{"id":960,"date":"2026-05-22T07:48:30","date_gmt":"2026-05-22T07:48:30","guid":{"rendered":"https:\/\/foragebaler.com\/?p=960"},"modified":"2026-05-22T07:48:30","modified_gmt":"2026-05-22T07:48:30","slug":"round-bale-feeding-systems-rings-feeders-waste-reduction","status":"publish","type":"post","link":"https:\/\/foragebaler.com\/hi\/round-bale-feeding-systems-rings-feeders-waste-reduction\/","title":{"rendered":"Round Bale Feeding Systems: Rings, Feeders, and Waste Reduction"},"content":{"rendered":"
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<\/div>\n
Livestock Feeding Systems Guide<\/span><\/p>\n

Round Bale Feeding Systems: Rings, Feeders, and Waste Reduction<\/h1>\n

Research consistently documents that the feeding method used to deliver round bales to cattle determines 5\u201340% of total hay consumption \u2014 the fraction that is trampled, soiled, or scattered rather than eaten. On a 100-cow operation consuming 500 bales per winter, the difference between a poorly managed feeding approach and an appropriate feeder system can represent 25\u2013200 bales of avoidable loss annually. This guide covers every feeding system type, its measured waste rate, and the criteria that determine which system is right for your herd and facilities.<\/p>\n

Waste Rate Comparison<\/a><\/p>\n<\/div>\n<\/div>\n

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Feeding Method Waste Rates: The Research Numbers<\/h2>\n

University extension trials measuring round bale hay waste by feeding method consistently show a wide range \u2014 from under 5% with the most protective systems to over 40% with the least protective. These numbers represent dry matter that was offered but not consumed due to trampling, soiling, or scatter. At $150\u2013$220 per ton for premium hay, waste percentages convert directly to significant dollar amounts that a better feeding system can recover.<\/p>\n

\n\n\n\n\n\n\n\n\n\n
Feeding method<\/th>\nTypical DM waste<\/th>\nLoss per $150\/ton bale<\/th>\n\u0938\u0930\u094d\u0935\u0936\u094d\u0930\u0947\u0937\u094d\u0920 \u0906\u0935\u0947\u0926\u0928<\/th>\n<\/tr>\n<\/thead>\n
Unrolling on ground, no restriction<\/td>\n25\u201340%<\/td>\n$17\u2013$27\/bale<\/td>\nPasture-spread manure distribution only \u2014 not for winter feeding<\/td>\n<\/tr>\n
Round bale on ground, no ring<\/td>\n20\u201330%<\/td>\n$14\u2013$20\/bale<\/td>\nNever economically justified when rings are available<\/td>\n<\/tr>\n
Open-bottom ring feeder<\/td>\n10\u201320%<\/td>\n$7\u2013$14\/bale<\/td>\nMost common cattle winter feeding \u2014 good balance of cost and waste<\/td>\n<\/tr>\n
Cone feeder \/ sheeted-bottom ring<\/td>\n5\u201312%<\/td>\n$3\u2013$8\/bale<\/td>\nBest for winter beef feeding where feeder cost is recoverable<\/td>\n<\/tr>\n
Slow-feed hay net \/ cradle<\/td>\n3\u201381\u091f\u0940\u092a\u09405\u091f\u0940<\/td>\n$2\u2013$5\/bale<\/td>\nHorses and small stock \u2014 eliminates waste and slows consumption rate<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n
The payback calculation:<\/strong> A ring feeder that reduces waste from 25% (no ring) to 12% (cone ring) saves 13% of each bale. On 800-lb bales at $150\/ton: 13% \u00d7 800 lbs \u00d7 ($150\/2,000 lbs) = $7.80 saved per bale<\/strong>. At 200 bales per winter, that is $1,560 annual savings<\/strong> \u2014 a $300 cone feeder pays back in a single winter and continues saving every year thereafter.<\/div>\n<\/div>\n
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Cattle Hay Ring Feeders: Types and Design Differences<\/h2>\n

\"commercial<\/p>\n

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Open-bottom ring (basic)<\/div>\n

A simple circular steel ring that surrounds the bale and allows animals to pull hay through the ring openings. The bale sits on bare ground at the ring base. As animals pull hay out, the lower portion of the bale falls to the ground inside and outside the ring and is trampled. Waste is primarily from the lower bale section \u2014 10\u201320% typical. Cost: $150\u2013$350. Serviceable for most beef operations as a minimum.<\/p>\n<\/div>\n

