %. The plants with the lowest percentage were grown with the 50 % forest ground+ 50 % sawdust mix, and 20.70 % average. During the pre-conditioning phase, it is necessary to reduce the supply of water to cause plant stress, which helps to reduce growth in height, promotes the appearance of the apical bud and initiates mechanisms of resistance to droughts and low temperatures (
The highest values of the Dickson quality index (1.00) were found in the plants whose substrate was the 50 % forest ground + 50 % livestock manure mix. The lowest (0.34) was recorded in the composite of 50 % forest ground + 50 % sawdust. If in the same lot the specimens record high numbers in this index, or are better balanced in the aerial part and the root, they represent higher quality individuals; in this case, treatment 5 produced this response. In Gmelina arborea seedlings produced in the base mix of 60 % Peat moss® + 30 % agrolite + 10 % vermiculite,
The forest ground with livestock manure mix favors the production of Gmelina arborea plants with morphological characteristics of ideal size in the traditional production system in a production cycle of 2.5 months that will allow high percentages of survival in the field. The environmental impact can be reduced by the extraction of forest ground by using other local substrates for the production of forest plants.
To Engineer Esaú Jiménez Madrid, Technitian from the Consultoría Forestal y Ambiental, S.C, [Decofores] company, for the cultural labors made at the forest nursery of the Facultad de Ciencias Agrícolas of the Universidad Autónoma de Chiapas (School of Agricultural Sciences of the Autonomous University of Chiapas), as well as for in the data collection.
The authors declare no conflict of interest.
Jorge Reyes Reyes: design and general approach to the experiment; structure and writing of the manuscript; Dorian de Jesús Pimienta de la Torre: review and correcctions of the document; Juan Alberto Rodríguez Morales: statistical analysis of the data and review of the document; Mario Alonso Fuentes Pérez: review and correcctions of the document; Emilio Palomeque Figueroa: traicing of the experiment at the nursery and data collection.
The quality of the plant that is produced in the nursery is important to achieve the successful establishment of forest plantations. The aim of the study here described was to assess the growth and quality of Gmelina arborea plants, a species that has adapted easily to the humid and subhumid tropical regions of Mexico, with different substrate mixtures through the traditional nursery production system. A completely randomized experimental design was applied, with six treatments, five repetitions and 25 plants per experimental unit. The treatments evaluated were: T1 (50 % soil + 50 % coffee husk), T2 (50 % soil + 50 % sawdust (mixture of Mangifera indica, Tabebuia rosea and Tabebuia donnell-smithii), T3 (50 % soil + 50 % cocoa shell), T4 (50 % soil + 50 % sugarcane bagasse), T5 (50 % soil + 50 % livestock manure) and T6 (100 % forest soil). After 75 days of having carried out the sowing, the statistical analysis showed significant differences (P≤0.05) among them, in which the T5 generated the highest values in diameter (8.76 mm), height (66.08 cm), area foliar (1 097.42 cm2), total biomass (11.48 g) and Dickson quality index (1.00). It is concluded that this substrate produces quality plants of the tested species.
In recent years, there has been a need to stimulate reforestation programs and commercial forest plantations with fast-growing species to meet the growing demand for forest products and environmental services (
Gmelina arborea Roxb. Is a tropical forest species native to Southeast Asia, of great economic importance for different purposes (
Forest ground is the most common substrate in the Mexican nurseries that work with the traditional production system in forest and fruit species; however, its frequent use causes an undesirable environmental impact due to extraction of large amounts of soil, mainly from coffee and cacao plantations. NOM-003-RECNAT-1996 (
On the other hand, in some regions of the country there are by-products of the wood industry and other natural materials such as the residues of agricultural crops (sugar cane bagasse, coffee husk, cocoa husk, coconut husk, livestock and sheep manure, among others) that can be used as components to improve substrate mixes and substitute the use of forest soil (
Producing quality nursery plants helps to guarantee a higher percentage of survival in forest plantations and in reforestation programs (
The concept of plant quality is mainly based on morphological and physiological characteristics (
The research work was carried out in the forest nursery of the Facultad de Agricultura of the Universidad Autónoma de Chiapas (School of Agricultural Sciences Campus IV of the Autonomous University of Chiapas). It is located in Huehuetán municipality, Chiapas, at an altitude of 44 m, between the parallels 15°00' and 15°30' N and between the meridians 94°30' and 95°00' W.
