Environmental Project, 982 – Quantification and Identification of Active Microorganisms in Microbial Plant Protection Products

Quantification and Identification of Active Microorganisms in Microbial Plant Protection Products

3 Results

3.1 Available information on the microbial plant protection products
3.2 Quantification of active micro-organisms
3.3 Identification of Bacillus thuringiensis
- 3.3.1 Molecular analysis
- 3.3.2 Crystalline inclusions containing delta-endotoxin
3.4 Identification of fungi and actinomycetes
3.5 Detection of contaminating bacteria

3.1 Available information on the microbial plant protection products

It is noted that not all the collected MPPP was labeled with the required information regarding batch number and date of production and expiry (Table 3.1). One batch of Bactimos L and Supresivit, and both batches of Mycostop did not have any batch number. Bactimos L, Vectobac 12AS, and Tri002 had no date of expiry, while the date of expiry for Tri003 was indicated as one year after the date of purchase. This date does not take the storage time at the supplier into consideration. The date of expiry of Supresivit was 14 months after production date, which was not indicated. This makes the date of expiry of little value. Finally, for Dipel ES shelf life was 2 years. However, this information is of no use since no date of production is indicated.

The number of active micro-organisms was not indicated on the product label of products based on Bacillus thuringiensis (Bt products). At these products the toxicity of the micro-organisms was indicated as International Toxic Units (ITU) (FAO 2004). However, the producer has subsequently informed us that the approximate CFU was 5 x 10⁹ CFU ml^-1. The producer of the products Tri002 and Tri003 has informed us that the products should contain 108 CFU g^-1.

3.2 Quantification of active micro-organisms

The number of CFU of the active micro-organisms found in the various products is shown in Table 3.1 and Figure 3.1. All products based on Bt contained 1.29 – 7.31 x 10⁹ CFU ml^-1. The producer's information of abundance was 5 x 10⁹ CFU ml^-1, and some EU member states suggested an acceptable deviation of 5 times higher and lower abundance, which results in an acceptable range of abundance of 1 x 10⁹ to 2.5 x 10¹⁰ CFU ml^-1. Hence, the observed number was well within this range.

The products Binab TF WP, Rotstop, and Mycostop also contained a number of active micro-organisms close to the number found in the producers' information.

Of the four products based on the fungi Trichoderma spp., the abundance of active micro-organisms in Supresivit was 25-31 % of the indicated abundance. The abundance of active micro-organisms in Binab TF WP followed the specifications of the product and contained 1– 5 x 10⁵ CFU g^-1. The Tri002 and Tri003 products were expected to contain approximately 108 CFU g^-1. However, we found a highly variable number of active micro-organisms in these products. Tri003 batch no. 0031 contained only 5.24 x 10⁴ CFU g^-1, while the other batch contained 2.43 x 10⁸ CFU g^-1. The Tri002 batches contained 0.7 – 1.9 x 10⁷ CFU g^-1. Hence, only one Tri003 batch contained a number of active micro-organisms close to the number specified by the producer.

Table 3.1: The number of colony-forming units (CFU) of the active micro-organisms in the microbial plant protection products tested in this study. For comparison, the number of CFU or spores according to the producers' information is included.