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Cone-style ring (sheeted floor)<\/div>\n

A cone-shaped central structure plus a ring perimeter that catches hay falling from the bale face and redirects it to the eating zone rather than to the ground under the animals’ feet. The cone catches material that would otherwise be trampled. Research consistently documents 5\u201310% lower waste than open-bottom rings. Cost: $400\u2013$700. Best choice for operations feeding 50+ cows where waste reduction value clearly exceeds feeder cost.<\/p>\n<\/div>\n

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Tombstone \/ cradle feeders<\/div>\n

Vertical dividers spaced to allow animals to feed from one side only, with wider spacing near the bottom to allow hay to fall into a trough rather than to the ground. Reduces competition injuries in mixed-age or mixed-size groups by limiting reach angle. Waste rates comparable to cone feeders (6\u201312%). Particularly useful for operations with dominant animals that monopolize round-bottom ring feeders, preventing adequate access for subordinate animals.<\/p>\n<\/div>\n<\/div>\n<\/div>\n

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Horse Feeding: Why Standard Cattle Rings Are Not Appropriate<\/h2>\n

Horse feeding from round bales requires different equipment and management than cattle feeding. Horses are physiologically different from cattle in two important ways that affect round bale feeding: horses cannot regurgitate and are highly susceptible to choke from bolting hay; and horses’ respiratory health is sensitive to the dust and mold spore levels that any poorly stored or ground-contact round bale produces. Standard cattle ring feeders are not designed for horse safety or hay quality maintenance.<\/p>\n

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Horse-safe ring feeder requirements<\/div>\n

Horse-specific round bale feeders use narrower bar spacing (4\u20136 inches vs 8\u201312 inches for cattle rings) to prevent horses from inserting their heads fully into the ring and becoming trapped. Smooth bar edges (no sharp protrusions or weld spatter) prevent facial lacerations. A solid floor or raised platform under the bale keeps the hay above ground moisture and allows the bottom section to be consumed rather than wasted in ground contact. Many horse farms also use slow-feed nets over bales to reduce consumption rate in horses prone to obesity or metabolic issues.<\/p>\n<\/div>\n

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Round bale quality requirements for horses<\/div>\n

Horses are more sensitive than cattle to mold spores, dust, and endophyte contamination in hay. Round bales fed to horses must be from the outer layer inward \u2014 do not expose horses to the core of a bale that has stored poorly or shows any visible mold or discoloration. Net-wrapped bales stored on a gravel pad are the minimum standard for horse-quality round bale hay \u2014 ground-contact storage produces outer-layer moisture and mold levels that are unacceptable for horses even if the interior tests well. Remove net wrap carefully, inspect the outer 3\u20134 inches, and discard any discolored or moldy material before placing the bale at the feeder.<\/p>\n<\/div>\n<\/div>\n<\/div>\n

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Feeder Placement and Rotation: Managing Mud and Pasture Damage<\/h2>\n

\"hay<\/p>\n

Round bale feeders concentrate animal traffic at a single location during winter feeding \u2014 the 30\u201350 square feet around each ring becomes the highest-traffic, highest-manure-loading zone in the entire winter feeding area. Without planned feeder rotation, this zone becomes deeply rutted, persistently muddy, and heavily nutrient-loaded, eventually limiting pasture productivity for multiple growing seasons.<\/p>\n

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Move feeders each bale<\/div>\n
Relocate the ring to a new spot on each bale change \u2014 or at minimum every 3\u20135 days. Each new location receives a fresh manure distribution, spreading nutrients across a larger area and preventing single-spot nutrient saturation. The abandoned spot recovers pasture cover within one growing season. Feeders with skid bases or wheel kits make frequent moving practical with a loader or small tractor.<\/div>\n<\/div>\n
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Winter feeding pad<\/div>\n
A designated sacrifice area \u2014 typically a gravel or concrete pad with perimeter drainage \u2014 concentrates winter feeding damage in one managed zone rather than distributing it across the pasture. The sacrifice area is easy to clean in spring, the pasture avoids wheel ruts and manure overload, and mud management is controlled. Best suited for operations with more than 30 animal units where pasture rotation is impractical in winter.<\/div>\n<\/div>\n
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Strategic placement for soil fertility<\/div>\n
When pasture fertility is uneven \u2014 wet areas with high organic matter vs upland areas that could benefit from manure application \u2014 purposefully feed on the nutrient-deficit zones to direct manure fertility where it is needed. A winter of concentrated feeding at a historically thin pasture area can be an equivalent of applying 60\u201380 lbs\/acre of nitrogen through manure deposition, improving stand density at that location over subsequent growing seasons.<\/div>\n<\/div>\n<\/div>\n<\/div>\n
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Bale Density and Feeding System Interaction<\/h2>\n