The climate that predominates in the study area corresponds to Aw2 (w") ig which refers to the warm humid with summer rains according to the Köppen classification system modified by
The Gmelina arborea seed collection was carried out in a seed stand within the experimental station of the School of Agricultural Sciences. The average DBH of the trees is 38 cm and the average total height is 21 m. The seeds to establish such stand come from the El Chaparral Ranch, located in the Juchique de Ferrer municipality, Veracruz.
A completely at random experimental design was used; six treatments of substrate mixes were tested (
Treatment
Substrate mix
1
50 % forest ground + 50 % coffee husk
2
50 % forest ground + 50% sawdust
3
50 % forest ground + 50 % cocoa husk
4
50 % forest ground + 50 % sugar cane bagasse
5
50 % forest ground + 50 % livestock manure
6
100 % forest ground
Six substrates were used that are available and easy to get in the region, such as coffee husk (Coffea sp.) from a factory one year after being processed; sawdust from Mangifera indica L., Tabebuia rosea (Bertol.) DC. and Tabebuia donnell-smithii Rose, also one year after being processed and dried out in the open; cocoa husk (Theobroma cacao L.) with six months of drying under the shadow of a cacao plantation; cane bagasse (Saccharum officinarum L.) one year after being processed under shade; livestock manure collected fresh and ground from a cacao plantation. The coffee husk, sawdust, cocoa husk and cane bagasse were ground into a mechanical mill, resulting in particles less than 5 mm in size. The amount of substrate was measured to prepare the mix corresponding to each treatment, which were incorporated later and stirred with a shovel until the mix was homogeneous.
The germination of Gmelina arborea seeds of consisted of immersing them in water for 48 h and 24 h after leaving them in the open air under shade so that they would lose moisture; subsequently, two seeds were sown in the center of each container (black 15 × 20 cm polyethylene bags, 400 μm) at a depth twice their size and covered with the same substrate mix corresponding to the treatment. The material was deposited manually into each container.
After the emergence of the seeds, Captan® 500 was applied in a dose of 2 g L-1 of water each week for a period of 30 days, in order to prevent damping-off or seedling disease. Three applications of the Bayfolan® foliar fertilizer were carried out in doses of 2 g L-1 of water; the first application was made 30 days after the emergency and the other two, every 8 days. A single removal was carried out 10 days after the emergence, when it was left to the plants that had favorable characteristics for their growth and development.
The plants of Gmelina arborea were assessed 75 days after sowing in all the variables except for the time of emergence that was quantified when the plant was visible in each bag; the height was measured with a ruler graduated in centimeters, from the base of the stem to the apical bud; the diameter was measured in millimeters at the base of the stem, with a digital vernier (Traceable® 3416 model), the total number of leaves of each evaluated plant was quantified and the leaf area was determined with the help of the leaf area integrator LI-COR® LI-3000ª model, in cm2.
To evaluate biomass, 12 plants were extracted at random from each experimental unit, to which the adhering substrate was eliminated by washing in running water. The samples were placed in paper bags with their respective identifications and dried in an oven (VWR Sheldon Manufacturing 1390FM model) at 70 ° C up to their constant weight. After that period, the aerial and radical part was weighed separately on an analytical balance with precision to milligrams (Denver Instrument 310 model).
