The current study was developed with the purpose to evaluate the germination and the vigor of Kudzu (Pueraria phaseoloides), Leucaena (Leucaena leucocephala) and Calopogônio seeds (Calopogonium mucunoides) submitted to 0, 6, 12, 24, 48, 72 and 96 hours of testing to natural (in situ incubation) and simulated conditions (in vitro incubation) from the ruminal environment of bovines. For each period of in situ and in vitro incubation, in each kind of seed, the percentage of normal plants was evaluated, as well as abnormal plants, hard seeds, soaked seeds and dead seeds, besides the index of germination speed (IGS). The results were submitted to the Duncan test at a 5% probability. Higher percentages of normal plants were verified in the Kudzu and in the Leucaena kinds, when the seeds were submitted to in situ incubation, as well as the IGS for the three forage species. The Calopogônio seeds did not turn out to be susceptible of use in the in situ and in vitro incubations. The in vitro incubation revealed to be more harmful to the seeds of the three species used.
The adoption of Fabacceae species in pastures in Brazil is still not very common, but there is an increasing interest for the practice by private initiatives, although. One of the big handicaps found is the phase of establishment of the plants in the field [
For the introduction of forage Fabacceae species in pastures already established with the Poacceae kind, the rural producers have, as an alternative, the rational dispersion of the seeds using the animals as spreading agents [
The dormancy of the Fabacceae seeds is an hereditary characteristic, related to the palisade cell layer, which possesses thick walls recovered externally by a waxy cuticular layer [
The passage of the seeds by the gastrointestinal tract of the ruminant animals can provoke alterations in their dormancy, in percentage, germination speed and in the initial growth of the plant. Besides that, there is the seed exposure to the attack of microorganisms present in the rumen, pH variation and temperature. The rumen is an anaerobic environment, with an average temperature of 39˚C, pH varying between 5.5 and 7.0, where there is a balance of several microorganisms digesting carbohydrates, proteins and lipids ingested by the animal. Furthermore, the rumen size and the retention period influence the capacity of the in situ digestion [
The in situ digestibility can be simulated in in vitro procedures that recreate the rumen and the abomasum conditions. The gravimetric digestibility test consists of two stages, with the first one to recreate the rumen conditions and the second to recreate the abomasum conditions. In digestibility studies, the in situ results obtained were always more precise when compared to the methods available in laboratory (in vitro). The advent of the in situ technique, using nylon packs in bovine animals fistulated in the rumen, permitted a quick and simple evaluation of the material degradation in function of the incubation time [
There are several sources of variation that can interfere in the in vitro incubation performance and these are variations in the microbial population (diet of the donor animal; differences between animals; handling of the ruminal liquid), variations due to the sample process (granulometry and weight), differences attributed to the environment (ruminal liquid volume in relation to the buffer solution; buffer and nutritive environment adopted) as well as variations in the procedures (fermentation time, laboratory errors) [
With this information in hands, this study was developed with the aim to evaluate the germination and the vigor of seeds from three different Fabacceae species with forage characteristic after the seed exposure during different periods of testing in natural (in situ incubation) and simulated conditions (in vitro incubation) from the ruminal environment.
This study was conducted in two individual steps and, in order to perform both of them, homogeneous plots of seeds were used from each one of the three Fabacceae species with forage characteristic: Kudzu (Pueraria phaseoloides), Leucaena (Leucaena leucocephala) and Calopogônio (Calopogonium mucunoides).
Primarily, the in situ incubation was performed, which consisted in the incubation during 0, 6, 12, 24, 48, 72 and 96 hours of testing in the rumen for the vigor and the seed germination evaluation. For this incubation performance, a half-breed ox was used (Dutch × Zebu), with a live weight of 1030 kg, provided with ruminal fistula and placed in individual stall. The diet was constituted of tifton-grass hay, wheat bran concentrate, mineral salt and water at will, initiated 15 days before the test performance, being this the period of the animal adaptation to the diet and to experimental conditions. The total quantity of the food daily offered was divided in two times, at 8 a.m. and at 6 p.m., and the quantity offered was adjusted in function of the leftovers observed daily (10% of the quantity offered). The leftovers, normally rejected, were controlled to guarantee the animal voluntary consumption.