Bale density \u2014 how tightly the hay is packed in the bale \u2014 directly interacts with feeder type to determine consumption rate, hay quality at feedout, and storage loss before feeding. A low-density bale fed in an open-bottom ring presents loose, easily pullable hay that cattle waste more aggressively than a dense bale that resists easy extraction. Higher-density bales also resist weather and moisture penetration during outdoor storage, arriving at the feeder with better interior quality than low-density equivalents.<\/p>\n

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Minimum density targets by use<\/div>\n

Hay bales for cattle winter feeding: minimum 10 lbs\/cu ft, target 11\u201313 lbs\/cu ft. Horse hay for ring feeding: 11\u201313 lbs\/cu ft minimum \u2014 tighter density slows consumption rate and reduces nose-sorting that scatters hay outside the ring. Silage bales: maximum achievable density to minimize oxygen pockets. Straw bedding bales: density less critical \u2014 more important that bale integrity holds through stacking.<\/p>\n<\/div>\n

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Why dense bales feed cleaner<\/div>\n

A high-density bale maintains its circular shape through the feeding sequence \u2014 as the outer layer is consumed, the inner layers remain in a stable column that cattle can feed from rather than the bale collapsing into a loose pile that is rapidly soiled. A low-density bale collapses when partially consumed, spreading across the feeder floor and ring perimeter where it is trampled. High density is an upstream production setting that significantly reduces feeder waste without any change to the feeder itself.<\/p>\n<\/div>\n<\/div>\n

The detailed analysis of how bale density affects feed quality, DM loss during storage, and consumption efficiency is in the \u0917\u094b\u0932 \u0917\u0920\u094d\u0920\u0940 \u0918\u0928\u0924\u094d\u0935 \u0914\u0930 \u091a\u093e\u0930\u093e \u0917\u0941\u0923\u0935\u0924\u094d\u0924\u093e \u092e\u093e\u0930\u094d\u0917\u0926\u0930\u094d\u0936\u093f\u0915\u093e<\/a>. The complete feeding strategies guide \u2014 including pasture feeding versus drylot, feeding frequency, and supplement delivery with round bales \u2014 is in the round bale feeding strategies guide<\/a>. Baler settings and configuration that achieve target density for each crop type are in \u0915\u0943\u0937\u093f \u0917\u093f\u092f\u0930\u092c\u0949\u0915\u094d\u0938 \u0914\u0930 \u092a\u0940\u091f\u0940\u0913 \u0921\u094d\u0930\u093e\u0907\u0935\u0932\u093e\u0907\u0928 \u0918\u091f\u0915 \u0935\u093f\u0928\u093f\u0930\u094d\u0926\u0947\u0936<\/a>.<\/p>\n<\/div>\n

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Number of Feeders and Animals: Capacity Planning<\/h2>\n

\"commercial<\/p>\n

Undersupplying feeders relative to herd size forces competition \u2014 dominant animals monopolize access while subordinate animals consume less than their nutritional requirement. Oversupplying feeders spreads the herd across more locations, reducing competition but increasing the number of partially consumed bales exposed to weather and reducing the manure-spreading efficiency per feeder location.<\/p>\n

\n\n\n\n\n\n\n\n\n
Herd type and size<\/th>\nRecommended animals per feeder<\/th>\n\u0928\u094b\u091f\u094d\u0938<\/th>\n<\/tr>\n<\/thead>\n
Beef cow-calf pairs<\/td>\n20\u201330 pairs<\/td>\nAllow extra feeders when late-gestation cows need priority access for body condition management<\/td>\n<\/tr>\n
Stockers \/ backgrounders<\/td>\n25\u201335 head<\/td>\nUniform groups with less social hierarchy \u2014 slightly higher stocking per feeder is acceptable<\/td>\n<\/tr>\n
Mixed-age beef group<\/td>\n15\u201325 head<\/td>\nHigher competition risk \u2014 provide more feeders and monitor subordinate animal body condition<\/td>\n<\/tr>\n
Horses<\/td>\n3\u20136 horses<\/td>\nHorses have strong individual dominance hierarchies \u2014 4\u20135 horses per bale maximum to ensure all horses have access<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/div>\n<\/div>\n
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Winter Feeding Pad Design: Getting Off the Mud<\/h2>\n

