Episódios

  • Baleage can be a fantastic way to conserve pasture or crop, moving forage from times of feed surpluses to times of feed deficits. Once wrapped in plastic, all baleage looks somewhat the same. Yet behind that plastic lurks all types of feed, from very high quality baleage through to absolute compost. This latest podcast focusses on assessing the quality of baleage as a feed for your stock. After discussing how to assess baleage, we move onto the importance of getting good quality forage into a bale at the appropriate dry matter (DM) percentage to optimise baleage quality. Part 2 of this podcast series will focus on further aspects of baling forage, including chop length, bale compaction, individual versus tube-wrapping of bales, and answers the question of “just how long do we need to leave baleage from wrapping until feed out”?

  • Hypothermia is a real risk for newborn lambs and calves - and is a significant cause of loss of newborns born outdoors during cold weather.

    When body heat is lost to the environment faster than a lamb or calf can replenish core body heat from within, hypothermia is likely. What factors influence the amount of heat that a lamb or calf can generate to keep itself warm, from the 'inside-out'?In our latest podcast, we investigate how mother nature has designed a range of inbuilt systems that help newborn lambs and calves stay warm. The importance of brown fat reserves is explained and other mechanisms such as muscle shivering are explored.

    Farm-level factors, specifically the nutrition of the pregnant ewe determine the extent of brown fat deposition in the unborn lamb. Keeping ewes in good body condition from mating to scanning, then from scanning to lambing favours better reserves of brown fat in unborn lambs and calves. More brown fat available at birth helps lambs and calves keep warm during the first few hours of life - potentially reducing risk of hypothermia in newborn ruminants.

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  • Building on this mid-winter topic introduced in Episode 51, this podcast explores practical, farm-based things that we can do to help our cows well in cold weather. As a nutrition-themed podcast series, our latest episode focuses unashamedly on the importance of nutrition, but other topics are explored too. The role for shelter for reducing effects of wind chill is discussed. Just why cows need more feed during a range of different winter weather events is covered. How the “Heat of Fermentation” inside the rumen helps keep a cow "toasty warm" is explained. The better types of supplementary feeds to offer cows during inclement weather are discussed. The importance of good quality stock water for cows, even during mid-winter, is defined.

    Keep warm out there Rumen Room Podcast listeners!

  • Cold winter weather. Great if you love skiing, not so great for us and our ruminants when we’re out and about in rough weather. That said, ruminants can be remarkably resilient in cold winter conditions – to a point.

    In this, part one of a two part podcast series, we explore why ruminants (focusing specifically on dairy cattle) can tolerate moderately cold winter conditions. Risk factors that influence the degree of tolerance by cows to cold conditions are discussed. The range of coping mechanisms provided to ruminants by “Mother Nature” to improve resilience to colder winter weather are explored.

    Part two of this latest podcast series (episode 52) will cover some practical, farm-based strategies, with a nutritional twist, that can help keep cows well through winter weather events.

  • Ingestion of soil during grazing of pastures and forage crops is a common and unavoidable event. Soil contamination of silage and baleage is another challenge that we sometimes need to deal with. Our latest episode explores the whole topic of soil ending up where it doesn’t belong. How much mud and dirt do animals eat during grazing? What factors increase risk of animals eating too much soil? Are there any health or nutrition issues we need to think about when animals eat too much mud and dirt? What happens when we get soil contamination of silage? All this and more. We hope you enjoy our latest podcast.