For the seed incubation in the rumen, special nylon packs were used. Inside the packs, 20 grams from seeds of each kind were put and they were stuck to iron chains of 50 cm length. After such procedure, the in situ incubation of all the nylon packs was performed, being removed according to the respective incubation hours.
After the removal, the packs were immediately immersed in a bucket with water at ambient temperature to cease the action of ruminal microorganisms. Next, they were taken to the laboratory and germination and vigor tests were performed, according to [
The in vitro incubation was performed in accordance with the methodology described by [
For each in situ and in vitro incubation period, in each legume kind, normal plants (%), abnormal plants (%), hard seeds (%), soaked seeds (%), dead seeds (%) and the index of germination speed (IGS) were evaluated [
The IGS is calculated from the data on daily count of germinated seeds and has as an objective to establish differences in the seed germination speed. In this experiment, the counts were performed up to the 10th day after the test preparation.
Each type of incubation was analyzed separately. For both, the experimental delineation was entirely randomized, in factorial scheme 3 × 7 (three Fabacceae and seven incubation periods), with four repetitions. The results obtained were submitted to Duncan test at a 5% probability, once the regression model to the variables analyzed was not adjusted.
The variance analysis showed that the variables analyzed suffer significant effects from the in situ incubation periods as well as from the in vitro incubation periods.
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For the Leucaena seeds, a significant percentage of normal plants were observed in the control treatment (28%), being possible to verify a gradual fall in the number of natural plants as the incubation period increased and, with 96 hours, the percentage of normal plants (4%) was significantly reduced in relation to the control. The Leucaena seeds demonstrated an intermediate resistance in the viability loss between the 3 species studied, a fact which can be related to the integument hardness of the kind and its resistance to stand the natural conditions from the rumen and still form normal plants after incubation for long periods of time. Demonstrating the damages caused by the rumen, a significant increase on the abnormal Leucaena plants after 12 hours of incubation was observed (
The Calopogônio seeds, on the other hand, formed normal plants only until 24 hours of seed permanence in the rumen (5%), after this period there was a significant fall and practically normal plants were not formed. The damages suffered by the Capologônio seeds were so harmful that, different from the other two species, even the abnormal plant number was significantly reduced after 12 hours incubation. The Calopogônio seeds plot used in
this study had seeds of permeable integument and, therefore, their exposure to the incubation techniques led to a severe viability loss. For this same plot, the fall in normal plant formation, as well as abnormal plants, is directly related to the elevation in the percentage from dead seeds in the course of the hours of incubation, showing that excessive exposure time of Calopogônio seeds to the ruminal condition culminates on their death.
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Seeds of species that present impermeable integuments have bigger chances of surviving after the passage through the bovine gastrointestinal tract, even if significant difference in the survival or germination speed is not observed [
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The percentage on hard seeds for the Kudzu kind was similar between 0, 6 and 12 hours of ruminal incubation (34%, 33% and 28%, respectively), decreasing significantly after that in relation to the control. Similar results were found by Demenicis (2009), who reported a reduction of the number on hard seeds from Cunhã, Macrotiloma and Perennial Soybean species as their ruminal incubation time increased. For the Leucaena kind, the in situ incubation did not affect significantly the seeds and the hard seed percentage was similar in the course of the incubation periods. With the Calopogônio seeds, it was possible to observe, right in the control treatment (0 hour incubation), that the seeds used did not present high integument hardness degree and this fact can be related to the seed plot used, as well as their storage, although they showed to be viable in preliminary tests performed before the incubations (
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Cunhã and Macrotiloma seeds also presented high resistance and survival rate when they were submitted to the in situ incubation due to the integument impermeability. The seed scarification provoked by the micro-biota, the temperature and the immersion in ruminal liquid caused slight effect in the integument permeability, which guaranteed the seed viability [
The Calopogônio seeds, on the other hand, revealed to be very soaked with only 6 hours of in situ incubation, with percentages significantly higher after this period up to 96 hours in relation to the control (
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Figures 4-6 illustrate the results found with the in vitro incubation of the seeds, a technique which allows to simulate, in laboratory, the ruminal environment.