A winter feeding pad is the single infrastructure investment that most reduces both hay waste and pasture damage in cold-climate beef operations. The pad concentrates animal traffic on a managed surface rather than on pasture soil, prevents the mud conditions that dramatically increase hay waste (cattle avoid lying in mud and consume hay more aggressively when standing in discomfort), and makes spring cleanup practical.<\/p>\n

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Minimum pad specification<\/div>\n

4\u20136 inches of compacted crushed limestone (or recycled concrete) on a stable base. Size for 50 square feet per animal unit. Slope 2\u20133% for drainage. The key requirement is a perimeter drainage channel that prevents surface water from draining back onto the pad \u2014 a pad that collects runoff becomes as muddy as bare ground within a few weeks of use.<\/p>\n<\/div>\n

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Cost vs benefit<\/div>\n

A 5,000 sq ft gravel pad for 100 cows costs $3,000\u2013$8,000 to construct. On a 100-cow operation feeding 300 bales of premium hay per winter, eliminating the 8\u201312% additional waste caused by mud conditions saves 24\u201336 bales \u2014 at $60\/bale value, that is $1,440\u2013$2,160 annual savings. The pad pays back within 2\u20134 seasons and continues paying for the operation’s life.<\/p>\n<\/div>\n

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USDA EQIP cost share<\/div>\n

Feeding pad construction qualifies for USDA EQIP (Environmental Quality Incentives Program) cost share funding in most states, since the practice reduces nutrient runoff from winter feeding areas into waterways. EQIP payment rates of 50\u201375% of construction cost are common for eligible operations \u2014 contact your local NRCS office before building to confirm current payment rates and application deadlines.<\/p>\n<\/div>\n<\/div>\n<\/div>\n

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Round Bale Feeding System FAQs<\/h2>\n
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\nIs unrolling bales on pasture ever the right feeding method?+<\/span><\/summary>\n
Unrolling is appropriate in specific situations where the goal is manure distribution rather than waste minimization. When feeding lower-quality hay (crop residue, straw, lower-grade grass hay) on thin pasture areas where nutrient deposition is desirable, unrolling distributes both the feed and the manure from consuming it across a large area \u2014 improving soil fertility at the sacrifice of some hay waste. Unrolling is also used in mild weather with good ground conditions when hay is being offered as a supplement to grazing and waste of a modest fraction is acceptable relative to the labor savings. For premium hay, winter conditions, confined feedlot situations, or any context where waste recovery matters financially, unrolling is not the right choice.<\/div>\n<\/details>\n
\nWhat causes the most waste in cattle ring feeders and how do I reduce it?+<\/span><\/summary>\n
The primary waste mechanism in open-bottom cattle rings is trampling of material that falls through or under the ring as the bale is consumed. As cattle pull hay out and through the ring openings, loose material falls inside the ring onto the ground, where it is quickly mixed with manure and urine, and outside the ring onto the perimeter ground. Secondary waste is “nose sorting” \u2014 cattle pull large amounts of hay through the ring, select the leafier or more palatable fraction, and drop the stems. This stem material accumulates on the ground below the ring. Reducing waste: upgrade to a cone-style ring that catches fallen material; increase bale density so the bale holds together longer before the lower section collapses; reduce animals per feeder so each animal has easier access without rushing; and on soft ground, place the feeder on a gravel pad so the ground contact zone stays firm and dry rather than muddy.<\/div>\n<\/details>\n
\nHow many bales should I have in each ring before adding a new one?+<\/span><\/summary>\n
Feed one bale per ring to full consumption before adding the next bale, rather than adding a new bale before the current one is finished. Presenting two bales simultaneously in one ring reduces waste on each individual bale, but animals will cherry-pick the freshest, most palatable material from the new bale and selectively neglect the older bale \u2014 resulting in partial consumption of multiple bales rather than complete consumption of each. Partial bale remnants left in the ring overnight absorb moisture and are often refused the following day. The exception: in severe cold weather where animals need sustained access to high volumes of hay for thermogenesis, providing two bales simultaneously can be warranted. In normal conditions, single-bale feeding to near-completion produces the best consumption efficiency.<\/div>\n<\/details>\n
\nCan I use a round bale for a slow feeder to manage horse intake?+<\/span><\/summary>\n
Yes \u2014 slow-feed round bale nets placed over the entire bale reduce the rate at which horses can extract hay, extending the time a single bale lasts and reducing overconsumption in easy keepers or metabolically sensitive horses. Slow-feed nets with 1.5\u20132.5 inch mesh openings limit the amount of hay accessible per bite, mimicking the natural grazing rate more closely than unrestricted round bale access. Benefits: reduced hay waste (horses take less excess than they drop), longer bale life, reduced risk of colic from overconsumption, and improved foraging behavior. Limitations: horses that are very food-motivated may damage the net by chewing through the mesh; inspect nets regularly for wear and replace when mesh openings have enlarged significantly from use.<\/div>\n<\/details>\n
\nDoes feeding round bales in a feedbunk reduce waste compared to ring feeders?+<\/span><\/summary>\n
Yes, when properly designed \u2014 a feedbunk that contains hay falling from the bale produces waste rates of 3\u20138%, comparable to the best ring feeder designs. The limitation is access: a feedbunk presents hay only from one side, limiting the number of animals that can feed simultaneously. A ring feeder allows 360-degree access and can serve significantly more animals per unit of equipment cost. Feedbunks are appropriate for smaller groups (10\u201320 animals) in confined settings where the bale can be placed directly in the bunk using a loader. For larger groups on pasture, the ring feeder remains the most practical equipment choice at the 20+ animal scale.<\/div>\n<\/details>\n
\nMy cattle finish each bale quickly but significant waste remains on the ground. Is this a feeder problem or a herd-size problem?+<\/span><\/summary>\n
Both are possible, but the symptom you describe \u2014 bale consumed quickly with significant ground waste \u2014 most commonly indicates either too many animals per feeder (creating competition that causes aggressive pulling and dropping) or an open-bottom ring feeder with a bale density too low to maintain column integrity. In high-competition feeding situations, cattle pull hay in large mouthfuls, frequently dropping more than they consume in the rush to get another mouthful before competitors access the same spot. Reducing animals per feeder by 30\u201340% typically reduces this waste significantly, even without changing the feeder type. If reducing competition doesn’t solve it, upgrade to a cone-style ring that physically captures the dropped material rather than allowing it to fall to the ground.<\/div>\n<\/details>\n<\/div>\n<\/div>\n
\"foragebaler.com<\/p>\n