The aerial part / root ratio was obtained by dividing the aerial dry weight (g) between the radical dry weight (g) and the slenderness index, by dividing the height between the diameter of the stem (
The data of each plant corresponding to the evaluated variables were analyzed using the SAS version 9.0 (
The results of the analysis of variance showed significant differences (p <0.05) for the variables days to emergence, number of leaves and foliar area; and significant (p <0.01) for the following variables: stem diameter, plant height, total biomass, aerial part / root ratio, lignification index and Dickson quality index. There were no significant differences for the slenderness index variable (
DMER = Days of emergence; DIAM = Diameter; ALTU = Height; NHOJ = Number of leaves; AFOL = Foliar area; *Significant with p≤0.05; ** Significant with p≤0.01; C.V. = Coefficient of variation (relation between the size of the mean and the variability of the variable); D.F. = Degrees of freedom.
Source of variation
Mean square and significance
Mix
5
16.50
95.94
483.48
950.52
1719255.29
Error
354
4.82
0.90
95.08
78.99
32083.25
17.93
12.90
17.50
24.40
19.54
r2
0.04
0.59
0.41
0.14
0.43
BIOT = Total biomass; RPAR = Aerial part /root ratio; IESB = Slenderness index; ILIG = Lignification index; ICD = Dickson’s quality index; *Significant with p≤0.05; ** Significant with p≤0.01; C.V. = Coefficient of variation (relation between the size of the mean and the variability of the variable); D.F. =degrees of freedom.
Variation sources
Mean square and significance
Mix
5
427.08
0.56
2.40ns
210.02
3.17
Error
354
4.63
0.97
1.67
17.07
0.04
26.81
0.97
17.00
17.52
30.21
r2
0.56
0.07
0.01
0.14
0.48
Tukey's mean comparison test (p≤0.05) revealed that the seeds of Gmelina arborea sown in 100% cacao ground emerged on average at 11.7 days, in contrast to the treatment of the 50 % mix of forest ground + 50 % coffee husk took longer to emerge, on average 13.1 days. This species requires that the substrate is of medium porosity, moisture retention, without mechanical resistance to the emergence, in addition to the depth of the sowing must be twice the thickness of the seed.
T1 = 50 % forest ground+ 50 % coffee husk; T2 = 50 % forest ground + 50 % sawdust; T3 = 50 % forest ground + 50 % cacao husk; T4 = 50 % forest ground + 50 % sugarcane bagasse; T5 = 50 % forest ground + 50 % livestock manure; T6 = 100 % cocoa ground. ŧ = Average values in the same column followed by the same letter are not statistically different from each other (p<0.05); DMER = Days of emergence; DIAM = Diameter; ALTU = Height; NHOJ = Number of leaves; AFOL = Foliar area.
Treatment
1
13.11 a
7.78 bc
59.47 bc
38.36 a
1012.34 a
2
12.53 ab
5.08 e
39.76 e
28.76 b
774.47 b
3
11.75 b
7.48 cd
54.90 cd
35.36 a
801.33 b
4
12.20 ab
8.13 b
60.37 b
39.26 a
1090.07ª
5
12.16 ab
8.75 a
66.08 a
38.20 a
1097.42 a
6
11.71 b
7.08 e
53.56 d
38.53 a
722.10 b
T1 = 50 % forest ground+ 50 % coffee husk; T2 = 50 % forest ground + 50 % sawdust; T3 = 50 % forest ground + 50 % cacao husk; T4 = 50 % forest ground + 50 % sugarcane bagasse; T5 = 50 % forest ground + 50 % livestock manure; T6 = 100 % cocoa ground. ŧ = Average values in the same column followed by the same letter are not statistically different from each other (p<0.05); BIOT = Total biomass; RPAR = Aerial part /root ratio; IESB = Slenderness index; ILIG= Lignification index; ICD = Dickson’s quality index.
Treatment
1
8.59 c
3.96 ab
7.69 a
21.97 bc
0.76 c
2
3.72 e
3.55 bc
7.93 a
20.69 c
0.33 e
3
7.72 cd
3.37 c
7.36 a
25.09 a
0.73 c
4
9.84 b
3.91 ab
7.45 a
23.71 ab
0.88 b
5
11.48 a
4.03 ab
7.58 a
24.64 a
1.00 a
6
6.83 d
4.14 a
7.62 a
25.35 a
0.61 d
After 75 days, the Gmelina arborea plants sown in the substrate mix of 50 % of forest ground + 50 % of livestock manure had the largest diameter to the base (8.76 mm) while the plants of smaller diameter were the produced in the mix of 50 % forest ground + 50 % sawdust, with average of 5.08 mm. This represents 42 % difference in diameter growth of the plants compared to the best substrate mix.