    2.25 Overview of content of our current podcast

    4.00 How ruminants end up eating soil

    4.30 Post-grazing residual management – it’s not only about soil ingestion

    6.55 Soil type and structure

    9.00 Plant pulling during grazing

    11.00 Earthworms – wonderful things but how about those worm casts?

    12.45 Hot, dry dusty conditions

    13.15 Flood irrigation

    13.55 Annual forage crops, including bulb crops (Fodder beet, swedes, turnips)

    14.35 Different types of bulb crops and risk of soil ingestion

    17.00 Sugar beet and soil tare

    18.00 When soil contaminates conserved feeds. Risks for spoilage of silage

    23.30 Listeriosis risk when soil-contaminated silage pH is high

    25.05 What parts of a feed test reports could indicate the presence of soil in your silage sample?

    27.20 Soil ingestion when animals have a depraved appetite and eat soil (pica)

    29.20 How much soil do grazing ruminants eat during grazing?

    34.45 Potentially good aspects of soil ingestion

    39.00 Potentially not so good aspects of soil ingestion.

    44.50 Risk of physical damage to the gastrointestinal tract when ruminants eat soil

  • Well known New Zealand-based veterinarian, nutritionist and farmer Dr Sue Macky joins Charlotte Westwood in our latest podcast. Sue steps us through everything to do with the individual dairy cow during the dry and transition periods - from the cow's point of view. Too often we get overly focused on the detail of the diet and management dry and transition dairy cows - and forget about focusing specifically on the cow herself. Not in this latest episode, this is very much about the cow herself!

    Sue discusses a cow-centric approach to managing dairy cows from dry off, during the far-off dry period and into the “springer” period (close-up dry period) and colostrum mob. This is one episode you simply will not want to miss!

    0.40 Introducing Dr Sue Macky, defining her lifetime of global experience in dairy cow feeding and management

    3.35 The dairy cow is an elite athlete, and should be treated as such

    4.35 The New Zealand dry (non-lactating) cow period - redefined

    5.10 Managing cows heading into dry off including redrafting cows for the dry period. Impacts on an individual cow with changing herd social structure discussed

    7.10 Cow body condition score at dry off through to calving

    7.50 Gut fitness in dairy cows; Capacity and muscularity during the dry period

    10.20 Feeding cows through dry off – “don’t confuse the cow”

    10.50 Immune functionality through dry off

    11.40 Stock water supply and access by cows during the dry period

    13.30 Late dry period through to the transition period – setting cows up well

    14.00 “Calves are obligate parasites during late pregnancy”

    14.40 The challenges of pasture-based diets in late pregnancy

    15.30 Mob size for springer (close-up) dry cows, it’s all about compromise

    16.05 How long should cows remain in the springer mob?

    16.30 The calving cow – the importance of access by cows to feed and stock water

    17.50 The cow-newborn calf bond

    18.45 Feed, water and calcium for freshly calved cows

    20.10 Cow behaviour after calving – the modern cow vs. the cow of ancient times

    21.05 Milking out a cow after calving (“energy in, energy out”)

    21.35 Once-a-day milking of cows after calving, it’s all about gut fill and rumination

  • All plants would be green slime growing sideways along the ground if it wasn’t for lignin– True! Find out more in our latest podcast covering everything from the good, the bad and the ugly about lignin. Learn how lignin impacts overall quality of ruminant feeds, and how feed management decisions change how animals process and digest lignin in their day-to-day diets. Find out how the lignin content of feeds changes with feed type and feed management, and what you can do to reduce intake of lignin in the diet of your sheep, cattle, deer or goats to improve animal productivity.

    Here’s where to find the key sections in this our latest podcast talking all things ruminant nutrition.

    0.51 Defining lignin

    2.00 Just what does lignin mean for sheep, beef, deer and goats?

    4.55 Lignin and plant cell walls – holding hands

    7.10 If it weren’t for lignin, where would plants be?

    7.30 How lignin messes with feed quality for animals

    9.50 Plant cell contents aren’t bothered by lignin – why not?

    10.35 Lignin, feed digestibility and MJME

    12.45 How high is high? Interpreting lignin results as part of feed test results

    13.55 Lignin alongside NDF, NDFd, and ADF

    15.10 “Book value” lignin results for common New Zealand feeds

    17.00 Do zero lignin feeds exist?

    17.30 Lignin content of some common “dry” byproduct feeds

    20.25 Lignin and NZ pastures

    23.30 Plant maturity influences lignin content

    26.15 Weather, pasture and forage crops and lignin

    31.20 Managing pastures for reduced lignin content

    34.05 Plant breeding and lignin, including BMR forages

  • Sliced on our morning cereal or perched on top of our iconic New Zealand dessert Pavlova, kiwifruit deliver a tasty powerpack of valuable nutrients for us humans. What about ruminants? Are reject kiwifruit from your local packhouse equally as good for our dairy cows and other animals on farm? Yes! A valuable source of energy delivered largely as water soluble carbohydrates, whole kiwifruit can be a very useful feed. However… as for any byproduct feed, kiwifruit may not always meet our expectations as a stockfeed.