For the Kudzu kind, the normal plant percentage did not present significant difference at 0, 6 and 12 hours of incubation (47.5%, 52.5% and 48.5%, respectively) and at the other hours there was a progressive fall in the formation of normal plants. Here, it is also possible to observe that the prolonged seed exposure to simulated ruminal conditions tends to provide their vigor loss, with a decrease in the formation of the normal plant number. The Leucaena seeds presented similar behavior to this variable in all incubation periods, not presenting significant difference among them, and this behavior can be explained by the bigger resistance that this kind of seed present and the in vitro incubation was not sufficient for the number of normal plants to suffer significant alterations. As for the Calopogônio seeds, they formed normal plants with significant higher percentage in the control treatment (0 hour) (27%), with significant fall after 6 hours of incubation (
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For the three Fabacceae species, an increase in the abnormal plant formation up to 48 hours of in vitro incubation is observed. Such behavior indicates that the seeds have their viability reduced as the time of incubation increased and this viability loss is indicated by the increase in the formation of abnormal plants, with a peak at 48 hours of incubation. Thenceforth, the normal plant number decreased and the dead seed number increased for the three species (
Similar results were found by [
The results obtained with the seeds of Stylosanthes by [
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The percentage of dead seeds increased significantly after 48 hours for the Kudzu and Leucaena kinds and 24 hours for the Calopogõnio kind. Kudzu and Leucaena seeds resist for longer time when exposed to the simulated in vitro conditions, but, the prolonged permanence of the three species of seeds in these conditions decrease gradually the viability and the germination, culminating with their death (
As for the IGS, the Kudzu seeds presented indexes significantly higher at 6 and 12 hours of in vitro incubation
(IGS = 49.3 and 47.4, respectively), in other words, the seeds exposed to such conditions for 6 and 12 hours germinated at a higher speed than those exposed to the other periods of incubation and those that kept themselves intact. It is believed that the intact seeds germinated at a lower speed due to the integument that was found still very impermeable before the exposure to the incubation and, when the exposure was extended to periods higher than 12 hours, the viability of the seeds had already been affected and, thereby, the protrusion of the radicle took more time to happen. For the Leucaena seeds, such index did not differ significantly among the in vitro incubation periods, in other words, this type of incubation did not affect the speed that the Leucaena seeds germinated and, for the Calopogônio seeds, their exposure to in vitro incubation was harmful, once the higher index was observed for the intact seeds (IGS = 19.5) (0 in vitro incubation time) (
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Percentages significantly higher of normal plants were observed for the Kudzu kind (36.71%), as well as for the Leucaena kind (18.36%), undergone to the in situ incubation. For the Calopogônio kind, the percentages of normal plants did not differ significantly between the two types of incubation, despite the reduction in the in vitro incubation. This indicates that the in vitro incubation is more harmful, which can be caused by the exposure of the seeds to a direct action of the acids used in this technique, which does not happen in the in situ incubation (
For the variable “abnormal plants”, percentages significantly higher were observed for the Kudzu seeds (9.07%) and Calopogônio seeds (3.86%), when exposed to the in situ incubation. For the Leucaena seeds, this variable did not present significant difference between the two types of incubation. The reduction of the normal and abnormal plants matches the increase of dead seeds in the Kuzdu and Calopogônio species, indicating once more that the action of the in vitro incubation was more harmful for the seeds than the in vivo and that the methodology needs adjusts to approximate the effect of the in vitro incubation to the in vivo incubation (
Species | Normal Plants (%) | Abnormal Plants (%) | IGS | |||
---|---|---|---|---|---|---|
In situ | In vitro | In situ | In vitro | In situ | In vitro | |
Kudzu | 36.71A | 29.93B | 9.07A | 5.14B | 9.32A | 7.02B |
Leucaena | 18.36A | 6.93B | 6.00A | 4.21A | 3.33A | 1.47B |
Calopogônio | 6.54A | 4.57A | 3.86A | 1.93B | 5.31A | 1.23B |
For each level, the averages followed in the lines by the same letter do not differ statistically among them by the Duncan test at a 5% probability level.
