Jatinder Paul Sehgal

In vitro degradation of wheat straw by anaerobic fungi from small ruminants

Abstract Anaerobic ruminal fungi may play an active role in fibre degradation as evidenced by the production of different fibrolytic enzymes in culture filtrate. In the present study, 16 anaerobic fungal strains were isolated from ruminal and faecal samples of sheep and goats. Based on their morphological characteristics they were identified as species of Anaeromyces, Orpinomyces, Piromyces and Neocallimastix. Isolated Neocallimastix sp. from goat rumen showed a maximum activity of CMCase (47.9 mIU ml−1) and filter paper cellulase (48.3 mIU ml−1), while Anaeromyces sp. from sheep rumen showed a maximum xylanolytic activity (48.3 mIU ml−1). The cellobiase activity for all the isolates ranged from 178.0 – 182.7 mIU ml−1. Based on the enzymatic activities, isolated Anaeromyces sp. from sheep rumen and Neocallimastix sp. from goat rumen were selected for their potential of in vitro fibre degradation. The highest in vitro digestibility of NDF (23.2%) and DM (34.4%) was shown for Neocallimastix sp. from goat rumen, as compared to the digestibility of NDF and DM in the control group of 17.5 and 25.0%, respectively.

Effect of administration of anaerobic fungi isolated from cattle and wild blue bull ( Boselaphus tragocamelus ) on growth rate and fibre utilization in buffalo calves

Abstract Fifteen Murrah buffalo calves (age about 10 months, 163 – 176 kg BW) were divided into three groups. Group I (Control) was fed a complete feed mixture consisted of 50% wheat straw and 50% concentrate mixture (contained per kg: maize 330 g, groundnut cake 210 g, mustard cake 120 g, wheat bran 200 g, de-oiled rice bran 110 g, mineral mixture 20 g and common salt 10 g) along with 2 kg green oats per animal and day to meet the vitamin A requirements. Calves of Groups II and III were fed with the Control diet supplemented with Orpinomyces sp. C-14 and Piromyces sp. WNG-12 cultures, respectively. The digestibility of DM was significantly highest with Piromyces sp. WNG-12 in Group III (62.2%) followed by Orpinomyces sp. C-14 in Group II (60.3%), and Control (53.5%). A similar pattern of increase in digestibility of crude protein and cell-wall contents was observed in treatment groups. The digestible energy in terms of percent total digestible nutrients was also significantly enhanced in Groups II (56.6%) and III (59.9%) when compared to Control (49.2%). The rumen fermentation parameters such as pH and NH3-N were found to be lower, whereas total nitrogen, tricarboxylic acid precipitable-nitrogen, total volatile fatty acids and zoospore counts per millilitre of rumen liquor were significantly higher in fungal administered groups. After administration of fungal cultures, improvements of animal growth rate (i.e. body weight gain) and feed efficiency were also observed.

Effect of administration of rumen fungi on production performance of lactating buffaloes

Anaerobic fungi were orally dosed to lactating buffaloes to study their effect on the digestibility of a diet (composed of 50% wheat straw and 50% concentrate along with six kg maize green/animal/day), rumen fermentation patterns and milk production. Group I (control) was administered with fungus-free anaerobic broth, while group II and III were administered with Orpinomyces sp. C-14 or Piromyces sp. WNG-12 (250 ml; 3-5 days of growth/animal/ week), respectively. Milk production was higher in group II and III (8.42 and 8.48 kg/d) than in the control (8.03 kg/d) with virtually the same feed intake (i.e. 11.50 and 10.62 and 11.79 kg, respectively). There was an increase of 6% fat-corrected milk yield/animal/day in group II and III, respectively compared to the control. The milk fat was higher in the fungal culture administered groups than in the control group. The digestibility of dry matter, crude protein, neutral detergent fibre, acid detergent fibre, cellulose and digestible energy also increased significantly in group II and III. The pH and ammonia nitrogen were lower, whereas total volatile fatty acids, total nitrogen, trichloroacid precipitable nitrogen and number of zoospores/ml of rumen liquor were higher in group II and III when compared to the control. Hence, it can be stated that rumen fungi can be used as a direct-fed microbial in lactating buffaloes, to enhance the digestibility of wheat straw based diets leading to higher production.

In vitro degradation of sugarcane bagasse based ruminant rations using anaerobic fungi

In present study thein vitro degradation of sugarcane bagasse and total mixed ration (i.e. sugarcane bagasse, wheat straw, and concentrate mixture in the ratio of 20∶30∶50) were tested using anaerobic rumen fungiNeocallimastix spp. GR1 andPiromyces spp. WNG-12. These cultures produced hydrolytic enzymes (CMCase, FPCase and xylanase)and increased thein vitro digestibility of dry matter, neutral detergent fibre, and acid detergent fibre of bagasse and total mixed rations when compared with control.Neocallimastix spp. GR1 andPiromyces spp. WNG-12 also increased total volatile fatty acids by degradation of sugarcane bagasse and total mixed ration. Based on results obtained, it may be stated thatNeocallimastix spp. GR1 may improve the nutritive value of high fibrous based diets.