    Join us for this latest podcast that explores the good, the bad and the (occasionally) ugly aspects of kiwifruit as a feed for ruminants, with a specific focus on kiwifruit feeding to lactating dairy cows.

    Although this is a kiwifruit-focused topic, we include content that applies equally to the feeding of other byproduct fruit and vegetables. Enjoy!

    Where to find the various topics within this podcast:

    2.35 Overview of the episode

    5.35 The nutritive value of kiwifruit – “so changeable as the fruit ripens”

    6.45 Water soluble carbohydrates (WSC)

    7.45 Neutral detergent fibre (NDF)

    8.30 Crude protein (CP)

    10.40 Ash and mineral content

    13.10 Risk of rumen acidosis associated with kiwifruit feeding

    19.00 Best practice approaches to minimise risk of rumen acidosis when feeding kiwifruit

    20.30 The importance of knowing your kiwifruit on a dry matter (DM) basis - and not just a wet weight basis

    21.35 Gradual adaptation by ruminants to a kiwifruit diet

    22.40 The protective role of a rumen-full of long stem fibre in reducing risk of rumen acidosis

    23.10 Day to day consistency when feeding kiwifruit is the key!

    23.50 Maximum daily amounts of kiwifruit you can feed to dairy cows. The answer? “It depends”

    25.05 Feed planning with kiwifruit – the “Three Versions” of a diet that contains kiwifruit

    27.30 The role for Kiwi ingenuity and innovation when feeding kiwifruit

    33.15 Handling kiwifruit storage on farm

    34.00 What to do if kiwifruit is overripe?

    35.00 Are rumen additives protective against kiwifruit-induced acidosis?

    37.00 Risk of “choke” and rumen bloat with kiwifruit feeding

    41.00 Know how much your kiwifruit are costing you. Converting $ per tonne wet weight to $ per tonne DM

    44.15 The paperwork. Dairy Feed Declaration. Making sure your kiwifruit are fit to feed

    45.45 Preventing birds from eating your stockpiled kiwifruit, helping out your local Regional Council.

  • A fundamental basic of ruminant nutrition – energy density of feeds – is covered in this latest Rumen Room Podcast.

    Expressed as Megajoules of Metabolisable Energy per kilogram of dry matter (MJME/kgDM), energy density is an important driver of animal productivity and profitability.

    In a down to earth, practical “gumboot level” manner, Dr Charlotte Westwood explores the basics of MJME as a concept and covers how feed testing laboratories measure MJME. How we use MJME values of a feed on farm on a day to day basis is explained. The strengths and possible limitations with the use of MJME in our day to day farm-level decisions is discussed.

    Don’t be put off by what is often thought to be a rather "dry" topic of MJME - actually, it’s a straightforward concept - we’re sure you’ll learn a lot from this latest podcast!

    Here’s where to find the various sections within the MJME podcast, below:

    2.02 Outline of this MJME podcast

    3.40 What is “energy”?

    6.30 Defining Megajoules and Metabolisable Energy

    7.50 Megajoules compared to Megacalories – what’s the difference?

    10.25 What is gross energy and why might we be interested?

    14.25 Why ruminants can’t use all of gross energy in feeds for useful things

    15.10 Faecal energy – what a waste! (#1)

    16.10 Digestible energy

    17.25 Methane – what a waste! (#2)

    18.10 Finally arriving at the MJME number…. How this is calculated

    19.00 How different feeds change energy losses as methane

    21.00 Measuring MJME – inside the sheep

    23.00 Feed testing laboratories estimates of MJME

    25.40 Using the digestibility value to calculate MJME

    26.20 NIRS technology - digestibility and MJME

    31.15 Strengths and weaknesses of MJME as a measure of feed quality – an overview

    32.00 Typical MJME values of feed

    34.40 Valuing our feeds on a cents per MJME basis – a simple task on farm! Valuing a bale of pasture baleage on an MJME basis as an example

    38.00 Using MJME as part of your feed budgeting – MJME demand vs. MJME supply. A 30kg liveweight lamb as an example

    40.30 Limitations of MJME as an indicator of suitability of a feed for animals

    41.30 MJME is a calculated measure only!

    42.00 MJME doesn’t tell us about all of the other interesting stuff in feeds

    44.10 Summing up the MJME topic

  • Our latest podcast explores DCAD - one specific aspect of the diet of “springer” (“close-up”) dairy cows.