The plants had the highest height (66.08 cm) when they grew in a mix containing 50 % forest soil + 50 % livestock manure. The lowest growth was in seedlings that had as substrate 50 % forest land + 50% sawdust, with a height of 39.76 cm. The best substrate produced 40 % higher seedlings in the 75-day period. It should be mentioned that the height of the plant is used for its qualification, although the initial height does not correlate with survival; that is, by itself it is of limited value, but combined with other variables such as diameter, it has an important influence (
In this context,
The plants that grew in the substrate mix of 50 % forest ground+ 50 % sugarcane bagasse produced the highest number of leaves with an average of 39.27 with respect to the other treatments evaluated. The plants that formed the smallest number of leaves were those of the treatment of 50 % forest ground + 50 % sawdust, with an average of 28.77 leaves. In this regard,
The plants that were produced with the mix of 50 % forest ground +50 % livestock manure had the highest values of leaf area with an average of 1 097.42 cm2, with respect to the other assessed treatments. In the plants with the least foliar area, 100 % forest ground was used as a substrate, with an average of 722.10 cm2. According to
At 75 days after sowing, Gmelina arborea plants that had a mix of 50 % forest land + 50 % livestock manure recorded the highest root and stem dry weight, with an average of 4.14 g, compared to the other treatments evaluated. The plants that had the opposite response come from the substrate composed of 50 % of forest ground + 50 % sawdust, with an average of 3.72 g.
For the variables considered as indicators of plant quality, the lowest average value of the aerial part / root ratio (3.37) comes from the seedlings that grew in the mix made up by 50 % forest ground + 50 % cocoa husk. The highest value of this relation (4.14) was registered in individuals with 100 % forest ground substrate. In this context, the results of the present work indicate that aerial dry weight is greater than root dry weight. In general, it is recommended that, in places with low rainfall, the quotient should not be greater than 2.5 (
For the slenderness index, the lowest value appeared in the 50 % forest ground + 50 % cocoa husk mix (7.36). In this variable, the reduced values are important since the opposite indicates imbalance in the growth of the seedlings (
Regarding the index of lignification, which is a parameter that in recent years is essential to assess the plant before it goes out to the field, the plants in which 100 % forest ground were cultivated had the highest values compared to the other treatments evaluated, with an average of 25.36 %. The plants with the lowest percentage were grown with the 50 % forest ground+ 50 % sawdust mix, and 20.70 % average. During the pre-conditioning phase, it is necessary to reduce the supply of water to cause plant stress, which helps to reduce growth in height, promotes the appearance of the apical bud and initiates mechanisms of resistance to droughts and low temperatures (
The highest values of the Dickson quality index (1.00) were found in the plants whose substrate was the 50 % forest ground + 50 % livestock manure mix. The lowest (0.34) was recorded in the composite of 50 % forest ground + 50 % sawdust. If in the same lot the specimens record high numbers in this index, or are better balanced in the aerial part and the root, they represent higher quality individuals; in this case, treatment 5 produced this response. In Gmelina arborea seedlings produced in the base mix of 60 % Peat moss® + 30 % agrolite + 10 % vermiculite,
The forest ground with livestock manure mix favors the production of Gmelina arborea plants with morphological characteristics of ideal size in the traditional production system in a production cycle of 2.5 months that will allow high percentages of survival in the field. The environmental impact can be reduced by the extraction of forest ground by using other local substrates for the production of forest plants.
To Engineer Esaú Jiménez Madrid, Technitian from the Consultoría Forestal y Ambiental, S.C, [Decofores] company, for the cultural labors made at the forest nursery of the Facultad de Ciencias Agrícolas of the Universidad Autónoma de Chiapas (School of Agricultural Sciences of the Autonomous University of Chiapas), as well as for in the data collection.