Species | Hard Seeds (%) | Soaked Seeds (%) | Dead Seeds (%) | |||
---|---|---|---|---|---|---|
In situ | In vitro | In situ | In vitro | In situ | In vitro | |
Kudzu | 21.00A | 17.00A | 79.00A | 83.00A | 31.41B | 40.08A |
Leucaena | 47.00A | 50.00A | 53.00A | 50.00A | 26.67A | 29.00A |
Calopogônio | 6.00A | 3.78A | 94.00A | 96.22A | 57.99B | 68.86A |
For each level, the averages followed in the lines by the same letter do not differ statistically among them by the Duncan test at a 5% probability level.
The IGS also revealed to be significantly higher for the seeds of the three forage species when undergone to the in situ incubation. In other words, the seeds germinated more quickly when exposed to the natural conditions and less harmful of the bovine rumen when compared to the simulated conditions in laboratory (in vitro incubation). Numerically, this index was higher for the Kudzu seeds in both the incubation techniques, showing that the seeds of this kind germinated more quickly in relation to the others two species, and it is suggested, thus, that the Kudzu seeds presented better vigor in relation to the Leucaena and Calopogônio seeds in the conditions of performance of this experiment (
For the three forage species, the percentage of hard seeds did not present significant difference between the incubation techniques, although numerically, the Leucaena kind has been the one that presented hard seeds at the end of the germination test in the two incubation techniques. It is probable that both the techniques have provoked a similar effect of scarification in the seeds and, thus, they did not present significant differences between them (
A similar behavior for both incubation techniques was also verified in the percentages of soaked seeds for the three forage species, which also did not present significant difference between the incubation techniques, which can also be related to the analogous effect of scarification that they have presented in the seeds of the three species (
The percentage of dead seeds was significantly higher for the Kudzu and Calopogônio seeds undergone to the in vitro incubation. Dead Leucaena seeds did not present significant difference between the two types of incubation techniques. Apparently the in vitro incubation has a scarification action similar to the in situ incubation, however, when permeable seeds are exposed to the two incubation, the action of the in vitro incubation is more harmful to the seeds (
Kudzu and Leucaena seeds originated higher percentages of normal plants in the in situ incubation and they can be recommended for such technique.
A higher IGS was observed for the seeds of the three forage species in the in situ incubation.
The Calopogônio seeds used in this study were not revealed to be adequate to use in the in situ and in vitro incubation techniques.
The in vitro incubation resulted in higher percentages of dead seeds of Kudzu and Calopogônio species.
The in vitro incubation technique revealed to be more harmful to the seeds of the three species used in this experiment.
The proceedings were approved and carried out according to Protocol 207, registered in the Ethics and Animal Use Committee of UENF.
Renata ViannaLima,Henrique DuarteVieira,Tatiana Oliveirada Silva,Norberto daSilva Rocha,Bruno BorgesDeminicis, (2015) Germination and Vigor of Fodder Fabacceae Seeds Submitted to in Vitro and in Situ Incubation. American Journal of Plant Sciences,06,2317-2328. doi: 10.4236/ajps.2015.614235