Get Bale Density Recommendations for Your Feeding System<\/h3>\n

Tell us your feeder type, livestock species and herd size, and storage method. We confirm the target bale density setting that minimizes waste at your specific feeding system and recommend the baler configuration to achieve it consistently.<\/p>\n

\u0905\u092e\u0947\u0930\u093f\u0915\u093e \u090f\u0935\u0930-\u092a\u093e\u0935\u0930 \u092b\u094b\u0930\u0947\u091c \u092c\u0947\u0932\u0930 \u0907\u0915\u094d\u0935\u093f\u092a\u092e\u0947\u0902\u091f \u0907\u0902\u0915. | 1401 21\u0935\u0940\u0902 \u0938\u094d\u091f\u094d\u0930\u0940\u091f, \u0938\u0941\u0907\u091f \u0906\u0930 | \u0938\u0948\u0915\u094d\u0930\u093e\u092e\u0947\u0902\u091f\u094b, \u0915\u0948\u0932\u093f\u092b\u094b\u0930\u094d\u0928\u093f\u092f\u093e 95811<\/p>\n

Get Feeding System Guidance<\/a><\/p>\n<\/div>\n

\u0938\u0902\u092a\u093e\u0926\u0915: \u0938\u0940\u090f\u0915\u094d\u0938\u090f\u092e<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"

Livestock Feeding Systems Guide Round Bale Feeding Systems: Rings, Feeders, and Waste Reduction Research consistently documents that the feeding method used to deliver round bales to cattle determines 5\u201340% of total hay consumption \u2014 the fraction that is trampled, soiled, or scattered rather than eaten. On a 100-cow operation consuming 500 bales per winter, the […]<\/p>","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_et_pb_use_builder":"","_et_pb_old_content":"","_et_gb_content_width":"","footnotes":""},"categories":[28],"tags":[],"class_list":["post-960","post","type-post","status-publish","format-standard","hentry","category-forage-baler"],"_links":{"self":[{"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/posts\/960","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/comments?post=960"}],"version-history":[{"count":2,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/posts\/960\/revisions"}],"predecessor-version":[{"id":962,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/posts\/960\/revisions\/962"}],"wp:attachment":[{"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/media?parent=960"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/categories?post=960"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/foragebaler.com\/hi\/wp-json\/wp\/v2\/tags?post=960"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}