    The Rumen Room Podcast has briefly discussed DCAD previously (Episodes 10 and 34). Changing the DCAD of a springer cow diet potentially reduces risk of hypocalcaemia (low blood calcium) in cows before, during and immediately after calving.

    This latest episode takes a deeper dive into the detail of DCAD, explaining what DCAD is, what stock class stands to benefit the most from changing dietary DCAD, and how dietary DCAD influence risk of hypocalcaemia. Practical approaches to DCAD management for pasture-fed cows are covered and options for dietary DCAD additives are investigated.

    Location of topics within our latest podcast.

    1.00 DCAD as just one aspect of the springer dairy cow diet.

    1.45 Introduction to the DCAD podcast

    4.55 The definition of DCAD

    5.45 Dietary cations and anions explained

    6.45 The four dietary elements contributing to DCAD: Potassium, sodium, sulphur and chloride

    7.50 The DCAD equations – there are a few out there, we like “equation 1” for calculating DCAD

    9.10 How does changing DCAD work? DCAD simplified!

    10.50 What’s the “ideal” DCAD for springer diets?

    11.35 How long should springer dairy cows be exposed to low or negative DCAD diets before calving?

    12.55 DCAD once a cow has calved

    14.41 How slight changes to blood pH reduce risk of hypocalcaemia

    22.00 High potassium ryegrass (and other types of feeds) and DCAD in springer diets

    23.40 Ryegrasses can accumulate lots of potassium!

    24.42 Whey applied to pasture as a risk factor for high potassium and high DCAD pastures

    25.45 Lucerne silage, baleage or hay and DCAD and calcium in springer diets

    27.25 Sodium as a driver of DCAD for New Zealand pasture-fed springers

    28.35 Lower DCAD feeds for springer diets – Maize (corn) silage

    30.40 Additives that change the DCAD of springer cow diets

    35.30 “Do no harm when trying to solve a milk fever problem” – the risk of reducing feed intake by springer cows when unpalatable / not very tasty anionic products are added to diets

    37.45 Negative DCAD additives that also deliver calcium: Calcium chloride & calcium sulphate

    40.35 Measuring DCAD of feeds – the role for feed testing and springer cow urine testing

    43.20 Concluding / summing up the DCAD podcast

  • Our latest podcast carries on with our heat stress 'theme' from episode 43, where we explored the challenges of hot temperatures on pasture species.

    We’ve moved the theme of heat stress across to how heat stress effects dairy cows. We discuss how heat stress bothers cows, and investigate strategies to reduce the effects of summer heat on lactating cows of hot summer temperatures.

    Featuring expert heat stress guest podcaster, Lori Grinter, this episode covers a wide range of heat-related topics. Lori first explains how her heat stress studies as part of her Masters undertaken at the University of Kentucky uncovered different cow responses to heat stress, and gave industry new insights into how cows respond to hot weather.

    The remainder of the podcast returns very much to a New Zealand-based discussion around how heat stress influences lactating cows, and farm-level strategies that reduce the heat load on our cows.

