Abstract
Tetraploid black locust (Robinia pseudoacacia) is a woody plant with larger leaves and richer nutritional content than normal diploid black locust, with greater biomass and wider adaptability than herbaceous plant forage. However, currently no stockbreeders have adopted it as a major forage in China and other countries for a lack of information on the evaluation of nutritional ingredients of leaves and stems of young tetraploid black locust (YTBL) by in situ digesting tests. The objectives of this study were: 1) to assess the nutritive value of YTBL that bourgeoned from root stumps in the spring by determining the ruminal in situ disappearance kinetics of dry matter (DM), organic matter (OM), crude protein (CP), ether extract (EE), neutral detergent fiber (NDF) and acid detergent fiber (ADF) from leaves, stems and a mixture of both leaves and stems (MLS) of YTBL; 2) to compare these kinetic estimates with those of Leymus chinensis, a widely used ruminant forage in China. All samples were evaluated in situ by using five ruminally cannulated crossbred steers (550±22.7 kg BW). The results of 48 hours, the representative incubation period, indicate that in situ disappearance rates of DM and OM in YTBL leaves, stems and MLS are on average about 40% and can attain the level of digestibility of L. chinensis. In situ disappearance rates of leaves, stems and MLS of YTBL for CP and EE were 41% and 58% respectively, rates higher than those of L. chinensis. But the disappearance rates of NDF and ADF were, on average, respectively 30.62% and 24.89% and lower than those of L. chinensis. By analyzing synthetically all of our results it could be inferred that MLS of YTBL offers effective ruminal degradability of DM, NDF, ADF, CP, EE and OM, similar to the nutrients of L. chinensis. This supports our contention that the YTBL leaves, stems and MLS are suitable feed for those ruminants requiring high levels of nutrients, such as dairy cows and Boer goats, instead of plant forage, which is decidedly lacking in some parts of the world.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Coblentz W K, Fritz J O, Cochran R C, Rooney W L, Bolcen K K. 1997. Protein degradation in response to spontaneous heating in alfalfa hay by in situ and ficin methods. J Dairy Sci, 80(4): 700–713
Gelvin A A, Lardy G P, Soto-Navarro S A, Landblom D G, Caton J S. 2004. Effect of field pea-based creep feed on intake, digestibility, ruminal fermentation, and performance by nursing calves grazing native range in western North Dakota. J Animal Sci, 82: 3589–3599
Hao C, Li Y, Jiang J Z, Cui B B. 2007. Megaspore and microspore genesis and the development of gemetophytes in tetraploid Robinia pseudoacacia. J Beijing For Univ, 29(5): 12–17 (in Chinese with English abstract)
Jiang J Z, Hao C, Li Y, Zhang G J, He J Y. 2008a. Variation of mature phenotype and anlage differentiation of floret for tetraploid Robinia pseudoacacia. Sci Silv Sin, 44(6): 34–38 (in Chinese with English abstract)
Jiang J Z, Li Y, He J Y, Li G Y, Wang W. 2008b. The promotion measures of seed germination from autopolyploid of Robinia pseudoacacia. J Beijing For Univ, 30(5): 78–82 (in Chinese with English abstract)
Johnson J L, Gunsaulis M B, Daniels, Hellwig D H. 2003. In situ ruminal degradation of dry matter and fiber from bermudagrass fertilized with different nitrogen rates and harvested on two dates. Animal Feed Sci Technol, 105: 185–198
Jaeger S L, Luebbe M K, Macken C N, Erickson G E. 2006. Influence of corn hybrid traits on digestibility and the efficiency of gain in feedlot cattle. J Animal Sci, 84: 1790–1800
Li Y, Jiang J Z. 2005. Introduction of tetraploid black locust for fodder. J Northeast For Univ, 32(Supp.): 137–139 (in Chinese with English abstract)
Noziere P, Remond D, Lemosquet S, Chauveau B, Durand D, Poncet C. 2005. Effect of site of starch digestion on portal nutrient net fluxes in steers. Br J Nutr, 94(2):182–191
Vanzant E S, Cochran R C, Titgemeyer E C. 1998. Standardization of in situ techniques for ruminant feedstuff evaluation. J Animal Sci, 76: 2717–2729
Vanzant E S, Cochran R C, Titgemeyer E C, Stafford S D, Olson K C, Johnson D E, Jean G S. 1996. In vivo and in situ measurements of forage protein degradation in beef cattle. J Animal Sci, 74: 2773–2784
Wang X F, Li Y. 2003. Comparison of biomass of tetraploid Robinia pseudoacacia as forage in regional test. For Sci Technol, 28(2): 1–3 (in Chinese with English abstract)
Wang Y, Greer D, McAllister T A. 2003. Effects of moisture, roller setting, and saponin-based surfactant on barley processing, ruminal degradation of barley, and growth performance by feedlot steers. J Animal Sci, 81: 2145–2154
Zhang G J, Li Y, Jiang J Z, Lu C. 2007. Nutrition of the powder of tetraploidy black locust for fodder leaves and evaluation of its feeding value. Pratacult Sci, 24: 26–30 (in Chinese with English abstract)
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Jiang, Jz., Sun, P., Li, Y. et al. Ruminal in situ disappearance kinetics of six nutritive ingredients in leaves and stems of young tetraploid black locust in growing steers. For. Stud. China 11, 168–173 (2009). https://doi.org/10.1007/s11632-009-0026-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11632-009-0026-1