Product	Active micro-organism	Batch number	Date of production	Date of expiry	CFU (g^-1 or ml^-1) found in this study		CFU or spores (g^-1 or ml^-1), producers' information
Product	Active micro-organism	Batch number	Date of production	Date of expiry	average	standard deviation
Dipel ES	Bacillus thuringiensis subsp. kurstaki ATCC-SD-1275	040365	na	2 years shelf life	5.44 x 10⁹	0.92 x 10⁹	5 x 10⁹ spores ml^-1
Dipel ES	Bacillus thuringiensis subsp. kurstaki ATCC-SD-1275	020265	na	2 years shelf life	5.07 x 10⁹	0.60 x 10⁹	5 x 10⁹ spores ml^-1
Bactimos L	Bt subsp. iraelensis ATCC-SD-1276	na	na	na	7.31 x 10⁹	1.84 x 10⁹	5 x 10⁹ spores ml^-1
Bactimos L		105-421-N9	May 03	na	5.80 x 10⁹	1.20 x 10⁹	5 x 10⁹ spores ml^-1
Vectobac 12AS		090246	na	na	4.86 x 10⁹	0.80 x 10⁹	5 x 10⁹ spores ml^-1
Vectobac 12AS (on TSA)		140046			1.82 x 10⁹	0.52 x 10⁹
Vectobac 12AS (on T3)		140046			1.29 x 10⁹	0.71 x 10⁹
Supresivit	Trichoderma harzianum	58010333	na	14 months after production date	3.44 x 10⁹	0.60 x 10⁹	1.4 x 10¹⁰ spores g^-1
Supresivit		na			4.36 x 10⁹	2.14 x 10⁹
Supresivit		67010338			4.08 x 10⁹	0.88 x 10⁹
Binab TF WP	T. harzianum ATCC 20476, T. polysporum ATCC 20475	609	21-04-03	1 year shelf life	1.25 x 10⁵	0.65 x 10⁵	1-5 x 10⁵ CFU g^-1, guarantied 1 x 10⁴ CFU g^-1
Binab TF WP	T. harzianum ATCC 20476, T. polysporum ATCC 20475	612	10-06-03	1 year shelf life	1.17 x 10⁵	0.14 x 10⁵	1-5 x 10⁵ CFU g^-1, guarantied 1 x 10⁴ CFU g^-1
Tri002	T. harzianum, T. polysporum	0402	na	na	6.94 x 10⁶	0.53 x 10⁶	108 CFU g^-1
Tri002		0326	na	na	1.86 x 10⁷	0.28 x 10⁷	108 CFU g^-1
Tri003		0031	na	1 year after purchase date	5.24 x 10⁴	0.30 x 10⁴	108 CFU g^-1
Tri003		0043	na	1 year after purchase date	2.42 x 10⁸	2.01 x 10⁷	108 CFU g^-1
Mycotal	Verticillium lecanii CAB Int. Myc. Inst. UK: VERTALEC 179172; MYCOTAL 268317	97MYC417	na	16-07-04	2.86 x 10⁹	0.37 x 10⁹	1010 spores g^-1
Vertalec		97VER414	na	27-05-04	1.58 x 10⁷	0.21 x 10⁶	109 spores g^-1 2 x 10⁸ spores g^-1*
Rotstop	Phlebiopsis gigantea ATCC 90304	89272	na	05/04	2.79 x 10⁶	0.35 x 10⁶	106 – 107 CFU g^-1
Mycostop	Streptomyces griseoviridis K61 DSM 7206	na	na	06-2004	1.74 x 10⁸	0.07 x 10⁸	>108 CFU g^-1
Mycostop	Streptomyces griseoviridis K61 DSM 7206	na	na	06-2004	3.82 x 10⁸	0.43 x 10⁸	>108 CFU g^-1
BotaniGard ES	Beauveria bassiana ATCC 74250	ESO030703	na	31-07-04	5.70 x 10⁷	5.16 x 10⁷	2.3x1010 CFU g^-1 2.5 x 10⁹ CFU g^-1*
BotaniGard 22WP	Beauveria bassiana ATCC 74250	22WP030203	na	28-02-04	1.47 x 10⁸	0.48 x 10⁸	8.1-12.8 x 10⁹ CFU g^-1*

*: data available from the data package submitted to the Danish EPA

na: not available

Figure 3.1: The number of active micro-organisms quantified in the products (open bars) and the number of active micro-organisms in the products as informed by the producers (hatched bars). a, b, and c denotes replicate batches of the products. Error bars show standard deviation for the tested products. For the producers' information the error bars indicate the upper limit of abundance and the bar the lower limit.

Mycotal contained slightly below the expected number of active micro-organisms, while Vertalec contained a tenth of the number specified.

BotaniGard ES and 22WP with the fungi Beauveria bassiana contained only 0.25% and 0.4%, respectively, of the number indicated on the container and 1-2% of the number indicated in the data package submitted with the application.

3.3 Identification of Bacillus thuringiensis

The morphology and visual appearance of the bacterial colonies on the agar plates were similar for all colonies.

3.3.1 Molecular analysis

The results of the molecular analysis by PCR-ITS showed all 63 Bt isolates to have identical band patterns and share band pattern with the reference strain B. thuringiensis subsp. kurstaki HD1 (Bt144), which is a strong indication that they belong to the same phylogenetic group (Figure 3.2A-C). Two isolates from Vectobac 12AS (V1a2 and V2a2) did not show any bands on the first gel (Figure 3.2B). However, after DNA extraction from another overnight culture of the isolates, PCR-ITS followed by gel analysis showed bands (Figure 3.2C).

3.3.2 Crystalline inclusions containing delta-endotoxin

Of the 63 isolates tested only one isolate from Bactimos L, batch number 105-421-N9, did not contain crystals. The remaining eight isolates from this batch did contain crystals. PCR-RAPD analysis enabling differentiation between variants of Bt was performed on this isolate according to Hansen et al. (1998) and showed that the isolate was indeed a B. thuringiensis subsp. israelensis (Hansen 2004).

3.4 Identification of fungi and actinomycetes

The active micro-organism in Mycostop, supposed to be Streptomyces griseoviridis, was identified by DSMZ to be Streptomyces umbrinus (Appendix b). This identification was based on a sequence similarity of a 500-nucleotide long variable part of 16S rDNA of 99.5% and good correlation in fatty acid markers, in addition to results of other markers and physiological tests. Differences in identification results can be related to the identification keys used and the tests performed. However, the DNA sequence homology is considered as one of the most important characters for identification of bacteria.

The active micro-organism in Mycotal was identified to be a Lecanicillium muscarium, and the active micro-organism in Vertalec was identified to be a Lecanicillium longisporum. According to the producer's information the active micro-organisms in these two products were two different strains of Verticillium lecanii. However, in 2001 the taxonomy of this genus was revised and the two strains segregated into two new species (Zare and Gams 2001). This taxonomy is primarily based on morphological and phenotypic characters (Appendix b).

