Damage to roots of Trifolium subterraneum L. (subterranean clover), failure of seedlings to establish and the presence of root pathogens during autumn–winter

Field‐based plant bioassays were employed to assess the potential for pre‐ and post‐emergence loss of seedlings and for root damage affecting Trifolium subterraneum L. (subterranean clover) during autumn–winter at 17 pasture sites across a broad agricultural area of temperate southern Australia. Between 9 and 93% (median 21%) of T. subterranean seedlings failed to emerge at the 14 locations where soil moisture was considered adequate for germination. Post‐emergence losses were lower (range 0–32%; median 7%). Moderate damage (lateral roots) to severe damage (taproots) was recorded on surviving test plants at all of the sites. Sublethal damage to pasture roots constitutes a potentially large, but underestimated cost to production because it was so widespread and because the damage occurs during autumn–winter when pasture yield limits stocking rate. Potential for the loss of Lolium rigidum × multiflorum (annual ryegrass) seedlings was also demonstrated at some of the sites. DNA assays for common root rot disease pathogens (Pythium irregulare, Phytopthora clandestina and Rhizoctonia) were used for the first time to construct cost‐effective profiles of fungal and oomycete pathogens at each site. These assays may be useful for indicating disease risks and guiding plant cultivar selection and appropriate use of pesticides. DNA assays for arbuscular mycorrhizal fungi were also used and have the potential to provide novel insights into the soil biology of farming systems.     

Relationships among intramammary health,udder and teat characteristics,and productivity of extensively managed ewes

Mastitis is an economically important disease and its subclinical state is difficult to diagnose, which makes mitigation more challenging. The objectives of this study were to screen clinically healthy ewes in order to 1) identify cultivable microbial species in milk, 2) evaluate somatic cell count (SCC) thresholds associated with intramammary infection, and 3) estimate relationships between udder and teat morphometric traits, SCC, and ewe productivity. Milk was collected from two flocks in early (<5 d) and peak (30 to 45 d) lactation to quantify SCC (n = 530) and numerate cultivable microbial species by culture-based isolation followed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS; n = 243) identification. Within flock and lactation stage, 11% to 74% (mean = 36%) of samples were culture positive. More than 50 unique identifications were classified by MALDI-TOF MS analysis, and Bacillus licheniformis (18% to 27%), Micrococcus flavus (25%), Bacillus amyloliquefaciens (7% to 18%), and Staphylococcus epidermidis (26%) were among the most common within flock and across lactation stage. Optimum SCC thresholds to identify culture-positive samples ranged from 175 × 10³ to 1,675 × 10³ cells/mL. Ewe productivity was assessed as total 120-d adjusted litter weight (LW120) and analyzed within flock with breed, parity, year, and the linear covariate of log₁₀ SCC (LSCC) at early or peak lactation. Although dependent on lactation stage and year, each 1-unit increase in LSCC (e.g., an increase in SCC from 100 × 10³ to 1,000 × 10³ cells/mL) was predicted to decrease LW120 between 9.5 and 16.1 kg when significant. Udder and teat traits included udder circumference, teat length, teat placement, and degree of separation of the udder halves. Correlations between traits were generally low to moderate within and across lactation stage and most were not consistently predictive of ewe LSCC. Overall, the frequencies of bacteria-positive milk samples indicated that subclinical mastitis (SCM) is common in these flocks and can impact ewe productivity. Therefore, future research is warranted to investigate pathways and timing of microbial invasion, genomic regions associated with susceptibility, and husbandry to mitigate the impact of SCM in extensively managed ewes.     

Neonatal porcine endometrial development and epithelial proliferation affected by age and exposure to estrogen and relaxin

In the pig, temporospatially regulated proliferation of uterine luminal (LE) and glandular (GE) epithelium between birth (postnatal day=PND 0) and PND 15 is essential for success of endometrial development. Exposure of gilts to estrogen (E) or relaxin (RLX) during this period disrupts uterine development, and neonatal E exposure can compromise adult uterine function. Neonatal uterotrophic effects of E and RLX, administered for 2 days beginning on PND 12, can be inhibited with the antiestrogen ICI 182,780 (ICI) indicating crosstalk between RLX and E signaling systems. Here, objectives were to determine effects of: (study 1) neonatal age and (study 2) exposure to E, RLX, and ICI on porcine neonatal uterine histoarchitecture and patterns of epithelial cell proliferation as reflected by proliferating cell nuclear antigen labeling index. In study 1, uteri were obtained on PND 0, 3, 6, 9, 12 and 15. Glandular epithelium, absent at birth, was observed by PND 3. Overall, epithelial labeling index increased from birth to PND 3, declined from PND 6-9 in LE and GE, and increased to PND 15 in GE. In study 2, uteri were collected on PND 14 after administration of vehicle, E, or RLX for 2 days, or following pretreatment with ICI. Alone, E was uterotrophic and adenogenic and increased labeling index in both LE and GE. Both RLX and ICI increased proliferation in GE. Effects of E and RLX were attenuated by ICI, providing further support for crosstalk between these signaling systems in the developing neonatal porcine endometrium.     

Salmon of the Southeastern U.S.: Sucker migrations deliver resource subsidies to oligotrophic stream

The ability for migratory fishes to move commonly limiting resources such as nitrogen (N) and phosphorus (P) between discrete environments can have pronounced effects on recipient ecosystems. To further understand the geographic and taxonomic scope of migratory fish resource subsidies, we quantified N and P subsidies delivered by adfluvial suckers (Smallmouth Buffalo, Ictiobus bubalus) via excretion, eggs and carcasses to a small oligotrophic stream during their annual spawning migration. We also compared nutrient inputs from migrant buffalo with watershed nutrient export to assess the likelihood that delivered nutrients were ecologically important. We estimated that approximately 67,000 buffalo delivered 730 kg of N and 80 kg of P to Citico Creek as a result of excretion and egg subsidies across three migration waves. We estimated that carcasses delivered negligible amounts of N and P due to extremely low retention. The ratio of migrant inputs (M_w) to system export (E_w; M_w/E_w) varied amongst three migration waves and compounds (i.e. dissolved inorganic nitrogen, ammonium and soluble reactive phosphorus), with values for M_w/E_w ranging from 0.25 to 5.10, reflecting the potential of nutrient subsidies to exceed nutrients exported from the system under certain conditions. Our findings suggest that suckers have the potential to deliver large resource subsidies to their spawning habitats and that these subsidies may be ecologically important, thus warranting additional consideration of the functional relevance of nongame fishes and their migrations.