    If you’re short on time listening to our latest podcast, here’s where to find the various discussion sections:

    1.46 Introducing guest heat stress podcaster, Lori Grinter

    3.05 University of Kentucky heat stress research completed by Lori

    4.12 Cows voluntarily taking a cool shower (we kid you not!)

    9.10 The 5 hour time delay between exposure by cows to heat and cows seeking a cooling shower

    12.45 “THI” the temperature humidity index defined – knowing when conditions are hotting up

    15.15 Signs that our cows show us, when they’re getting hot and bothered

    17.00 The rumen heat chamber – high fibre feeds and heat stress

    17.20 Rumen acidosis risk, as worsened by heat stress

    22.15 Shady dealings – The importance of shade for keeping cows cool

    28.55 Exercise – hotting things up, the importance of walking and moving cows during cooler parts of the day

    32.20 Cow nutrition – Concepts for keeping cows cooler during hot conditions

    40.45 Cool clean stock water – a critical factor when managing hot cows

    44.10 Cow wearable technologies – useful things to monitor for early signs of heat stress

    47.00 Resources for learning more about hot and bothered cows

    Below are the links for Lori Grinter’s publication in the highly esteemed Journal of Dairy Science

    https://www.journalofdairyscience.org/article/S0022-0302(19)30151-1/fulltext

    https://www.journalofdairyscience.org/article/S0022-0302(22)00677-4/fulltext

    (Note that this heat stress study made editors choice!)

  • With the New Zealand summer in full flight during early 2024, it’s timely to review how hot temperatures potentially alter the dry matter yields and nutritive value of our temperate pasture species.Exploring first how hot temperatures impact dry matter yields (kilograms of dry matter grown per hectare per day), the podcast looks at effects of hot weather on New Zealand’s most common pasture species combination, perennial ryegrass (Lolium perenne) and white clover (Trifolium repens). Other species discussed include continental (summer active) tall fescue (Festuca arundinacea) and cocksfoot (Dactylis glomerata, otherwise known as orchard grass) and red clover (Trifolium pratense).Nutritive value of temperate pasture species, as influenced by hot temperatures is covered, looking specifically at digestibility and MJME, as well as NDF, NDFd and non-structural carbohydrates as influenced by hot temperatures.A note that we make within this podcast is that the selection of pasture species should never be made simply on the basis of heat tolerance, in isolation from other factors to consider. Multiple factors also requiring consideration include soil fertility, pH, rainfall/irrigation, and paddock aspect - to name but a few factors other than heat tolerance. Talk with your local PGG Wrightson Seeds agronomy expert for all the information you need around your regrassing requirements.Various sections within the podcast can be found below. Hope that you find this topic a "cool little topic" to tune into (pun totally intended). Happy listening! 0.55 Introduction1.39 Overview of the content of our latest podcast2.05 Scene set – Overview of New Zealand pastures (for the benefit of our non-New Zealand based listeners)3.40 The wide range of pastures from the north to the south of New Zealand6.35 Dry matter yield by pasture species when hot summer temperatures arrive (along with other factors including moisture deficit)8.35 The “ideal” daytime temperatures that support optimum growth rates by our temperate C3 pasture species?9.50 How hot is too hot for our temperate C3 pastures? Perennial ryegrass, continental tall fescues & cocksfoot10.05 How hot does it need to be before perennial ryegrass gets hot and bothered?10.40 Tolerance to temperature by tall fescue compared to perennial ryegrass11.45 Adequate moisture allows C3 grasses to better tolerate hot temperatures.14.10 Cocksfoot tolerance to hot temperatures and moisture stress/dry conditions compared to perennial ryegrass 15.50 The role for endophytes in perennial ryegrass and tall fescue and tolerance of heat 17.25 How frequent irrigation helps temperate grasses handle hot temperatures – “transpiration” and evaporative cooling20.00 **Don’t select a temperate grass species ONLY on the basis of heat tolerance, there are so many other factors to consider when moving away from perennial ryegrass as you core grass species.**22.30 Legume (clovers, lucerne) growth during hot weather23.40 Chicory handling hot conditions – but only if adequate moisture is available25.40 Nutritive value of temperate pasture during hot weather – changes to digestibility, MJME, NDF and NDFd30.50 Digestibility and NDF changes by tall fescues and perennial ryegrass as summer temperatures increase35.55 Legumes – changes in nutritive value with hot temperatures 39.50 Legume quality changes over summer – not related to grazing management and temperature 40.20 More clovers in pastures swards – the rumen bloat conundrum42.35 Temperate grasses - Non-structural carbohydrates (water soluble carbohydrates and starch) changes with temperature43.30 Temperate legumes - Non-structural carbohydrates changes with temperature48.50 Recap / conclusion of topics covered

