In vitro gas production, in situ digestibility, intake, weight gain and ruminal characteristics of calves fed a diet containing 60% waste papaya silage

Marcelino Gómez-Trinidad; Paulino Sánchez-Santillán; Marco Antonio Ayala-Monter; Luis Antonio Saavedra-Jimenez; Citlali Estefania Sollano-Mendieta; Bey Jamelyd López-Torres

doi:10.1007/s11250-024-04219-0

In vitro gas production, in situ digestibility, intake, weight gain and ruminal characteristics of calves fed a diet containing 60% waste papaya silage

Trop Anim Health Prod. 2024 Oct 30;56(8):370. doi: 10.1007/s11250-024-04219-0.

Authors

Marcelino Gómez-Trinidad¹, Paulino Sánchez-Santillán², Marco Antonio Ayala-Monter³, Luis Antonio Saavedra-Jimenez³, Citlali Estefania Sollano-Mendieta³, Bey Jamelyd López-Torres⁴

Affiliations

¹ Master's Program in Bovine Production in the Tropic, Autonomous University of Guerrero, 41940, Cuajinicuilapa, Guerrero, Mexico.
² School of Veterinary Medicine and Animal Production No. 2, Autonomous University of Guerrero, 41940, Cuajinicuilapa, Guerrero, Mexico. [email protected].
³ School of Veterinary Medicine and Animal Production No. 2, Autonomous University of Guerrero, 41940, Cuajinicuilapa, Guerrero, Mexico.
⁴ Academic Unit of Social Sciences, Autonomous University of Zacatecas, Zacatecas, 98085, México.

PMID: 39477871
DOI: 10.1007/s11250-024-04219-0

Abstract

Our aim was to evaluate a whole-grain diet containing 0 (T1) and 60% (T2) waste papaya silage in vitro, in situ and in vivo. In vitro, biogas, methane and dry matter degradation (DMDiv), neutral detergent fiber (NDFDiv) and crude protein (CPDiv) were determined at 72 h; in situ, DM (DMDis), NDF (NDFis) and CP (CPDis) digestibility was determined at 72 h; in vivo, consumption and apparent digestibility of DM (DMI and DMD) and NDF (NDFI and NDFD), daily weight gain (DWG), rumen characteristics (pH, bacterial and protozoan counts) were determined. In addition, we performed coproparasitoscopic analysis and interviews with producers. Biogas production, methane, DMDiv, CDPiv, DMDis, DMD, NDFD, pH, bacterial and protozoan counts, and parasite load of nematodes and coccidia were not different between treatments (p > 0.05). T2 showed more NDFDiv, CPDis, DMI, NDFI, DWG than T1, while T1 was higher than T2 in NDFDis (p < 0.05). The results obtained from in vitro, in situ and in vivo techniques indicate that the diet with 60% waste papaya silage (T2) showed a similar response to the control diet (T1). Therefore, waste papaya silage is a non-conventional feeding alternative for weaned calves in the Costa Chica region of the state of Guerrero, Mexico.

Keywords: Dry tropics; Feeding alternatives; Fruit overproduction; Non-conventional silage.

MeSH terms

Animal Feed / analysis
Animal Nutritional Physiological Phenomena
Animals
Biofuels / analysis
Carica* / chemistry
Cattle
Diet* / veterinary
Digestion*
Male
Methane / analysis
Methane / metabolism
Mexico
Rumen* / metabolism
Rumen* / microbiology
Rumen* / parasitology
Silage* / analysis
Weight Gain*

Substances

Methane
Biofuels