The remaining fungal isolates were identical to the species specified by the producers (Appendix b).

Figure 3.2: Band patterns of the products of polymerase chain reaction of the internally transcribed sequence (PCR-ITS) of DNA from bacterial isolates from the Bt products after electrophoresis in 2% agarose gels. Bt144: Bacillus thuringiensis subsp. kurstaki HD1; M: molecular weight marker; control: no added DNA template to PCR. A: In the upper panel 18 isolates of Dipel ES, in the lower panel 18 isolates of Bactimos L. B: In the upper panel 18 isolates of Vectobac 12AS, in the lower panel nine isolates of Vectobac 12AS. C: PCR-ITS products of the Vectobac 12AS isolates that did not yield a product in gel B. Shown are the old PCR-ITS products not yielding any bands (also shown in gel B) and the new PCR-ITS products yielding bands of V1a2 and V2a2.

3.5 Detection of contaminating bacteria

The experiments were not designed to detect contaminating bacteria but to enumerate the active micro-organisms. As such the level of detection was rather high (2.8 x 10² – 1.1 x 10⁷ CFU g^-1 or ml^-1) and depending on the number of the active micro-organism. Additionally, the media used was optimal for the active micro-organism and not necessarily for contaminating bacteria. In spite of this, contaminating bacteria were found in 7 batches of fungal-based MPPP (Table 3.2). Significant numbers of contaminating bacteria were found in Supresivit (all three batches), Tri002 (batch no. 0402) and Tri003 (batch no. 0031). Furthermore, few bacteria (1 to 12 per plate) were found in Tri002 (batch no. 0326) and in Rotstop.

No contaminating fungi or bacteria were detected in the Bt products Dipel ES, Bactimos L, and Vectobac 12AS, the actinomycete product Mycostop, and in the fungal products Binab TF WP, Mycotal, Vertalec, and BotaniGard ES and 22WP.

Table 3.2: The abundance of contaminating bacteria in the tested microbial plant protection products is indicated as the number of colony-forming units (CFU). When available, the producers' information of the number of CFU or spores of other micro-organisms than the active micro-organism is shown.

Product	Batch number	Detection limit (g^-1 or ml^-1)	CFU (g^-1 or ml^-1), Found in this study		CFU or spores (g^-1 or ml^-1), producers' information
Product	Batch number	Detection limit (g^-1 or ml^-1)	Average	Standard deviation	CFU or spores (g^-1 or ml^-1), producers' information
Dipel ES	040365	1.1 x 10⁶	bd	bd	Essentially contamination free, Group D streptococci: 0-4000 g^-1
Dipel ES	020265	1.1 x 10⁶	bd	bd
Bactimos L	na	1.1 x 10⁶	bd	bd	Essentially contamination free, Group D streptococci: <10 g^-1, coliforme bacteria: <10 – 7000 CFU g^-1
Bactimos L	105-421-N9	1.1 x 10⁶	bd	bd
Vectobac 12AS	090246	1.1 x 10⁶	bd	bd
Vectobac 12AS	140046	1.1 x 10⁶	bd	bd
Vectobac 12AS	140046	1.1 x 10⁶	bd	bd
Supresivit	58010333	2.8 x 10⁶	1.3 x 10⁹	5.4 x 10⁸	50 CFU g^-1
Supresivit	na	2.8 x 10⁶	2.4 x 10⁸	2.9 x 10⁷
Supresivit	67010338	2.8 x 10⁶	5.3 x 10⁸	1.4 x 10⁷
Binab TF WP	609	2.8 x 10³	bd	bd	Contamination usually absent
Binab TF WP	612	2.8 x 10³	bd	bd	Contamination usually absent
Tri002	0402	2.8 x 10³	4.4 x 10⁵	2.8 x 10⁵	3.3 x 10⁷ CFU g^-1 in technical active ingredient 4.1 x 10⁷ CFU g^-1 clay used as carrier
Tri002	0326	2.8 x 10³	2.8 x 10³	4.8 x 10³
Tri003	0031	2.8 x 10²	3.8 x 10⁴	1.1 x 10⁴
Tri003	0043	2.8 x 10³	bd	bd
Mycotal	97MYC417	1.1 x 10⁷	bd	bd	<5 x 10⁴ g^-1 unformulated product
Vertalec	97VER414	1.1 x 10⁴	bd	bd	<5 x 10⁴ g^-1 unformulated product
Rotstop	89272	1.1 x 10⁴	2.2 x 10⁴	3.9 x 10⁴	None
Mycostop	na	1.1 x 10⁴	bd	bd	<105 CFU g^-1
Mycostop	na	1.1 x 10⁴	bd	bd	<105 CFU g^-1
BotaniGard ES	ESO030703	2.1 x 10⁵	bd	bd	6 x 10³ CFU g^-1
BotaniGard 22WP	22WP03020	2.1 x 10⁵	bd	bd	6 x 10³ CFU g^-1

bd: below detection level

na: not available