  • Thiamine (Vitamin B1) deficiency - a nutrition/diet-mediated animal health condition sometimes seen in ruminant species - features in this, our latest Rumen Room Podcast. Most often seen in young, spring-born ruminants during their first summer of life, thiamine deficiency is a sporadic animal health condition that most New Zealand dairy, sheep and beef farmers will be familiar with.Featuring five sections packed with information about thiamine, Dr Charlotte Westwood steps us through this podcast in a down to earth, practical manner. Thiamine as a vitamin is defined and clinical signs of thiamine deficiency are discussed – the “neurological” form of deficiency (Polioencephalomalacia, sometimes called "polio", "PE" or "PEM") and the “Ill-thrift” form of deficiency. Why all ruminants are not equally at risk of thiamine deficiency is explored. How your vet will likely help you with dealing with thiamine deficiency is covered. Strategies that can reduce risk of thiamine deficiency in New Zealand ruminant species are suggested.

    *Note* The information about thiamine contained in this podcast episode is NOT intended to replace the expert advice from your own veterinarian. If you have any concerns about animal wellbeing and/or underperformance by your ruminant animals, please contact your own veterinarian.

  • Our latest episode features guest speaker Dr Ginny Dodunski who joins Rumen Room host Dr Charlotte Westwood for a chat about all things internal parasites. As a New Zealand-based veterinarian and self proclaimed “gumboot parasitologist”, Ginny requires little introduction to most kiwis involved in farming. With a background in veterinary practice, farm consultancy and more recently, working part time with Wormwise, Ginny joins us to cover a range of topics relating to internal parasite management in sheep and cattle.

    Given the concerning scale of resistance by internal parasites to our range of anthelmintic (drench) products, Ginny steps us through a range of down to earth, practical recommendations to managing internal parasites – including the important role for top quality nutrition for maternal and young stock.

    Anyone who is involved in managing young stock should tune in - there will be some practical tips and tricks for everyone.

    Have a scroll (below) through the content for our latest episode featuring Ginny Dodunski.

    0.50 Ginny’s background and how her passion for all things animal health, and how her journey working with internal parasites began.

    6.05 The timeline of New Zealand resistance since the days of effective anthelmintics

    7.00 The cost of internal parasites (including resistance issues) to the New Zealand pastoral industries - and at the level of individual farms

    8.40 The novel drenches, Zolvix™ Plus (monepantel and abamectin) and Startect® (derquantel and abamectin) help uncover the true cost of internal parasite resistance in lambs

    9.50 Picking up sub-clinical internal parasite challenges (or not!) – especially when other autumn health challenges are occurring

    12.10 Who to talk to if you suspect internal parasite resistance issues at your place

    13.45 Is my drench working or not? Faecal egg counts

    15.15 Starting the internal parasite journey – starting with the ewe/lamb(s) unit

    16.25 Higher lambing percentages and internal parasite challenges (and opportunities)

    18.40 Well fed ewes support good lamb weaning weights, reducing numbers of lambs on farm post-weaning

    22.40 Anthelmintic treatments for ewes pre-lambing (or not)

    24.10 Ewe nutrition and body condition– building tolerance to internal parasites

    28.35 Hatching and development rates of larvae – differs for eggs from ewes and lambs

    30.20 Ewe stocking rate combined with other stock classes – optimising ewe nutrition

    32.50 Three Pillars of Parasite Management

    33.30 First Pillar = well fed, healthy robust breeding stock

    33.35 Second Pillar = young stock on clean feed (less worm larvae than average hill country pasture)

    34.40 What’s the best crop for lambs?

    37.45 Feeding lambs the best quality feed that you can – the Third Pillar

    38.10 Gross margin analyses on forage crops – understates the value of crops for young stock

    39.00 Preparing pasture areas to finish lambs on – integrating cattle with sheep

    40.00 100kg calves (dairy replacements, dairy beef) and internal parasites

    43.00 Buying in 100kg calves – cautions around risk of parasite resistance

    44.20 Holding young stock in yards to empty out after quarantine drenches

    46.30 Faecal egg counting in young cattle – usefulness for different ages of cattle

    48.40 Trace elements / trace minerals and internal parasites

    52.05 Where to go to learn more about internal parasites

  • This episode takes a deep dive into the topic of dietary iodine requirements of cows - and the relationship (or not) of iodine intake with the reproductive performance of cows.

    Iodine is well down the priority list when tackling challenges of poor reproductive performance. Body condition score at calving and the extent and duration of body condition loss (‘negative energy balance’) are by far the more important factors that drive successful reproductive outcomes in dairy cows.

    That said, iodine features every season in conversations on farm about improving mating outcomes. “Iodine improves expression of heat by cows” has been around for a long time as a topic of conversation. Fact or fiction? Join us in this latest podcast to explore the potential relationship between dietary intake of iodine by cows (and some discussion of ewes too) and the wellbeing of ruminants.

    As always, the content of this podcast is of a general nature only and is never intended to replace the advice of your very own local veterinarian and qualified dairy nutritionist.

    Where to find different parts of this podcast:

    1.20 Overview of the topic of iodine and the reproductive performance of pasture-fed dairy cows

    1.55 Iodine might play a possible role in cow fertility but more than 100 other factors determine if cows will mate successfully – particularly cow body condition score at calving and extent and duration of body condition loss between calving and mating

    5.00 Iodine increases expression of signs of oestrus (heat) by cows – fact or fiction?

    7.45 Why do cows require iodine in their diet? It’s all about thyroid hormones, needed particularly by the unborn calf.

    9.30 What do thyroid hormones do inside the cow (and unborn calf) or indeed inside the ewe (and unborn lamb)

    12.00 Goitre in newborn calves and lambs – very rarely seen in adult stock

    14.10 Aside from clinical signs in newborn animals born to cows and ewes, there’s not much to see in iodine deficient cows and ewes

    16.40 Iodine and the functionality of the reproductive system in cows

    17.00 The “HPO” axis that drives reproductive function and the role for iodine

    18.45 Possible changes to reproductive function when iodine status is low

    22.30 The challenges of diagnosing iodine deficiency in cows (but discuss this topic further with your vet)

    25.15 Pasture levels of iodine are very variable!

    25.50 Salt spray off the sea – adds small amounts of iodine to pasture

    26.30 Other factors that influence iodine intake by pasture-fed cows

    27.05 Goitrogens in forage feeds – reduced conversion of iodine to thyroid hormones

    29.05 Types of goitrogens in NZ forages

    31.50 Iodised teat sprays and iodine status of lactating dairy cows

    33.25 Taking the simple approach, not testing for iodine, can we just add iodine to the diet?

    33.55 Care with supplementing with iodine, some countries, upper limits to iodine supplementation!

    34.20 Selenium deficiency contributes to thyroid hormone challenges as well

  • With the ever-increasing inconsistencies of summer weather impacting on dryland dairying, forage crops deliver a valuable bulk of high-quality summer and early autumn feed. In our latest dairying-themed podcast, host Charlotte Westwood is joined by Waikato dairy farming couple, Mark and Courtney Harris - to learn of their investigations into the fit of different summer forage crops for their dairy business.

    Farming across two properties in the northern and southern reaches of the Waikato, summer crops form an important feature of Mark and Courtneys dairy systems. Chicory and summer brassicas are cost effective feeds for their herds, helping to to offset the absence of sufficient quantities of high quality pasture that would otherwise compromise summer milksolids production.

    Mark and Courtney discuss how four years of on-farm work that has compared cow responses to either chicory or summer brassicas has taught them much about the fit of summer crops within their dairy business.

    Which is better as a summer forage crop for cows? Chicory or brassicas? Which crop type should we plant? Tune in, Mark and Courtneys findings might surprise you.

  • With spring planting coming up fast for us here in New Zealand, our latest episode focuses on decisions around choosing the right pasture and forage crop seeds.

    Host Charlotte Westwood chats with guest podcaster, Southland agronomist Brian Young about all things seeds. Brian’s background includes farming (sheep and beef, and dairy), shearing, working as a rural retail rep and, for the last 9 years, working with PGG Wrightson Seeds, advising farmers how to grow the very best pastures and forage crops.

    What’s involved in choosing the right type of seed? Just what is in that bag of seed?? How do we know that the seed will be right for us, will grow lots of feed for our stock, and won’t bring in unwanted weeds? Brian steps us through the information we need to make informed choices when choosing the right seed for us.

    There’s a bit of info for everyone in our latest podcast.

  • This episode carries on from Episode 36, expanding the topic around feeding ewes well through lambing. First up, we cover off on the challenges of stress, and of pre-existing animal health conditions on the ability of a heavily inlamb ewe to look after herself and her unborn lambs well, from a nutritional point of view. The importance of getting stocking rate right at the point of set stocking is discussed, and we investigate ways to calculate what your stocking rate should look like. Lower than ideal pasture covers at the time of set stocking - such a challenge! Short and longer terms ideas of improving pasture-feeding levels at lambing are discussed.

    Content of our latest podcast:

    1.50: Feeding ewes well; more kg of lambs weaned per ewe mated

    3.00: Non-nutritional factors that impact on the nutritional status of ewes in late pregnancy

    4.20: The role of stress in late pregnancy; Weather, yarding, disrupting lambing ewes, pre-lambing shearing too close to lambing

    7.30: Internal parasites and nutritional status of ewes

    10.20: Illness and injury – risk of ewe undernutrition

    12.15: Ewe body condition score (BCS) and ewe nutritional wellbeing through lambing

    17.35: Working to improve ewe BCS at lambing – a longer term view

    19.45: Pregnancy scanning – An incredibly valuable tool in managing ewe nutrition

    22.00: Setting the stocking rate for twin/triplet-bearing ewes at set stocking, prelamb

    25.50: Beef and Lamb FeedSmart – just one of many tools available to define ewe nutrition through lambing

    33.10: Feeding ewes well vs. risk of bearings

    36.00: Managing pasture deficits at set stocking; (a) Short term strategies

    39.10: Managing pasture deficits at set stocking; (b) Longer term strategies

  • Our latest sheep-themed podcast covers a topic that can challenge our pregnant ewes when they have a belly-full of lambs in late pregnancy. Pregnancy toxaemia is a metabolic disease of ewes caused by underfeeding and/or stress when ewes, often those carrying twins or triplets, reach the final stages of late pregnancy. The podcast covers off what pregnancy toxaemia is (and how and why it occurs), clinical signs you might see in affected ewes, then finishes up with an overview of approaches to treating ewes with pregnancy toxaemia.

    *NOTE: This podcast contains information about pregnancy toxaemia in ewes, however podcast content is NOT intended to substitute advice and recommendations from your own veterinarian about the health and wellbeing of your ewes*

    Content of our latest podcast:

    1.30: An introduction to the current episode

    3.50: What is pregnancy toxaemia in ewes?

    7.50: Do we know the incidence of pregnancy toxaemia in New Zealand ewes?

    9.50: The two ‘syndromes’ of pregnancy toxaemia in New Zealand ewes

    12.10: Why is pregnancy toxaemia more likely to occur in twin and triplet bearing ewes?

    14.10: What signs should we look out for if we suspect pregnancy toxaemia in ewes?

    21.10: Impacts of pregnancy toxaemia on as yet unborn lambs, and ewe colostrum and milk production

    22.00: How pregnancy toxaemia impacts a ewes immune response (ability to ‘fight off’ infections and internal parasites)

    24.25: Basic approaches to treating ewes with pregnancy toxaemia (these suggestions are NOT intended to replace the advice and recommendations from your own veterinarian)

  • During mid-winter, it’s not uncommon to start the morning with frosted forages (pastures, winter brassicas, fodder beet and green feed cereals). For break / strip grazed animals that are hungrily waiting for their regular shift onto a new break, frosted forages can potentially increase risk of rumen bloat or "frost bloat".

    In this our latest “bite-sized” Rumen Room Podcast, we cover why grazing ruminants, cattle particularly, are at greater risk of rumen bloat when they eat frozen pastures and winter forage crops.

    Preventative strategies that reduce risk of “frost bloat” in animals that graze frozen, frosted forages are discussed.